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                            <title><![CDATA[ Latest from Tom's Hardware in Skylake ]]></title>
                <link>https://www.tomshardware.com/tag/skylake</link>
        <description><![CDATA[ All the latest skylake content from the Tom's Hardware team ]]></description>
                                    <lastBuildDate>Mon, 16 Dec 2024 20:30:58 +0000</lastBuildDate>
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                                                            <title><![CDATA[ China's dual 16-core Hygon CPU server rack barely outperforms a quad-core Skylake Core i7-6700HQ mobile CPU in Geekbench AI ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/pc-components/cpus/chinas-dual-16-core-hygon-cpu-server-rack-barely-outperforms-a-quad-core-skylake-core-i7-6700hq-mobile-cpu-in-geekbench-ai</link>
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                            <![CDATA[ A server rack consisting of two Hygon 16 core server processors was tested in Geekbench AI and could barely outperform a 10 year old mobile Core i7 quad-core CPU. ]]>
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                                                                        <pubDate>Mon, 16 Dec 2024 20:30:58 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:42:17 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Hygon x86 CPU]]></media:description>                                                            <media:text><![CDATA[Hygon x86 CPU]]></media:text>
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                                <p>A rack comprised of two Hygon server-based processors was spotted on the Geekbench browser featuring a run of Geekbench's new AI-based benchmark. <a href="https://x.com/BenchLeaks/status/1868588890988163526?t=dBrvVOp4TrOlOvF1bUUq7Q&s=31">Benchleaks on X</a> reports that the chip's CPUID name is 900F22.</p><p>Sadly for the company, the dual-CPU configuration scored abysmal results in Geekbench's AI benchmark. The single precision score was 1,412 points, half precision score 531, and the quantized score was 1,523. The two CPUs operated at a base frequency of 3GHz flat and were paired with 64GB of memory.</p><p>By comparison, Intel's nearly 10-year-old Skylake-based Core i7-6700HQ quad-core mobile CPU was barely any slower than the dual 32-core chips, featuring a single precision score of 1,113 points, half-precision score of 589 points and a quantized score of 1,394 points.</p><div ><table><tbody><tr><td class="firstcol empty" ></td><td  >Single Precision Score</td><td  >Half Precision Score</td><td  >Quantized Score</td></tr><tr><td class="firstcol " >Dual Hygion 16-core CPUs</td><td  >1,412</td><td  >531</td><td  >1,523</td></tr><tr><td class="firstcol " >Core i7-6700HQ</td><td  >1,113</td><td  >589</td><td  >1,394</td></tr><tr><td class="firstcol " >Ryzen 5 7600X</td><td  >3,542</td><td  >1,686</td><td  >1,394</td></tr></tbody></table></div><p>Compared to a much more modern CPU, the Hygon-based server rack is (expectedly) vastly outperformed by mid-range desktop CPU hardware. For instance, one AMD Ryzen 5 7600X user report we pulled up scored 3,542 points in single precision, 1,686 points in half-precision, and 6,281 points in quantized, representing a 2.5x to 4x performance improvement over the Hygon server CPUs, despite having only a fraction of the number of cores.</p><p>We can't be sure what exact Hygon CPU model was tested, but regardless, Hygon only utilizes AMD's original Zen architecture from 2017 in all of its server chips — in-fact, it has figured out a way to port AMD's Zen architecture into AMD's latest <a href="https://www.tomshardware.com/pc-components/cpus/chinas-new-hygon-cpu-spotted-with-64-zen-cores-c86-7490-supports-12-channel-ddr5-memory-and-resides-in-amd-sp5-socket">SP5 socket</a>, which powers its latest Zen 5-based chips. This is why Hygon's CPUs suffer a serious performance deficit compared to all modern CPUs, despite having many cores. </p><p>Hygon is a fabless Chinese-based chip maker, and due to U.S. sanctions, it can't use anything beyond AMD's original Zen architecture (at least for now), which is the company's Achilles heel for competitive generational performance improvements. The only way it has been able to boost performance is by adding more cores to its CPUs and adding more CPUs to its platform, which does help boost multi-core performance but critically doesn't help in most other areas such as single-core IPC and latency-related bottlenecks, not to mention missing out on the latest CPU instruction sets such as AVX-512.</p>
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                                                            <title><![CDATA[ Linux 6.13-rc3 fixes expensive CPUID handling on Sapphire Rapids CPUs — an issue resulting in Skylake CPUs being 4X faster for CPUID-related updates ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/pc-components/cpus/linux-6-13-rc3-fixes-expensive-cpuid-handling-on-sapphire-rapids-cpus-an-issue-resulting-in-skylake-cpus-being-4x-faster-for-cpuid-related-updates</link>
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                            <![CDATA[ The Linux team has published an intermediate Linux 6.13-rc3 to fix a "hilarious" bug in the kernel-based Virtual Machine code ]]>
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                                                                        <pubDate>Mon, 16 Dec 2024 18:20:43 +0000</pubDate>                                                                                                                                <updated>Wed, 09 Apr 2025 13:17:40 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                                            <media:credit><![CDATA[Intel]]></media:credit>
                                                                                                                                                                                                                                    <media:description><![CDATA[Intel Granite Rapids Xeon 6900P ]]></media:description>                                                            <media:text><![CDATA[Intel Granite Rapids Xeon 6900P ]]></media:text>
                                <media:title type="plain"><![CDATA[Intel Granite Rapids Xeon 6900P ]]></media:title>
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                                <p>The Linux team has published an intermediate Linux 6.13-rc3 to fix a "hilarious" bug in the kernel-based Virtual Machine code — <a href="https://www.phoronix.com/news/Linux-6.13-rc3-Released">Phoronix reports</a>, where CPUID updates are taking significantly longer time to be processed on <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">Sapphire Rapids</a> CPUs than they should be, resulting in much older Skylake CPUs being up to 4X faster in regards to CPUID cost.</p><p>Phoronix reveals that Google engineers originally discovered this technical issue in how Sapphire Rapids processes CPUID information in nested VMs. Specifically, Google's Sean Christopherson states, <em>"On Intel's Emerald Rapids, CPUID is *wildly* expensive, to the point where recomputing XSAVE offsets and sizes results in a 4x increase in latency of nested VM-Enter and VM-Exit (nested transitions can trigger  xstate_required_size() multiple times per transition), relative to using cached values. The issue is easily visible by running `perf top` while  triggering nested transitions: kvm_update_cpuid_runtime() shows up at a  whopping 50%..."</em></p><p>This performance bug/regression won't be purportedly fixed until Linux 6.14, but the issue is severe enough for the Linux devs to fix the outgoing Linux 6.13 kernel temporarily. Update 6.13-rc3 caches the CPUID data on Sapphire Rapid CPUs, speeding up this process. The Linux 6.14 implementation of the complete fix will result in all the CPUIDs nested in VM-Enter and VM-Exit being completely deleted.</p><p>For those unaware, CPUID is an instruction that lets software discover details of the processor it is running on. On Sapphire Rapids, the software reading CPU information through the CPUID instruction takes up to 4X longer than on much older Skylake CPUs. This only occurs inside nested virtualization transitions, which only happen when a VM runs inside a VM.</p><p>The Linux 6.13-rc3 comes with various other bug/regression fixes. However, the caching workaround for expensive CPUID handling appears to be one of the more critical updates to the kernel. Again, this caching technique is just a workaround, with Linux 6.14's complete fix for the issue.</p>
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                                                            <title><![CDATA[ Firmware flaw affects numerous generations of Intel CPUs — UEFI code execution vulnerability found for Intel CPUs from 14th Gen Raptor Lake to 6th Gen Skylake CPUs, and TPM will not save you ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/pc-components/cpus/firmware-flaw-affects-numerous-generations-of-intel-cpus-uefi-code-execution-vulnerability-found-for-intel-cpus-from-14th-gen-raptor-lake-to-6th-gen-skylake-cpus</link>
                                                                            <description>
                            <![CDATA[ Phoenix Technologies is the latest to report buffer overflow into arbitrary code execution, which was made possible through a widespread exploit on several generations of Intel CPUs, with or without TPM support. ]]>
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                                                                        <pubDate>Sat, 22 Jun 2024 19:29:32 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:55:31 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
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                                                                                                                    <dc:creator><![CDATA[ Christopher Harper ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/qS2hbWnXwNUSmgyAHBQqKB.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Christopher Harper has been a successful freelance tech writer specializing in PC hardware and gaming since 2015, and ghostwrote&amp;nbsp;for various B2B clients in High School before that. Outside of work, Christopher is best known to friends and rivals as an active competitive player in various eSports (particularly fighting games and arena shooters) and a purveyor of music ranging from Jimi Hendrix to Killer Mike to the&amp;nbsp;Sonic Adventure 2&amp;nbsp;soundtrack.&lt;br&gt;
&lt;/p&gt; ]]></dc:description>
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                                                            <media:credit><![CDATA[Eclypsium]]></media:credit>
                                                                                                                                                                        <media:description><![CDATA[Eclypsium graphic short-handing how the buffer overflow UEFI exploit jeopardizes nearly any system.]]></media:description>                                                            <media:text><![CDATA[Eclypsium graphic short-handing how the buffer overflow UEFI exploit jeopardizes nearly any system.]]></media:text>
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                                <p>Using its automated binary analysis system Eclypsium Automata, <a href="https://eclypsium.com/blog/ueficanhazbufferoverflow-widespread-impact-from-vulnerability-in-popular-pc-and-server-firmware/">Eclypsium</a> has uncovered the existence of high-impact security vulnerabilities in Phoenix SecureCore UEFI firmware used by a wide variety of motherboard providers and Intel CPUs spanning from 14th Gen to 6th Gen—all the "Lakes" in other words. This vulnerability also extends to several other UEFI BIOS vendors, including <a href="https://support.lenovo.com/us/en/product_security/LEN-158632">Lenovo, Intel, Insyde, and AMI</a>. Phoenix is the latest to join the list.</p><p>The specific Phoenix SecureCore UEFI firmware vulnerability that prompted this posting is referred to as "UEFIcanhazbufferoverflow" by Eclypsium, which is just a funny way of pointing out that this is a buffer overflow exploit. The specific method in which the "UEFIcanhazbufferoverflow" exploit works is by using an unsafe call to the "GetVariable" UEFI service.</p><p>By making unsafe calls, a stack buffer overflow can be created, allowing for arbitrary code to be executed. In the BIOS or its modern counterpart, the UEFI, even a buffer overflow allows for full-system access and control to be gained very quickly, and the consequences of that happening can be challenging to remove from a PC permanently. Sometimes, it may even be impossible without replacing the machine entirely— and that&apos;s not counting passwords and such that may become compromised and still need changing between machines.</p><p>Any potentially impacted Intel user should update their BIOS to protect from this issue as soon as possible, though not before creating backups of important files and the original BIOS just in case something goes wrong. Since exploits impacting UEFI are as close to Layer 0 as they get with PC hardware, it&apos;s essential for all parties involved to act as quickly and safely as possible.</p><p>As noted by Eclypsium, this Phoenix vulnerability was discovered in a hands-off manner by its Automata security system, which is an automated binary analysis system using the research data of Eclypsium&apos;s own researchers. While there are certainly issues with things like<a href="https://www.tomshardware.com/software/linux/linux-distros-ban-tainted-ai-generated-code"> AI-written code</a> and AI "<a href="https://www.tomshardware.com/tech-industry/artificial-intelligence/ai-image-generators-output-copyrighted-characters">generated</a>" art, it&apos;s always nice to see cutting-edge AI and machine learning tech put toward something useful for humanity.</p>
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                                                            <title><![CDATA[ CPU Benchmarks and Hierarchy 2026: CPU Rankings ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/reviews/cpu-hierarchy,4312.html</link>
                                                                            <description>
                            <![CDATA[ All of today's desktop CPU benchmarks compared, including Intel's 13th-Gen Core series and AMD's Ryzen Zen 4 and Threadripper. ]]>
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                                                                        <pubDate>Sat, 18 Nov 2023 13:25:13 +0000</pubDate>                                                                                                                                <updated>Mon, 29 Jun 2026 14:25:49 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Jake Roach ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/h6PRM8bTimCTnNfoAYfjAi.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Jake Roach has been bending pins and busting solder joints since the mid-2000s. From trying to run scratched CDs of &lt;em&gt;Delta Force &lt;/em&gt;and &lt;em&gt;Unreal Tournament &lt;/em&gt;to spitting out virtual machines on a Threadripper, Jake has been on the hunt for the latest hardware and highest performance for decades. That eventually spun up a career, with Jake serving as Lead Reporter at Digital Trends, as well as contributing to outlets like XDA, PC Invasion, Business Insider, and WIRED. At Tom’s Hardware, Jake is focused on consumer and workstation CPUs. Outside working hours, you’ll find him knee-deep in the latest roguelite taking over Steam, spending way too much money on &lt;em&gt;Magic: The Gathering, &lt;/em&gt;or forcing his lazy corgi onto walks.&lt;/p&gt; ]]></dc:description>
                                                                                                        <dc:contributor><![CDATA[ Paul Alcorn ]]></dc:contributor>
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                                <div  class="fancy-box"><div class="fancy_box-title">More CPU content:</div><div class="fancy_box_body"><p class="fancy-box__body-text"><ul><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/reviews/best-cpus,3986.html" target="_blank">The Best CPU for Gaming</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/features/amd-vs-intel-cpus" target="_blank">Intel vs AMD</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/reviews/cpu-buying-guide,5643.html" target="_blank">CPU Buying Guide</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/features/best-cpu-deals" target="_blank">Best CPU Deals</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/pc-components/cpus/intel-core-ultra-9-285k-vs-amd-ryzen-7-9800x3d-faceoff-battle-of-the-gaming-flagships" target="_blank">AMD Ryzen 7 9800X3D vs Intel Core Ultra 9 285K Faceoff</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/reviews/best-gpus,4380.html" target="_blank">The Best GPU for Gaming</a></li><li><a data-analytics-id="inline-link" href="https://www.tomshardware.com/pc-components/cpus" target="_blank">All CPU Content</a></li></ul></p></div></div><p>Our CPU benchmark hierarchy provides a broad view of relative performance for the latest Intel and AMD processors. Over the last 30 years, Tom’s Hardware has been benchmarking CPUs, and we use the rankings here as the basis of our <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><u>best CPUs for gaming</u></a> and <a href="https://www.tomshardware.com/reviews/best-cheap-cpus,5668.html"><u>best budget CPU</u></a> rankings. We run over 200 individual tests for each CPU we look at, and that comprehensive performance is condensed here for a high-level view of how CPUs compare across gaming, single-threaded, and multithreaded performance. </p><p>Each of our CPU benchmarks helps expose different aspects of performance, from heavily-threaded code compilation and data science workloads to lightly-threaded web apps and audio encoding. We’re currently in the process of the biggest refresh to our CPU benchmarks hierarchy ever, spanning over a decade of processor releases. The results here provide the first half of that testing, focusing on DDR5 platforms that span the <a href="https://www.tomshardware.com/features/amd-vs-intel-cpus"><u>AMD vs Intel</u></a> product lineups. As we fill out our legacy benchmarks, you’ll see more CPUs added to our rankings. If you want to check the performance of older CPUs now, you can use the second page of this article to see our legacy benchmarks. </p><p>In games, <a href="https://www.tomshardware.com/pc-components/cpus/amd-ryzen-7-9850x3d-review"><u>AMD’s Ryzen 7 9850X3D</u></a> is the fastest CPU on the market, though other Zen 5 X3D offerings like the <a href="https://www.tomshardware.com/pc-components/cpus/amd-ryzen-9-9950x3d-review"><u>Ryzen 9 9950X3D</u></a> and <a href="https://www.tomshardware.com/pc-components/cpus/amd-ryzen-7-9800x3d-review-devastating-gaming-performance"><u>Ryzen 7 9800X3D </u></a>aren’t far behind. X3D chips dominate the charts for gaming at 1080p, with the other exception being the relatively unpopular (and expensive) Ryzen 9 7900X3D. Otherwise, Intel’s last-gen Core i9-14900K is the fastest offering from Team Blue, with the new Core Ultra 7 270K Plus coming in slightly behind <a href="https://www.tomshardware.com/pc-components/cpus/intels-binary-optimization-tool-tested-and-explained-how-the-ibot-translation-delivers-up-to-18-percent-faster-gaming-performance-8-percent-on-average"><u>with Intel’s new iBOT feature</u></a>. </p><p>Intel pulls out strong positions in applications; however, with the <a href="https://www.tomshardware.com/pc-components/cpus/intel-core-ultra-7-270k-plus-review/"><u>Core Ultra 7 270K Plus </u></a>topping the charts in single-threaded performance and coming in third in multi-threaded rankings. It’s only beaten by the Ryzen 9 9950X and its X3D variant, and only by a hair. Further, both of those CPUs cost about twice as much. AMD's recent <a href="https://www.tomshardware.com/pc-components/cpus/amd-ryzen-9-9950x3d2-review">Ryzen 9 9950X3D2</a> claims the top slot in overall performance, but at $900, it's too expensive for most buyers. </p><p>In each section below, we’ll show you the rankings for each CPU, as well as reveal what tests went into creating the rankings. We’ll also give you some pointers for benchmarking your own CPU to see how much performance an upgrade or overclock netted you, along with some common, easy-to-run benchmarks you can perform yourself. </p><h3 class="article-body__section" id="section-cpu-benchmarks-rankings-2026"><span>CPU Benchmarks Rankings 2026</span></h3><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/DDw3RLrourqMvUZa2Ugp9f.png" alt="CPU Benchmark Rankings" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/jBp8pv3MTsgV9U2yXWjp9f.png" alt="CPU Benchmark Rankings" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/inLKtbMy7MiHA6ZRPj8nAf.png" alt="CPU Benchmark Rankings" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/SmDdzbKGWsiS2fFtifxNCf.png" alt="CPU Benchmark Rankings" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><p>In the album above, you can see our master charts for gaming, single-threaded, and multi-threaded performance for CPUs. For games, all of our testing was done with an Nvidia RTX 5090 FE, and for applications, our testing was done with an Nvidia RTX 2080 Ti FE. For applications, no compute is actively running on the GPU; it’s a glorified display output that shares a driver with our gaming GPU. You can find a full breakdown of the test benches we used at the end of this article. </p><h3 class="article-body__section" id="section-gaming-cpu-benchmarks-rankings-2026"><span>Gaming CPU Benchmarks Rankings 2026</span></h3><div ><table><caption> Gaming CPU Benchmarks Rankings 2026</caption><tbody><tr><td class="firstcol " ><p><strong>CPU / (MSRP)</strong></p></td><td  ><p><strong>Street Price</strong></p></td><td  ><p><strong>1080p Gaming Score</strong></p></td><td  ><p><strong>Architecture</strong></p></td><td  ><p><strong>Cores/Threads (P+E)</strong></p></td><td  ><p><strong>Base/Boost Clock (GHz)</strong></p></td><td  ><p><strong>TDP / Maximum Power</strong></p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9850X3D ($500)</p></td><td  ><p><a href="https://www.amazon.com/AMD-RyzenTM-9850X3D-Desktop-Processor/dp/B0G8JMLXNQ/"><u>$499</u></a></p></td><td  ><p>100%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9800X3D ($480)</p></td><td  ><p><a href="https://www.amazon.com/AMD-9800X3D-16-Thread-Desktop-Processor/dp/B0DKFMSMYK/"><u>$464</u></a></p></td><td  ><p>97%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.2 </p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X3D ($700)</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-9950X3D-16-Core-Processor/dp/B0DVZSG8D5/"><u>$676</u></a></p></td><td  ><p>95.7%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.3 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X3D ($600)</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-9900X3D-12-Core-Processor/dp/B0DWGWN8GY/"><u>$530</u></a></p></td><td  ><p>86.9%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.5</p></td><td  ><p>120W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7800X3D ($450)</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-7800X3D-16-Thread-Processor/dp/B0BTZB7F88/"><u>$399</u></a></p></td><td  ><p>85.6%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.2 / 5</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X3D ($700)</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-7950X3D-Hexadeca-core-Processor/dp/B0BTRH9MNS/"><u>$650</u></a></p></td><td  ><p>83.9%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.2 / 5.7</p></td><td  ><p>120W / 162W </p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X3D ($300)</p></td><td  ><p><a href="https://www.amazon.com/AMD-7600X3D-Raphael-4-1GHz-Processor/dp/B0F9XH8DBP/"><u>$246</u></a></p></td><td  ><p>80.6%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.7</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Core i9-14900K ($550)</p></td><td  ><p><a href="https://www.amazon.com/i9-14900K-Desktop-Processor-Integrated-Graphics/dp/B0CGJDKLB8/"><u>$469</u></a></p></td><td  ><p>78.2%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3.2 / 6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 270K Plus ($300)</p></td><td  ><p><a href="https://www.newegg.com/intel-core-ultra-7-270k-plus-core-ultra-7-series-2-arrow-lake-refresh-lga-1851-desktop-cpu-processor/p/N82E16819118628"><u>$350</u></a></p></td><td  ><p>77.5%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7900X3D ($600)</p></td><td  ><p>Out of Stock</p></td><td  ><p>77.1%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X ($650)</p></td><td  ><p><a href="https://www.amazon.com/AMD-RyzenTM-9950X-32-Thread-Processor/dp/B0D6NNRBGP/"><u>$520</u></a></p></td><td  ><p>76.9%</p></td><td  ><p>Zen 5</p></td><td  ><p>16 / 32</p></td><td  ><p>4.7 / 5/7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Core i9-13900K ($590)</p></td><td  ><p>Out of Stock</p></td><td  ><p>76.8%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3 / 5.8</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core i7-14700K ($410)</p></td><td  ><p><a href="https://www.amazon.com/i7-14700K-Desktop-Processor-Integrated-Graphics/dp/B0CGJ41C9W/"><u>$340</u></a></p></td><td  ><p>76.4%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>20 / 28 (8+12)</p></td><td  ><p>3.4 / 5.6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core i7-13700K ($410)</p></td><td  ><p>Out of Stock</p></td><td  ><p>75.8%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>16 / 24 (8+8)</p></td><td  ><p>3.4 / 5.4</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X ($500)</p></td><td  ><p><a href="https://www.amazon.com/AMD-RyzenTM-9900X-24-Thread-Processor/dp/B0D6NN87T8/"><u>$439</u></a></p></td><td  ><p>73.9%</p></td><td  ><p>Zen 5</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 250K Plus ($200)</p></td><td  ><p><a href="https://www.newegg.com/intel-core-ultra-5-250k-plus-core-ultra-5-series-2-arrow-lake-refresh-lga-1851-desktop-cpu-processor/p/N82E16819118629"><u>$220</u></a></p></td><td  ><p>73.3%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>18 / 18 (6+12)</p></td><td  ><p>4.2 / 5.3</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14600K ($320)</p></td><td  ><p><a href="https://www.amazon.com/i5-14600K-Desktop-Processor-Integrated-Graphics/dp/B0CGJ9STNF/"><u>$300</u></a></p></td><td  ><p>72.8%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 9600X ($280)</p></td><td  ><p><a href="https://www.amazon.com/AMD-RyzenTM-9600X-12-Thread-Processor/dp/B0D6NN6TM7/"><u>$188</u></a></p></td><td  ><p>72.6%</p></td><td  ><p>Zen 5</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 5.4</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 9 285K ($590)</p></td><td  ><p><a href="https://www.amazon.com/Intel-Core-Ultra-Processor-285K/dp/B0DFKC99VL/"><u>$557</u></a></p></td><td  ><p>71.8%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.7</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X ($700)</p></td><td  ><p>Out of Stock</p></td><td  ><p>71%</p></td><td  ><p>Zen 4</p></td><td  ><p>16 / 32</p></td><td  ><p>4.5 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Core i5-13600K ($320)</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-13600K-Desktop-Processor-P-cores/dp/B0BCDR9M33/"><u>$319</u></a></p></td><td  ><p>70.9%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.1</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7700X ($400)</p></td><td  ><p><a href="https://www.amazon.com/AMD-7700X-16-Thread-Unlocked-Processor/dp/B0BBHHT8LY/"><u>$249</u></a></p></td><td  ><p>70.6%</p></td><td  ><p>Zen 4</p></td><td  ><p>8 / 16</p></td><td  ><p>4.5 / 5.4</p></td><td  ><p>105W / 142W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 265K ($400)</p></td><td  ><p><a href="https://www.amazon.com/Intel-Core-Ultra-Processor-265K/dp/B0DFK2MH2D/"><u>$284</u></a></p></td><td  ><p>70.3%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>20 / 20 (8+12)</p></td><td  ><p>3.9 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7900X ($550)</p></td><td  ><p><a href="https://www.amazon.com/AMD-7900X-24-Thread-Unlocked-Processor/dp/B0BBJ59WJ4/"><u>$299</u></a></p></td><td  ><p>69.2%</p></td><td  ><p>Zen 4</p></td><td  ><p>12 / 24</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X ($300)</p></td><td  ><p><a href="https://www.amazon.com/AMD-7600X-12-Thread-Unlocked-Processor/dp/B0BBJDS62N/"><u>$180</u></a></p></td><td  ><p>67.3%</p></td><td  ><p>Zen 4</p></td><td  ><p>6 / 12</p></td><td  ><p>4.7 / 5.3</p></td><td  ><p>105W / 142W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 245K ($320)</p></td><td  ><p><a href="https://www.amazon.com/Intel-Core-Ultra-Processor-245K/dp/B0DFK2P311/"><u>$202</u></a></p></td><td  ><p>67.1%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>14 / 14 (6+8)</p></td><td  ><p>4.2 / 5.2</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Core i7-12700K ($410)</p></td><td  ><p><a href="https://www.amazon.com/Intel-i7-12700K-Desktop-Processor-Unlocked/dp/B09FXNVDBJ/"><u>$285</u></a></p></td><td  ><p>65.8%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8+4)</p></td><td  ><p>3.6 / 5</p></td><td  ><p>125W / 190W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 225 ($183)</p></td><td  ><p><a href="https://www.amazon.com/Intel%C2%AE-CoreTM-Desktop-Processor-P-cores/dp/B0DT7DXXJT/"><u>$180</u></a></p></td><td  ><p>62.5%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>10 / 10 (6+4)</p></td><td  ><p>3.3 / 4.9</p></td><td  ><p>65W / 121W</p></td></tr><tr><td class="firstcol " ><p>Core i5-12600K ($290)</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-12600K-Desktop-Processor-Unlocked/dp/B09FX4D72T/"><u>$185</u></a></p></td><td  ><p>60.8%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125W / 150W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14400 ($220)</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-14400-Desktop-Processor-P-cores/dp/B0CQ1M1YXM/"><u>$250</u></a></p></td><td  ><p>58%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>2.5 / 4.7</p></td><td  ><p>65W / 154W</p></td></tr></tbody></table></div><p>You can see the relative score for AMD and Intel CPUs above, measured against the Ryzen 7 9850X3D, which is the fastest gaming CPU on the market, per our testing. So, the Ryzen 7 9800X3D offers 97.04% of the performance of the Ryzen 7 9850X3D, while the Ryzen 9 7900X offers 69.28% of the performance. You can set any CPU as a baseline for comparison with Bench, which is available in <em>Tom’s Hardware Premium. </em></p><p>All of our gaming tests were run with the RTX 5090 FE at 1080p with a mixture of High and Ultra settings. We run each test multiple times — usually between three and five — and pick the median result. In other words, the results we use are real, recorded runs, not an average of several different runs. This is important as some games, such as <em>Far Cry 6, </em>show great CPU scaling but are otherwise inconsistent run-to-run. </p><p>In addition to consistent hardware (test benches at the end of this article), we use a consistent test image between platforms. That means the same GPU driver, the same Windows install, the game version, etc. We also tested with Virtualization-Based Security (VBS) turned off, Resizable BAR turned on, and automatic overclocking features disabled. That includes the Intel Extreme power profile and AMD’s PBO, both of which aren’t covered under standard warranty. </p><p>For this refresh, we tested 17 games and then calculated a geometric mean of the results. A simple average would provide skewed results with such a large test pool. A geomean provides a more realistic view of how each CPU compares to the others.</p><p>Here are the games that we used for testing: </p><ul><li><em>Counter-Strike 2</em></li><li><em>The Last of Us Part One</em></li><li><em>Cyberpunk 2077</em></li><li><em>Starfield</em></li><li><em>A Plague Tale: Requiem</em></li><li><em>Hogwarts Legacy</em></li><li><em>F1 24</em></li><li><em>Marvel’s Spider-Man 2</em></li><li><em>Baldur’s Gate 3</em></li><li><em>Monster Hunter: Wilds</em></li><li><em>Final Fantasy XIV</em></li><li><em>Microsoft Flight Simulator 2024</em></li><li><em>Doom: The Dark Ages</em></li><li><em>Oblivion Remastered</em></li><li><em>Far Cry 6</em></li><li><em>Hitman 3</em></li><li><em>Minecraft RTX</em></li></ul><p>We’re constantly evaluating new games to include in our test suite — see our recent stories on <a href="https://www.tomshardware.com/pc-components/cpus/testing-cpu-scaling-in-resident-evil-requiem-and-why-we-werent-able-to-finish-the-job"><u><em>Resident Evil Requiem </em></u><u>CPU scaling</u></a> and <a href="https://www.tomshardware.com/pc-components/cpus/testing-cpu-scaling-in-crimson-desert-x3d-wins-but-not-by-much-and-raptor-lake-shines"><u><em>Crimson Desert </em></u><u>CPU scaling</u></a> — but we maintain a list of tried-and-true benchmarks for our hierarchy rankings. We want to avoid including brand-new titles, which may see many updates, to keep our rankings as true to reality as possible. If you want more about the rationale behind our game choices, see our <a href="https://www.tomshardware.com/pc-components/cpus/behind-the-scenes-of-our-massive-cpu-retest-for-bench-testing-at-1080p-choosing-new-apps-and-gathering-data-for-a-decade-of-cpus"><u>behind the scenes look at our CPU hierarchy</u></a> testing. </p><h3 class="article-body__section" id="section-single-threaded-cpu-benchmarks-rankings-2026"><span>Single-Threaded CPU Benchmarks Rankings 2026</span></h3><div ><table><caption>2026 Single-Threaded CPU Benchmarks</caption><tbody><tr><td class="firstcol empty" ></td><td  ><p><strong>Single-Threaded App Score</strong></p></td><td  ><p><strong>Architecture</strong></p></td><td  ><p><strong>Cores/Threads (P+E)</strong></p></td><td  ><p><strong>Base/Boost Clock (GHz)</strong></p></td><td  ><p><strong>TDP / Maximum Power</strong></p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 270K Plus</p></td><td  ><p>100%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 9 285K</p></td><td  ><p>98.5%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.7</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 265K</p></td><td  ><p>96.8%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>20 / 20 (8+12)</p></td><td  ><p>3.9 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Core i9-14900K</p></td><td  ><p>95.4%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3.2 / 6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 250K Plus</p></td><td  ><p>94%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>18 / 18 (6+12)</p></td><td  ><p>4.2 / 5.3</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X</p></td><td  ><p>93.3%</p></td><td  ><p>Zen 5</p></td><td  ><p>16 / 32</p></td><td  ><p>4.7 / 5/7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9850X3D</p></td><td  ><p>93.2%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X3D</p></td><td  ><p>92.8%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.3 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 245K</p></td><td  ><p>92.5%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>14 / 14 (6+8)</p></td><td  ><p>4.2 / 5.2</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Core i9-13900K</p></td><td  ><p>92.4%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3 / 5.8</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X</p></td><td  ><p>92.2%</p></td><td  ><p>Zen 5</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X3D</p></td><td  ><p>90.8%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.5</p></td><td  ><p>120W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9700X / 105W TDP</p></td><td  ><p>90.6% / 90.5%</p></td><td  ><p>Zen 5</p></td><td  ><p>8 /16</p></td><td  ><p>3.8 / 5.5</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Core i7-14700K</p></td><td  ><p>90.1%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>20 / 28 (8+12)</p></td><td  ><p>3.4 / 5.6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 9600X / 105W TDP</p></td><td  ><p>89% / 88.9%</p></td><td  ><p>Zen 5</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 5.4</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9800X3D</p></td><td  ><p>87.6%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.2 </p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 225</p></td><td  ><p>87.3%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>10 / 10 (6+4)</p></td><td  ><p>3.3 / 4.9</p></td><td  ><p>65W / 121W</p></td></tr><tr><td class="firstcol " ><p>Core i7-13700K</p></td><td  ><p>86.7%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>16 / 24 (8+8)</p></td><td  ><p>3.4 / 5.4</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14600K</p></td><td  ><p>85.8%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X3D</p></td><td  ><p>85.4%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.2 / 5.7</p></td><td  ><p>120W / 162W </p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X</p></td><td  ><p>85.2%</p></td><td  ><p>Zen 4</p></td><td  ><p>16 / 32</p></td><td  ><p>4.5 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7900X3D</p></td><td  ><p>84%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7700X</p></td><td  ><p>84%</p></td><td  ><p>Zen 4</p></td><td  ><p>8 / 16</p></td><td  ><p>4.5 / 5.4</p></td><td  ><p>105W / 142W</p></td></tr><tr><td class="firstcol " ><p>Core i5-13600K</p></td><td  ><p>82.4%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.1</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Core i7-12700K</p></td><td  ><p>79.7%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8+4)</p></td><td  ><p>3.6 / 5</p></td><td  ><p>125W / 190W</p></td></tr><tr><td class="firstcol " ><p>Core i5-12600K</p></td><td  ><p>78.6%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125W / 150W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7800X3D</p></td><td  ><p>77.3%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.2 / 5</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14400</p></td><td  ><p>75.4%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>2.5 / 4.7</p></td><td  ><p>65W / 154W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X3D</p></td><td  ><p>73.2%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.7</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X</p></td><td  ><p>71.5%</p></td><td  ><p>Zen 4</p></td><td  ><p>6 / 12</p></td><td  ><p>4.7 / 5.3</p></td><td  ><p>105W / 142W</p></td></tr></tbody></table></div><p>We run hundreds of tests for each CPU, but only a small subset of those tests factor into our single-threaded rankings. We use the mp3 encoder LAME with a single thread (both standard and extended), Cinebench 2026 and 2024’s single-threaded test, the ray-traced renderer POV-ray, and WebXRT4, which runs a series of browser-based applications written in various languages. </p><p>The fastest chip in the pool here is the Core Ultra 7 270K Plus, which scores 100%, with every other chip scored relative to it. The Core i9-14900K offers 95.4% of the single-threaded performance of the Core Ultra 7 270K Plus, the Ryzen 5 9600X offers 89% of the performance, and so on. </p><p>Most real-world workloads aren’t strictly single-threaded, which is why we include it on a subset of the total tests we run. The goal is to see what relative performance looks like in lightly-threaded applications, as well as look into the overall architecture of different CPUs. Single-threaded performance exposes a lot about the architecture in a way that heavily-threaded applications tend to mask. </p><p>We’re, of course, looking at performance on a single core, favoring high clock speeds and IPC (instructions per cycle). However, single-threaded performance also says a lot about what’s going on elsewhere inside the CPU, from the speed of the IMC (integrated memory controller) to the fabric/ring speed. That’s why we see things like the Core Ultra 7 270K Plus outperforming the Core Ultra 9 285K, despite the latter sporting higher clock speeds. </p><h3 class="article-body__section" id="section-multi-threaded-cpu-benchmarks-rankings-2026"><span>Multi-Threaded CPU Benchmarks Rankings 2026</span></h3><div ><table><caption>2026 Multi-Threaded CPU Benchmarks</caption><tbody><tr><td class="firstcol empty" ></td><td  ><p><strong>Single-Threaded App Score</strong></p></td><td  ><p><strong>Architecture</strong></p></td><td  ><p><strong>Cores/Threads (P+E)</strong></p></td><td  ><p><strong>Base/Boost Clock (GHz)</strong></p></td><td  ><p><strong>TDP / Maximum Power</strong></p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X3D</p></td><td  ><p>100%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.3 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9950X</p></td><td  ><p>96.8%</p></td><td  ><p>Zen 5</p></td><td  ><p>16 / 32</p></td><td  ><p>4.7 / 5/7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 270K Plus</p></td><td  ><p>95.6%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 9 285K</p></td><td  ><p>88.7%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>24 / 24 (8+16)</p></td><td  ><p>3.7 / 5.7</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X</p></td><td  ><p>88%</p></td><td  ><p>Zen 4</p></td><td  ><p>16 / 32</p></td><td  ><p>4.5 / 5.7</p></td><td  ><p>170W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7950X3D</p></td><td  ><p>84.4%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>16 / 32</p></td><td  ><p>4.2 / 5.7</p></td><td  ><p>120W / 162W </p></td></tr><tr><td class="firstcol " ><p>Core i9-14900K</p></td><td  ><p>83.9%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3.2 / 6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core i9-13900K</p></td><td  ><p>81%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3 / 5.8</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 7 265K</p></td><td  ><p>78.9%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>20 / 20 (8+12)</p></td><td  ><p>3.9 / 5.5</p></td><td  ><p>125W / 250W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X3D</p></td><td  ><p>77%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.5</p></td><td  ><p>120W / 230W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 9900X</p></td><td  ><p>76.7%</p></td><td  ><p>Zen 5</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Core i7-14700K</p></td><td  ><p>75.1%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>20 / 28 (8+12)</p></td><td  ><p>3.4 / 5.6</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 250K Plus</p></td><td  ><p>70.9%</p></td><td  ><p>Arrow Lake Refresh</p></td><td  ><p>18 / 18 (6+12)</p></td><td  ><p>4.2 / 5.3</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Core i7-13700K</p></td><td  ><p>67.1%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>16 / 24 (8+8)</p></td><td  ><p>3.4 / 5.4</p></td><td  ><p>125W / 253W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 9 7900X3D</p></td><td  ><p>63.9%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>12 / 24</p></td><td  ><p>4.4 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9850X3D</p></td><td  ><p>57%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9800X3D</p></td><td  ><p>56.9%</p></td><td  ><p>Zen 5 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.7 / 5.2 </p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 245K</p></td><td  ><p>55.8%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>14 / 14 (6+8)</p></td><td  ><p>4.2 / 5.2</p></td><td  ><p>125W / 159W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14600K</p></td><td  ><p>53.9%</p></td><td  ><p>Raptor Lake Refresh</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Core i7-12700K</p></td><td  ><p>51.9%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8+4)</p></td><td  ><p>3.6 / 5</p></td><td  ><p>125W / 190W</p></td></tr><tr><td class="firstcol " ><p>Core i5-13600K</p></td><td  ><p>50.3%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.1</p></td><td  ><p>125W / 181W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 9700X / 105W TDP</p></td><td  ><p>47.2% / 53.2%</p></td><td  ><p>Zen 5</p></td><td  ><p>8 /16</p></td><td  ><p>3.8 / 5.5</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7700X</p></td><td  ><p>46.8%</p></td><td  ><p>Zen 4</p></td><td  ><p>8 / 16</p></td><td  ><p>4.5 / 5.4</p></td><td  ><p>105W / 142W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 7800X3D</p></td><td  ><p>44.5%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>8 / 16</p></td><td  ><p>4.2 / 5</p></td><td  ><p>120W / 162W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 9600X / 105W TDP</p></td><td  ><p>39.7% / 41.7%</p></td><td  ><p>Zen 5</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 5.4</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Core i5-12600K</p></td><td  ><p>39.5%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125W / 150W</p></td></tr><tr><td class="firstcol " ><p>Core Ultra 5 225</p></td><td  ><p>38.5%</p></td><td  ><p>Arrow Lake</p></td><td  ><p>10 / 10 (6+4)</p></td><td  ><p>3.3 / 4.9</p></td><td  ><p>65W / 121W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X3D</p></td><td  ><p>33.1%</p></td><td  ><p>Zen 4 X3D</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.7</p></td><td  ><p>65W / 88W</p></td></tr><tr><td class="firstcol " ><p>Core i5-14400</p></td><td  ><p>32.7%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>10 / 16 (6+4)</p></td><td  ><p>2.5 / 4.7</p></td><td  ><p>65W / 154W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 7600X</p></td><td  ><p>31.3%</p></td><td  ><p>Zen 4</p></td><td  ><p>6 / 12</p></td><td  ><p>4.7 / 5.3</p></td><td  ><p>105W / 142W</p></td></tr></tbody></table></div><p>Similar to single-threaded rankings, we use a subset of the total tests we run for CPU reviews in ranking multithreaded performance. Cinebench and POV-ray show up here again, this time using as many threads as possible, alongside VRay, four Blender tests, and Handbrake using various codecs. Although most applications will leverage multiple threads these days, we’re specifically looking at applications that will take as many threads as possible to maximize compute. </p><p>Compared to single-threaded workloads, heavily-threaded tasks are less concerned with clock speed and put a greater emphasis on interconnects and core-to-core latency. Core count is obviously important, as well, though it’s been somewhat undermined by Intel’s hybrid architectures over the last several generations. </p><p>Given that we’re spanning multiple nodes, core count alone isn’t indicative of higher multithreaded performance. Yes, higher core counts within the same generation will usually provide higher multithreaded performance, but a slew of other factors can increase performance, as well, from all-core and uncore frequencies to higher transistor density. Because of the wide swath of factors, you can see much more aggressive scaling with our multithreaded rankings compared to single-threaded rankings.</p><h3 class="article-body__section" id="section-integrated-gpu-gaming-cpu-benchmarks-rankings-2026"><span>Integrated GPU Gaming CPU Benchmarks Rankings 2026</span></h3><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/foCxx4vhCPeaBJafxHACia.png" alt="CPU integrated GPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/fsJpoB2CKJPPggf9PGCnoP.png" alt="CPU Benchmark Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/6tMHFEAseZKBWuTNERSPtP.png" alt="CPU Benchmark Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/ohj5E7FwgV5SZZkYhqqida.png" alt="CPU integrated GPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/EwPnsnPmSVV7tLHaXQE4Ra.png" alt="CPU integrated GPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/b9LXLSTXohcBV4Sb8ja45Q.png" alt="CPU Benchmark Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/2iwg9upZXomq58VMFW3KXa.png" alt="CPU integrated GPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/usbGTexQEpAtyjFyhcpzxP.png" alt="CPU Benchmark Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><div ><table><caption>iGPU Performance relative to Ryzen 7 5700G</caption><tbody><tr><td class="firstcol " ><p> </p></td><td  ><p>1280x720</p></td><td  ><p>1920x1080</p></td></tr><tr><td class="firstcol " ><p><strong>Ryzen 7 5700G B550-E </strong></p></td><td  ><p><strong>100%</strong></p></td><td  ><p><strong>100%</strong></p></td></tr><tr><td class="firstcol " ><p><strong>Ryzen 5 5600G</strong></p></td><td  ><p><strong>96.3%</strong></p></td><td  ><p><strong>96%</strong></p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 4750G</p></td><td  ><p>92.9%</p></td><td  ><p>94.1%</p></td></tr><tr><td class="firstcol " ><p>Ryzen 3 5300G</p></td><td  ><p>85.8%</p></td><td  ><p>87.2%</p></td></tr><tr><td class="firstcol " ><p>Ryzen 5 3400G</p></td><td  ><p>83.5%</p></td><td  ><p>84.1%</p></td></tr><tr><td class="firstcol " ><p>Ryzen 3 3200G</p></td><td  ><p>77.1%</p></td><td  ><p>78.1%</p></td></tr><tr><td class="firstcol " ><p>Intel UHD Graphics 750 32 EU (11600K, 11700K)</p></td><td  ><p>58.3%</p></td><td  ><p>~48.9%</p></td></tr><tr><td class="firstcol " ><p>Intel UHD Graphics 730 24 EU (i5-11400)</p></td><td  ><p>51.7%</p></td><td  ><p>42.9%</p></td></tr><tr><td class="firstcol " ><p>Intel UHD Graphics 630 24 EU (10600K)</p></td><td  ><p>36.0%</p></td><td  ><p>34.4%</p></td></tr></tbody></table></div><p>Here's our list of gaming performance with integrated graphics on several of the leading APUs available. We've split this into two different price ranges, so be sure to flip through all of the performance charts. For a bit of commentary and analysis of these results, head to our <a href="https://www.tomshardware.com/news/amds-ryzen-cezanne-apus-coming-to-retail-for-desktop-pcs">Ryzen 7 5700G</a>, <a href="https://www.tomshardware.com/reviews/amd-ryzen-5-5600g-review">Ryzen 5 5600G</a>, and <a href="https://www.tomshardware.com/news/amd-ryzen-3-5300g-review">Ryzen 3 5300G</a> reviews. The most powerful chip gets a 100, and all others are scored relative to it.</p><h3 class="article-body__section" id="section-how-to-benchmark-your-cpu"><span>How to Benchmark your CPU</span></h3><p>It’s important to know how to benchmark your CPU. It gives you a way to compare performance <a href="https://www.tomshardware.com/how-to/how-to-overclock-a-cpu"><u>after an overclock</u></a> or a CPU upgrade, and it allows you to check if you’re getting the full performance out of your system. Maybe a poor CPU cooler mount is limiting your performance, or maybe your BIOS settings aren’t optimal. Using benchmarks to compare your results lets you see where your rig stacks up, not only for leaderboard purposes, but also basic troubleshooting. </p><p>The key to benchmarking your CPU is consistency. The only variable that should change is your CPU, be it a new CPU or an overclock/undervolt. Before starting, make sure to close any applications running in the background. That’s not only to net peak performance, but also to avoid any inconsistencies between runs. Background apps can gobble up threads inconsistently, making it difficult to compare your results from run to run. </p><p>If you want more consistency, you can optionally run the following command before benchmarking in an elevated command prompt: </p><p><em>Rundll32.exe advapi32.dll,ProcessIdleTasks</em></p><p>This will force Windows to perform the background tasks it normally does when your PC is idle. It’s not essential, but it’s a good sanity check to make sure there’s nothing interfering with your results. </p><p>For applications, you want to test the apps you actually use. If you use the Adobe suite, for example, you can download and use PugetBench for free and compare your results with Puget’s database. A lot of apps don’t have these easy-to-use benchmarking tools and databases, so you need to find a proxy. For instance, Procyon Office measures Microsoft Office performance, but a license costs nearly $1,600 per year. PCMark 10 Basic, which is free, measures open-source office applications. Below, we have some of our favorite free benchmarks for comparing CPU performance. </p><p>In games, you can take two approaches: manual or automated. Some modern games include built-in benchmarking tools, such as <em>Cyberpunk 2077 </em>and <em>Doom: The Dark Ages, </em>and although they aren’t perfect, they’re easy to run and highly repeatable. The best way to measure CPU gaming performance, however, is manual benchmarking. </p><p>That involves finding a scene where you can go over a specific path repeatedly. That could be starting from a specific checkpoint that you can reload or resorting to a manual save where you start from the exact same position. Regardless, it’s important to avoid randomness in your testing. Keep the path consistent — for example, a walking path through a town — and try not to swing the camera around. </p><p>For measuring performance in games, you’ll need a performance monitoring tool. There are simple apps like <a href="https://www.nvidia.com/en-us/geforce/technologies/frameview/"><u>Nvidia’s FrameView</u></a>, which logs a ton of information but is a little cumbersome to deal with; it exports data to spreadsheets. <a href="https://www.capframex.com/"><u>CapFrameX</u></a> is a good alternative, which uses the same backend as FrameView (Intel’s PresentMon), but comes with a user-friendly GUI and extra features like the ability to generate charts right in the app. </p><p>After you run your benchmarks, you need a comparison point. Databases like Puget are your best resources on that front. If you’re comparing results to reviews, forum threads, or other systems, keep in mind the variables that can influence performance. It’s not a good idea to compare performance with uncontrolled variables unless you have a wide swath of comparison points. </p><h3 class="article-body__section" id="section-best-cpu-benchmarks-you-can-run"><span>Best CPU Benchmarks You Can Run</span></h3><ul><li><a href="https://www.maxon.net/en/downloads/cinebench-downloads"><u>Cinebench 2026</u></a> – Cinebench is the quintessential CPU benchmark, used almost universally in reviews, and it’s completely free to download and use.</li><li><a href="https://www.geekbench.com/"><u>Geekbench 6</u></a> – Geekbench has a number of issues, but it offers a massive database for comparing your system against other similar systems. And it’s free to download and run.</li><li><a href="https://opendata.blender.org/"><u>Blender</u></a> – Blender has a benchmarking utility with a GUI that’s free to download, as well as a large database of results.</li><li><a href="https://store.steampowered.com/app/524390/PCMark_10/"><u>PCMark 10 Basic</u></a> – The main PCMark 10 benchmark is free to use with the Basic edition, allowing you to test productivity performance with open-source office apps, as well as compare your scores with UL’s database.</li><li><a href="https://handbrake.fr/"><u>Handbrake</u></a> – Handbrake is a powerful, free, and open-source video transcoding tool, and it’s easy to run benchmarks with. Use any video file, make sure your settings are the same, and start a stopwatch to measure the time encoding takes. Lower is better.</li><li><a href="https://www.principledtechnologies.com/benchmarkxprt/webxprt/"><u>WebXPRT 5</u></a> – WebXPRT runs a variety of web applications directly in your browser, for free, and with a database to compare results to. It takes a while to run, however.</li><li><a href="https://browserbench.org/JetStream2.0/"><u>JetStream 2</u></a> – JetStream is a faster browser-based benchmark, though it doesn’t have a database of results.</li><li><a href="https://www.cpuid.com/softwares/cpu-z.html"><u>CPU-Z</u></a> – CPU-Z isn’t a reliable benchmark for real-world performance, but it includes single- and multithreaded tests, it’s easy to run, and you’ll find results online almost as commonly as Cinebench results.</li><li><a href="https://www.numberworld.org/y-cruncher/"><u>Y-cruncher</u></a> – This test calculates Pi with digit extraction, and it’s accelerated with SIMD instructions like AVX. You can only run it from a command line, but it’s relatively straightforward.</li><li><a href="https://www.pugetsystems.com/pugetbench/creators/"><u>PugetBench</u></a> – Puget includes benchmarks for the biggest apps in the Adobe suite, as well as DaVinci Resolve. The benchmark itself is free, and Puget maintains a large database. You’ll need a license for the applications it tests, however.</li></ul><h3 class="article-body__section" id="section-2026-cpu-benchmarks-test-system-and-configuration"><span>2026 CPU Benchmarks Test System and Configuration</span></h3><div ><table><caption>2026 CPU Benchmarks Hierarchy Test Setup</caption><tbody><tr><td class="firstcol " ><p><strong>Intel LGA 1851 (Arrow Lake and Refresh)</strong></p></td><td  ></td></tr><tr><td class="firstcol " ><p>Motherboard</p></td><td  ><p><a href="https://www.newegg.com/asrock-z890-taichi-atx-motherboard-intel-z890-lga-1851/p/N82E16813162169"><u>ASRock Z890 Taichi</u></a></p></td></tr><tr><td class="firstcol " ><p>RAM</p></td><td  ><p><a href="https://www.newegg.com/g-skill-trident-z5-rgb-series-32gb-ddr5-7200-cas-latency-cl34-desktop-memory-black/p/N82E16820374436"><u>2x16GB G.Skill Trident Z Neo RGB DDR5-7200</u></a></p></td></tr><tr><td class="firstcol " ><p><strong>Intel LGA 1700 (Raptor Lake, Alder Lake)</strong></p></td><td  ></td></tr><tr><td class="firstcol " ><p>Motherboard</p></td><td  ><p><a href="https://www.newegg.com/msi-mpg-z790-carbon-wifi-atx-motherboard-intel-z790-lga-1700/p/N82E16813144563"><u>MSI MPG Z790 Carbon Wi-Fi</u></a></p></td></tr><tr><td class="firstcol " ><p>RAM </p></td><td  ><p><a href="https://www.newegg.com/g-skill-trident-z5-rgb-series-32gb-ddr5-7200-cas-latency-cl34-desktop-memory-black/p/N82E16820374436"><u>2x16GB G.Skill Trident Z Neo RGB DDR5-7200</u></a></p></td></tr><tr><td class="firstcol " ><p><strong>AMD AM5 (Zen 5, Zen 4)</strong></p></td><td  ></td></tr><tr><td class="firstcol " ><p>Motherboard</p></td><td  ><p><a href="https://www.newegg.com/msi-mpg-x870e-carbon-wifi-atx-motherboard-amd-x870e-am5/p/N82E16813144666"><u>MSI MPG X870E Carbon Wi-Fi</u></a>, <a href="https://www.newegg.com/gigabyte-x870e-aorus-elite-x3d-ice-atx-motherboard-amd-x870e-am5/p/N82E16813145595"><u>Gigabyte Aorus X870E Elite X3D ICE</u></a></p></td></tr><tr><td class="firstcol " ><p>RAM</p></td><td  ><p><a href="https://www.amazon.com/G-Skill-Trident-288-Pin-CL30-38-38-96-F5-6000J3038F16GX2-TZ5NR/dp/B0BF8FVLSL/"><u>2x16GB G.Skill Trident Z Neo RGB DDR5-6000</u></a></p></td></tr><tr><td class="firstcol " ><p><strong>All Systems</strong></p></td><td  ></td></tr><tr><td class="firstcol " ><p>Gaming CPU</p></td><td  ><p>Nvidia GeForce RTX 5090 Founder’s Edition</p></td></tr><tr><td class="firstcol " ><p>Application GPU</p></td><td  ><p>Nvidia GeForce RTX 2080 Ti Founder’s Edition</p></td></tr><tr><td class="firstcol " ><p>Cooler</p></td><td  ><p>Corsair iCue Link H150i RGB</p></td></tr><tr><td class="firstcol " ><p>Storage</p></td><td  ><p>2TB Sabrent Rocket 4 Plus</p></td></tr><tr><td class="firstcol " ><p>PSU</p></td><td  ><p><a href="https://www.newegg.com/msi-atx12v-1000-w-up-to-90-power-supplies-black-mpg-a1000gs-pcie5/p/N82E16817701030"><u>MSI MPG A1000GS</u></a>, <a href="https://www.newegg.com/p/N82E16817233053"><u>Gigabyte UD1000GM PG5 V2</u></a></p></td></tr><tr><td class="firstcol " ><p>Other</p></td><td  ><p><a href="https://www.amazon.com/ARCTIC-MX-4-2019-Performance-Durability/dp/B07LDK4F5R/"><u>Arctic MX-4 TIM</u></a>, Windows 11 Pro, Alamengda open test bench</p></td></tr></tbody></table></div><ul><li><a href="https://www.tomshardware.com/news/amd-ryzen-7-7800x3d-vs-intel-core-i9-13900k-vs-intel-core-7-13700K">AMD Ryzen 7 7800X3D vs Intel Core i9-13900K vs Core i7-13700K: Big Gaming Punch, Smaller Price Tag</a></li><li><a href="https://www.tomshardware.com/news/amd-ryzen-9-7950x3d-vs-intel-core-i9-13900k-faceoff">AMD Ryzen 9 7950X3D vs Intel Core i9-13900K Faceoff: Battle of the Gaming Flagships</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-13600k-vs-amd-ryzen-7-7700x-and-ryzen-5-7600x-face-off">Intel Core i5-13600K vs AMD Ryzen 7 7700X and Ryzen 5 7600X Face Off</a></li><li><a href="https://www.tomshardware.com/news/amd-ryzen-9-7950x-vs-intel-core-i9-13900k">AMD Ryzen 9 7950X vs Intel Core i9-13900K Face Off</a></li><li><a href="https://www.tomshardware.com/news/ryzen-7-5800x3d-vs-core-i7-12700k-and-core-i9-12900k-face-off-the-rise-of-3d-v-cache">Ryzen 7 5800X3D vs Core i7-12700K and Core i9-12900K Face-Off: The Rise of 3D V-Cache</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i9-12900k-vs-ryzen-9-5900x-5950x">Intel Core i9-12900K vs Ryzen 9 5900X and 5950X: Alder Lake and Ryzen 5000 Face Off</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-12600k-vs-amd-ryzen-5-5600x-ryzen-7-5800x-cpu-face-off">Intel Core i5-12600K vs AMD Ryzen 5 5600X and 5800X Face Off: Ryzen Has Fallen</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i7-12700k-vs-amd-ryzen-9-5900x-and-5800x-face-off-intel-rising">Intel Core i7-12700K vs AMD Ryzen 9 5900X and 5800X Face Off: Intel Rising</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-12400-vs-amd-ryzen-5-5600x-ryzen-5-5600g-cpu-face-off">Intel Core i5-12400 vs AMD Ryzen 5 5600X Face-Off: The Gaming Value Showdown</a></li></ul><ul><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><strong>Best CPUs for Gaming</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/features/amd-vs-intel-cpus"><strong>AMD vs Intel</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs"><strong>13th-Gen Raptor Lake</strong></a><strong> All We Know</strong></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/news/amd-zen-4-ryzen-7000-release-date-specifications-pricing-benchmarks-all-we-know-specs"><strong>Zen 4 Ryzen 7000</strong></a><strong> All We Know</strong></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/how-to/how-to-overclock-a-cpu"><strong>How to Overclock a CPU</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/how-to/how-to-check-cpu-temp-temperature"><strong>How to check CPU Temperature</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/topics/cpus"><strong>All CPUs Content</strong></a></li></ul><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe><h2 id="2020-2022-cpu-benchmarks-hierarchy">2020 - 2022 CPU Benchmarks Hierarchy</h2><p>You can find our rankings of the most current-gen systems on the previous page. The results below are from our legacy benchmarks, using a different GPU and test systems than our current CPU benchmark rankings. However, this provides great historical context and also includes other previous-gen CPUs not included in our new test suite. You'll also find our even older legacy rankings further below. These date back over the last decade. </p><h3 class="article-body__section" id="section-legacy-2020-2022-cpu-benchmarks-rankings-windows-10-and-11"><span>Legacy: 2020 - 2022 CPU Benchmarks Rankings - Windows 10 and 11</span></h3><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/W3GU8Pq99LYcsUEy2S4VDU.png" alt="AMD vs Intel" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/8zpwaQ5zkgAcSqUiGV6WHU.png" alt="AMD vs Intel" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/CSLXSfQjq2bTunXW2UkAKe.png" alt="ADM vs Intel" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/6MzkyuxZSyNt83WsyTv3Pe.png" alt="ADM vs Intel" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/TtBSDqmGUKepDNWDbbXuAX.png" alt="Ryzen 9 7900X" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/PbB2zxcydzbPBQeDyBPd7X.png" alt="Ryzen 9 7900X" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/4Uo9Th9CnSTFd5yNUiN4JX.png" alt="Ryzen 9 7900X" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/WGeGcXEDvTRFZD5YPatCFX.png" alt="Ryzen 9 7900X" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3xYB9Tgp4kjiSdweatEzDf.png" alt="CPU Benchmark" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/nWEViwJ93FJJRpazc8eFu9.png" alt="Ryzen 7 5800X3D" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/hXCZtqtAcLQUqXUDFCADm9.png" alt="Ryzen 7 5800X3D" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/LBommkJKQ2nZNaM9v6tMg9.png" alt="Ryzen 7 5800X3D" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/F8LbVqh2HanAaMDUKLVFZi.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/SAXoWK6BiNQ6mAMLbEALVi.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/XUq9Uh9x2UTT97fTGZMbci.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/P8r3x46ksaXGfFN5Uxvmgi.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/bXyPwEFZ44q8ofZTc4drMi.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/tmxXxdMiJ5cbd6qepgJyRi.png" alt="CPU Hierarchy" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><h3 class="article-body__section" id="section-legacy-2020-2022-gaming-cpu-benchmarks-ranking"><span>Legacy: 2020 - 2022 Gaming CPU Benchmarks Ranking</span></h3><div ><table><caption>Legacy: Gaming CPU Benchmarks Hierarchy 2020 - 2022 - Windows 11</caption><thead><tr><th class="firstcol " ><p> </p></th><th  ><p>1080p Gaming Score</p></th><th  ><p>1440p Gaming Score</p></th><th  ><p>Architecture</p></th><th  ><p>Cores/Threads (P+E)</p></th><th  ><p>Base/Boost GHz</p></th><th  ><p>TDP - MTP</p></th><th  ><p>Buy</p></th></tr></thead><tbody><tr><td class="firstcol " ><p>$589 - Core i9-13900K</p></td><td  ><p>100.00%</p></td><td  ><p>100.00%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>24 / 32 (8+16)</p></td><td  ><p>3.0 / 5.8</p></td><td  ><p>125 / 253W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$409 - Core i7-13700K</p></td><td  ><p>96.09%</p></td><td  ><p>97.09%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>16 / 24 (8+8)</p></td><td  ><p>3.4 / 5.4</p></td><td  ><p>125 / 253W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$365 - Ryzen 7 5800X3D</p></td><td  ><p>94.42%</p></td><td  ><p>97.45%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.4 / 4.5</p></td><td  ><p>105W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$319 - Core i5-13600K</p></td><td  ><p>90.03%</p></td><td  ><p>92.94%</p></td><td  ><p>Raptor Lake</p></td><td  ><p>14 / 20 (6+8)</p></td><td  ><p>3.5 / 5.1</p></td><td  ><p>125 / 181W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$474 - Ryzen 9 7900X</p></td><td  ><p>87.40%</p></td><td  ><p>90.52%</p></td><td  ><p>Zen 4</p></td><td  ><p>12 / 24</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>170 / 230W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$569 - Ryzen 9 7950X</p></td><td  ><p>87.25%</p></td><td  ><p>90.27%</p></td><td  ><p>Zen 4</p></td><td  ><p>16 / 32</p></td><td  ><p>4.5 / 5.7</p></td><td  ><p>170 / 230W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$349 - Ryzen 7 7700X</p></td><td  ><p>87.13%</p></td><td  ><p>91.55%</p></td><td  ><p>Zen 4</p></td><td  ><p>8 /16</p></td><td  ><p>4.5 / 5.4</p></td><td  ><p>105 / 142W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$329 - Ryzen 7 7700</p></td><td  ><p>86.19%</p></td><td  ><p>88.88%</p></td><td  ><p>Zen 4</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 5.3</p></td><td  ><p>65 / 88W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$429 - Ryzen 9 7900</p></td><td  ><p>84.75%</p></td><td  ><p>88.46%</p></td><td  ><p>Zen 4</p></td><td  ><p>12 / 24</p></td><td  ><p>4.7 / 5.6</p></td><td  ><p>170 / 230W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$249 - Ryzen 5 7600X</p></td><td  ><p>83.62%</p></td><td  ><p>88.44%</p></td><td  ><p>Zen 4</p></td><td  ><p>6 / 12</p></td><td  ><p>4.7 / 5.3</p></td><td  ><p>105 / 142W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$229 - Ryzen 5 7600</p></td><td  ><p>79.74%</p></td><td  ><p>85.97%</p></td><td  ><p>Zen 4</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 5.1</p></td><td  ><p>65 / 88W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$550 - Ryzen 9 5950X</p></td><td  ><p>72.04%</p></td><td  ><p>77.51%</p></td><td  ><p>Zen 3</p></td><td  ><p>16 / 32</p></td><td  ><p>3.4 / 4.9</p></td><td  ><p>105W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$350 - Ryzen 9 5900X</p></td><td  ><p>71.69%</p></td><td  ><p>78.95%</p></td><td  ><p>Zen 3</p></td><td  ><p>12 / 24</p></td><td  ><p>3.7 / 4.8</p></td><td  ><p>105W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$235 - Ryzen 7 5800X</p></td><td  ><p>70.90%</p></td><td  ><p>78.19%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$210 - Ryzen 7 5700X</p></td><td  ><p>69.50%</p></td><td  ><p>76.65%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.4 / 4.6</p></td><td  ><p>65W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$165 - Ryzen 5 5600X</p></td><td  ><p>67.52%</p></td><td  ><p>74.68%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>65W</p></td><td  ><p> </p></td></tr><tr><td class="firstcol " ><p>$189 - Core i5-12400</p></td><td  ><p>66.62%</p></td><td  ><p>73.53%</p></td><td  ><p>Alder Lake</p></td><td  ><p>6 / 12 (6+0)</p></td><td  ><p>2.5 / 4.4</p></td><td  ><p>65 / 117W</p></td><td  ></td></tr></tbody></table></div><div ><table><caption>Legacy: Gaming CPU Benchmarks Hierarchy 2020 - 2022 - Windows 10</caption><thead><tr><th class="firstcol " ><p> </p></th><th  ><p><strong>1080p Gaming Score</strong></p></th><th  ><p><strong>1440p Gaming Score</strong></p></th><th  ><p><strong>CPU</strong></p></th><th  ><p><strong>Cores/Threads</strong></p></th><th  ><p><strong>Base/Boost GHz</strong></p></th><th  ><p><strong>TDP</strong></p></th><th  ><p><strong>Buy</strong></p></th></tr></thead><tbody><tr><td class="firstcol " ><p>Intel Core i9-12900K DDR4 / DDR5</p></td><td  ><p>100% / 93.51%</p></td><td  ><p>100% / 95.86%</p></td><td  ><p>Alder Lake</p></td><td  ><p>16 / 24 (8P+8E) </p></td><td  ><p>3.2 / 5.2 </p></td><td  ><p>125 / 241W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i9-12900k-core-i9-12th-gen/p/N82E16819118339?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-12900K </a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-11900K</p></td><td  ><p>92.48%</p></td><td  ><p>97.26%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i9-11900k-core-i9-11th-gen/p/N82E16819118231?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-11900K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-12700K DDR4 / DDR5</p></td><td  ><p>97.71% / 91.23%</p></td><td  ><p>99.8% / 97.30%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8P+4E)</p></td><td  ><p>3.6 / 4.9</p></td><td  ><p>125 / 190W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i7-12700k-core-i7-12th-gen/p/N82E16819118343?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i7-12700K </a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5900X</p></td><td  ><p>90.98%</p></td><td  ><p>93.18%</p></td><td  ><p>Zen 3</p></td><td  ><p>12 / 24</p></td><td  ><p>3.7 / 4.8</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-5900X-24-Thread-Processor/dp/B08164VTWH?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 9 5900X</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-12600K DDR4 / DDR5</p></td><td  ><p>90.89% / 84.32%</p></td><td  ><p>96.94% / 92.33%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6P+4E)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125 / 150W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i5-12600k-core-i5-12th-gen/p/N82E16819118347?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i5-12600K </a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5950X</p></td><td  ><p>90.22%</p></td><td  ><p>95.32%</p></td><td  ><p>Zen 3</p></td><td  ><p>16 / 32</p></td><td  ><p>3.4 / 4.9</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-9-5950x/p/N82E16819113663?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 9 5950X</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 5975WX</p></td><td  ><p>88.71%</p></td><td  ><p>89.71%</p></td><td  ><p>Zen 3</p></td><td  ><p>32 / 64</p></td><td  ><p>3.6 / 4.5</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-ThreadripperTM-PRO-5975WX-64-Thread/dp/B0B5VH1WPC">Threadripper Pro 5975WX</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600X</p></td><td  ><p>88.51%</p></td><td  ><p>91.79%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.bestbuy.com/site/amd-ryzen-5-5600x-4th-gen-6-core-12-threads-unlocked-desktop-processor-with-wraith-stealth-cooler/6438943.p?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 5 5600X</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 5800X</p></td><td  ><p>86.85%</p></td><td  ><p>91.72%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.bestbuy.com/site/amd-ryzen-7-5800x-4th-gen-8-core-16-threads-unlocked-desktop-processor-without-cooler/6439000.p?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 7 5800X</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-11700K</p></td><td  ><p>86.3%</p></td><td  ><p>92.0%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i7-11700k-core-i7-11th-gen/p/N82E16819118233?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i7-11700K</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 5995WX</p></td><td  ><p>86.12%</p></td><td  ><p>84.79%</p></td><td  ><p>Zen 3</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.5</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-ThreadripperTM-5995WX-128-Thread-Processor/dp/B0B5VLPVL5">Threadripper Pro 5995WX</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10900K</p></td><td  ><p>85.01%</p></td><td  ><p>91.5%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.7 / 5.3</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.bestbuy.com/site/intel-core-i9-10900k-10th-generation-10-core-20-thread-3-7-ghz-5-3-ghz-turbo-socket-lga1200-unlocked-desktop-processor/6411492.p?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-9900K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10850K</p></td><td  ><p>84.6%</p></td><td  ><p>91.07%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.6 / 5.2</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i9-10850k-core-i9-10th-gen/p/N82E16819118175?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-10850K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11600K</p></td><td  ><p>84.06%</p></td><td  ><p>90.43%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 4.9</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i5-11600k-core-i5-11th-gen/p/N82E16819118235?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i5-11600K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11400</p></td><td  ><p>80.98%</p></td><td  ><p>87.77%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>2.6 / 4.4</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-11400-Desktop-Processor-LGA1200/dp/B08X6JPK4K?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i5-11400</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700K</p></td><td  ><p>80.66%</p></td><td  ><p>87.88%</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 5.1</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i7-10700k-core-i7-10th-gen/p/N82E16819118123?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i7-10700K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10980XE</p></td><td  ><p>78.04%</p></td><td  ><p>84.04%</p></td><td  ><p>Cascade Lake-X</p></td><td  ><p>18 / 36</p></td><td  ><p>3.0 / 4.8</p></td><td  ><p>165W</p></td><td  ><p><a href="https://www.bhphotovideo.com/c/product/1507537-REG/intel_bx8069510980xe_core_i9_10980xe_3_0_ghz.html?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-10980XE</a></p></td></tr><tr><td class="firstcol " ><p>Intel W-3175X</p></td><td  ><p>76.93%</p></td><td  ><p>82.58%</p></td><td  ><p>Skylake</p></td><td  ><p>28 / 56</p></td><td  ><p>3.1 / 4.3</p></td><td  ><p>225W</p></td><td  ><p><a href="https://www.newegg.com/p/N82E16819118010">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 5700G*</p></td><td  ><p>76.61%</p></td><td  ><p>83.1%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>65W</p></td><td  ><p>N/A</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900KS</p></td><td  ><p>76.12%</p></td><td  ><p>84.85%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>127W </p></td><td  ><p><a href="https://www.amazon.com/Intel-i9-9900KS-Processor-All-Core-Unlocked/dp/B07YP3J7ZM">Intel Core i9-9900KS</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700/F</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>2.9 / 4.8</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.bestbuy.com/site/intel-core-i7-10700-10th-generation-8-core-16-thread-2-9-ghz-4-8-ghz-turbo-socket-lga1200-locked-desktop-processor/6411495.p?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Intel Core i7-10700</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-10600K</p></td><td  ><p>75.42%</p></td><td  ><p>82.57%</p></td><td  ><p>Comet Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.8</p></td><td  ><p>125W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i5-10600k-core-i5-10th-gen/p/N82E16819118124">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-9700K</p></td><td  ><p>73.62%</p></td><td  ><p>81.12%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 8</p></td><td  ><p>3.6 / 4.9</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i7-9700K-Desktop-Processor-Unlocked/dp/B07HHN6KBZ">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900K / F</p></td><td  ><p>73.41%</p></td><td  ><p>84.85%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/p/2MN-0004-00828?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i9-9900K</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3950X</p></td><td  ><p>72.63%</p></td><td  ><p>78.58%</p></td><td  ><p>Zen 2</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.7</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3950X-32-Thread-Processor/dp/B07ZTYKLZW">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3970X</p></td><td  ><p>72.44%</p></td><td  ><p>77.99%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.7 / 4.5</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Threadripper-3970X-64-Thread/dp/B0815JJQQ8">AMD Threadripper 3970X</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3960X</p></td><td  ><p>72.07%</p></td><td  ><p>77.12%</p></td><td  ><p>Zen 2</p></td><td  ><p>24 / 48</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Threadripper-3960X-48-Thread/dp/B0815JGCXP">AMD Ryzen Threadripper 3960X</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600G</p></td><td  ><p>71.99%</p></td><td  ><p>76.76%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 4.4</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-5600g-ryzen-5-5000-g-series/p/N82E16819113683?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 5 5600G </a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800XT</p></td><td  ><p>71.78%</p></td><td  ><p>79.28%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.7</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-7-3800xt-ryzen-7-3rd-gen/p/N82E16819113652">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3990X</p></td><td  ><p>71.68%</p></td><td  ><p>77.94%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.9 / 4.3</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Threadripper-3990X-128-Thread/dp/B0815SBQ9W">AMD Ryzen Threadripper 3990X</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900XT</p></td><td  ><p>71.67%</p></td><td  ><p>78.55%</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3900XT-24-Threads-Processor/dp/B089WD454D?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 9 3900XT</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3900X-24-Thread-Processor/dp/B07SXMZLP9">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9980XE </p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>18 / 36</p></td><td  ><p>4.4 / 4.5</p></td><td  ><p>165W</p></td><td  ><p><a href="https://www.bhphotovideo.com/c/product/1438940-REG/intel_bx80673i99980x_core_i9_9980xe_extreme_edition.html">@B&HPhoto</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.1 / 4.3</p></td><td  ><p>105W</p></td><td  ><p>OEM only</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3700X</p></td><td  ><p>71.43%</p></td><td  ><p>79.08%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.4</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3700X-16-Thread-Processor/dp/B07SXMZLPK?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 7 3700X </a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800X</p></td><td  ><p>71.3%</p></td><td  ><p>78.67%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.5</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3800X-16-Thread-Processor/dp/B07SXMZLP?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 7 3800X </a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600XT</p></td><td  ><p>70.62%</p></td><td  ><p>77.75%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-3600xt-ryzen-5-3rd-gen/p/N82E16819113653">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600</p></td><td  ><p>68.63%</p></td><td  ><p>75.59%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3600-12-Thread-Processor/dp/B07STGGQ18">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7960X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>16 / 32</p></td><td  ><p>2.8 / 4.2</p></td><td  ><p>165W</p></td><td  ><p><a href="https://www.newegg.com/Product/Product.aspx?item=9SIA25V6K29201">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700K</p></td><td  ><p>68.47%</p></td><td  ><p>76.41%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.7</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.amazon.com/Intel-BX80684I78700K-Core-i7-8700K-Processor/dp/B07598VZR8">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600X</p></td><td  ><p>68.41%</p></td><td  ><p>75.60%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.4</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-3600x/p/N82E16819113568">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3975WX</p></td><td  ><p>67.63%</p></td><td  ><p>74.42%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.5 / 4.2</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Threadripper-PRO-3975WX/dp/B08V5H7GPM">Threadripper Pro 3975WX</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3300X</p></td><td  ><p>67.49%</p></td><td  ><p>74.6%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 4.3</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-3-3300x-ryzen-3-3rd-gen/p/N82E16819113648">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9600K</p></td><td  ><p>67.06%</p></td><td  ><p>75.11%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>6 / 6</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/core-i5-9th-gen-intel-core-i5-9600k/p/N82E16819117959">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3995WX</p></td><td  ><p>66.18%</p></td><td  ><p>69.28%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.2</p></td><td  ><p>280W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-threadripper-pro-3995wx/p/N82E16819113675?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Threadripper Pro 3995WX</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8600K</p></td><td  ><p>65.84%</p></td><td  ><p>73.4%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i5-8th-gen-core-i5-8600k/p/N82E16819117825">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700</p></td><td  ><p>65.57%</p></td><td  ><p>73.66%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 4.6</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/core-i7-8th-gen-intel-core-i7-8700/p/N82E16819117826?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i7-8700</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8086K</p></td><td  ><p>65.05%</p></td><td  ><p>73.5%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>95W</p></td><td  ><p><a href="https://starmicroinc.net/intel-core-i7-8086k-4-0ghz-socket-1151-6-core-coffee-lake-s-desktop-boxed-cpu-srcx5-bx80684i78086k?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i7-8086K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9400 / i5-9400F</p></td><td  ><p>64.85%</p></td><td  ><p>72.08%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.9 / 4.1</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-9400F-Desktop-Processor-Graphics/dp/B07MRCGQQ4">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8400</p></td><td  ><p>63.96%</p></td><td  ><p>71.2%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.8 / 4.0</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/core-i5-8th-gen-intel-core-i5-8400/p/N82E16819117824">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD  Ryzen 5 3500X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.1</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-3500x/p/274-000M-001B6">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Core i3-10100</p></td><td  ><p>61.88%</p></td><td  ><p>69.08%</p></td><td  ><p>Comet Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i3-10100-Desktop-Processor-LGA1200/dp/B086MMRW87?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i3-10100</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 2700X</p></td><td  ><p>59.19%</p></td><td  ><p>66.55%</p></td><td  ><p>Zen+</p></td><td  ><p>8 / 16</p></td><td  ><p>3.7 / 4.3</p></td><td  ><p>105W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-7-2700x/p/N82E16819113499">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 4750G*</p></td><td  ><p>58.43%</p></td><td  ><p>66.46%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Ryzen-4750G-Processor-3-6Ghz-Threads/dp/B08XYTM5QS?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Ryzen 7 4750G</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3100</p></td><td  ><p>57.75%</p></td><td  ><p>64.21%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 3.9</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-3-3100-ryzen-3-3rd-gen/p/N82E16819113649">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7980XE</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>18 / 36</p></td><td  ><p>2.6 / 4.2</p></td><td  ><p>165W</p></td><td  ><p><a href="https://www.amazon.com/Intel-Core-i9-7980XE-Processors-BX80673I97980X/dp/B075XRYMDR">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7900X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.3 / 4.3</p></td><td  ><p>140W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i9-x-series-i9-7900x/p/N82E16819117795">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2600X</p></td><td  ><p>57.55%</p></td><td  ><p>65.33%</p></td><td  ><p>Zen+</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Processor-Wraith-Cooler/dp/B07B428V2L">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700K</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>4.2 / 4.5</p></td><td  ><p>91W</p></td><td  ><p><a href="https://www.amazon.com/Intel-Desktop-Processor-i7-7700K-BX80677I77700K/dp/B01MXSI216">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2990WX (GM)</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>32 / 64</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-threadripper-2990wx/p/N82E16819113541">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7820X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>140W</p></td><td  ><p><a href="https://www.amazon.com/Intel-BX80673I77820X-Core-i7-7820X-Processor/dp/B072NF4BY3">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2950X (GM)</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.4</p></td><td  ><p>180W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Threadripper-Processor-YD295XA8AFWOF/dp/B07GFN6CVF">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2970WX</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>24 / 48</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Threadripper-2990WX-Processor-YD299XAZAFWOF/dp/B07G25SD1P">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 2700</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>8 / 16</p></td><td  ><p>3.2 / 4.1</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-Processor-Wraith-Cooler/dp/B07B41717Z">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 1900X (GM)</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.0</p></td><td  ><p>180W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Threadripper-16-thread-Processor-YD190XA8AEWOF/dp/B0754JNQBP">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-BX80677I77700-Processor-Frequency-Generation/dp/B01N0L41N7">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2600</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>6 / 12</p></td><td  ><p>3.4 / 3.9</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-2600/p/N82E16819113496">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7800X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.5 / 4.0</p></td><td  ><p>140W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i7-x-series-i7-7800x/p/N82E16819117793">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7600K</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.8 / 4.2</p></td><td  ><p>91W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-7600K-Desktop-Processors-BX80677I57600K/dp/B01MRRPPQS">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 1950X (GM)</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>16 / 32</p></td><td  ><p>3.4 / 4.0</p></td><td  ><p>180W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-threadripper-1950x/p/N82E16819113447">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 1920X (GM)</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>12 / 24</p></td><td  ><p>3.5 / 4.0</p></td><td  ><p>180W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Threadripper-24-thread-Processor-YD192XA8AEWOF/dp/B074CBJHCT">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9350KF</p></td><td  ><p>56.42%</p></td><td  ><p>65.19%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0 / 4.6</p></td><td  ><p>91W</p></td><td  ><p><a href="https://www.amazon.com/dp/B07NC419VF">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 5300G</p></td><td  ><p>55.54%</p></td><td  ><p>62.68%</p></td><td  ><p>Zen 3</p></td><td  ><p>4 / 8</p></td><td  ><p>4.0 / 4.2</p></td><td  ><p>65W</p></td><td  ><p>OEM Only</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 1800X</p></td><td  ><p>53.86%</p></td><td  ><p>60.83%</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.newegg.com/p/N82E16819113430">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7600</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 4.1</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-BX80677I57600-Core-Desktop-Processors/dp/B01MYTYSMK">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8100</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / -</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i3-8100-Desktop-Processor-Unlocked/dp/B0759FTRZL">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7500</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.4 / 3.8</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-7500-Desktop-Processor-BX80677I57500/dp/B01MZZJ1P0">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7400</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.0 / 3.5</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i5-9400-Processor-Processors-984507/dp/B07MGZ9FJZ">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 1700X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 3.9</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-1700X-Processor-YD170XBCAEWOF/dp/B06X3W9NGG">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600AF</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 3.6</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Processor-Wraith-Cooler-YD1600BBAEBOX/dp/B06XNRQHG4">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 1700</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.0 / 3.8</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-7-1700/p/N82E16819113428">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8350K</p></td><td  ><p>53.84%</p></td><td  ><p>61.82%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0 / -</p></td><td  ><p>91W</p></td><td  ><p><a href="https://www.newegg.com/core-i3-8th-gen-intel-core-i3-8350k/p/274-000A-003A2?tag=hawk-future-20&ascsubtag=tomshardware&ascsubtag=%site%%transactionId%-gclid-%gclid%-Fallback">Core i3 i3-8350K</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9100</p></td><td  ><p>51.96%</p></td><td  ><p>60.1%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/intel-core-i3-9th-gen-core-i3-9100/p/N82E16819118022">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600X</p></td><td  ><p>49.99%</p></td><td  ><p>57.28%</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-1600X-Processor-YD160XBCAEWOF/dp/B06XKWT7GD">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 3.6</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Processor-Wraith-Cooler-YD1600BBAEBOX/dp/B06XNRQHG4">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3400G</p></td><td  ><p>48.81%</p></td><td  ><p>55.73%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 8</p></td><td  ><p>3.7 / 4.2</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3400G-8-Thread-Processor/dp/B07SXNDKNM">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7400</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4 </p></td><td  ><p>3.0 / 3.5</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/core-i5-7th-gen-intel-core-i5-7400/p/N82E16819117731">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8100</p></td><td  ><p>48.43%</p></td><td  ><p>59.7%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / -</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i3-8100-Desktop-Processor-Unlocked/dp/B0759FTRZL">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3200G</p></td><td  ><p>45.96%</p></td><td  ><p>52.98%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3200G-Unlocked-Processor/dp/B07STGHZK8">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2400G</p></td><td  ><p>44.84%</p></td><td  ><p>50.67%</p></td><td  ><p>Zen+</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 3.9</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-2400g/p/N82E16819113480">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1500X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 8</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-ryzen-5-1500x/p/N82E16819113436">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7350K</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>4.2 / -</p></td><td  ><p>60W</p></td><td  ><p><a href="https://www.newegg.com/core-i3-7th-gen-intel-core-i3-7350k/p/N82E16819117772">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5600</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>54W</p></td><td  ><p><a href="https://www.newegg.com/intel-pentium-gold-g5600/p/N82E16819117879">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 2200G</p></td><td  ><p>42.16%</p></td><td  ><p>48.56%</p></td><td  ><p>Zen+</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Ryzen-3200G-Unlocked-Processor/dp/B07STGHZK8">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 1300X</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Desktop-Processor-Stealth-YD130XBBAEBOX/dp/B0741DLVL7">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7300</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>4.0 / -</p></td><td  ><p>51W</p></td><td  ><p><a href="https://www.bhphotovideo.com/c/product/1304302-REG/intel_bx80677i37300_core_i3_7300_4_0_ghz.html">@BH&Photo</a></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5600</p></td><td  ><p>37.52%</p></td><td  ><p>44.7%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>54W</p></td><td  ><p><a href="https://ark.intel.com/content/www/us/en/ark/products/129945/intel-pentium-gold-g5600-processor-4m-cache-3-90-ghz.html">@Intel</a></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5400</p></td><td  ><p>36.57%</p></td><td  ><p>43.31%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.7 / -</p></td><td  ><p>54W</p></td><td  ><p><a href="https://www.amazon.com/Intel-Pentium-Desktop-Processor-BX80684G5400/dp/B0793BQS3R">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7100</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>51W</p></td><td  ><p><a href="https://www.amazon.com/Intel-i3-7100-Desktop-Processor-BX80677I37100/dp/B01NCESRJX">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1400</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 8</p></td><td  ><p>3.2 / 3.4</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Processor-Wraith-Stealth-YD1400BBAEBOX/dp/B06XKWT8J4">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4620</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.7 / -</p></td><td  ><p>54W</p></td><td  ><p><a href="https://www.newegg.com/intel-pentium-g4620/p/N82E16819117736">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4560</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>54W</p></td><td  ><p><a href="https://www.newegg.com/intel-pentium-g4560/p/N82E16819117743">@Newegg</a></p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 3000G</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>35W</p></td><td  ><p><a href="https://www.amazon.com/AMD-4-Thread-Unlocked-Processor-Graphics/dp/B0815JGFQ8">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 240GE</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>35W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Athlon-Radeon-Graphics-Processor/dp/B07L9V9F6H">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 220GE</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.4 / -</p></td><td  ><p>35W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Athlon-Radeon-Graphics-Processor/dp/B07L9Q7DLQ">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 200GE</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.2 / -</p></td><td  ><p>35W</p></td><td  ><p><a href="https://www.amazon.com/AMD-4-Thread-Processor-Graphics-YD200GC6FBBOX/dp/B07HJWVJDN">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 1200</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.1 / 3.2</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.amazon.com/AMD-Desktop-Processor-Stealth-YD1200BBAEBOX/dp/B0741DN383">@Amazon</a></p></td></tr><tr><td class="firstcol " ><p>Zhaoxin KaiXian KX-U6780A</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>LuJiaZui </p></td><td  ><p>8 / 8</p></td><td  ><p>2.7 / -</p></td><td  ><p>70W</p></td><td  ><p>N/A</p></td></tr><tr><td class="firstcol " ><p>AMD A10-9700</p></td><td  ><p>~</p></td><td  ><p>~</p></td><td  ><p>Bristol Ridge</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.8</p></td><td  ><p>65W</p></td><td  ><p><a href="https://www.newegg.com/amd-a10-7th-gen-a10-9700/p/N82E16819113451">@Newegg</a></p></td></tr></tbody></table></div><p>These tests are from our 2022 test bench. We measured performance for the 1080p CPU gaming benchmarks with a geometric mean of <em>Borderlands 3</em>, <em>Hitman 2</em>, <em>Far Cry 5</em>, <em>Project CARS 3</em>, <em>Red Dead Redemption 2</em>, and <em>Shadow of the Tomb Raider</em>. We measured performance for the 1440p CPU gaming benchmarks with a geometric mean of <em>Borderlands 3</em>, <em>Project CARS 3</em>, <em>Far Cry 5</em>, <em>Red Dead Redemption 2</em>, and <em>Shadow of the Tomb Raider</em>. We conducted these tests in Windows 10.</p><h3 class="article-body__section" id="section-legacy-2020-2022-single-threaded-cpu-benchmarks-rankings"><span>Legacy: 2020 - 2022 Single-Threaded CPU Benchmarks Rankings</span></h3><div ><table><caption>Legacy: 2020 - 2022 Single-Threaded CPU Benchmarks Hierarchy - Windows 10</caption><thead><tr><th class="firstcol " ><p> </p></th><th  ><p>Single-Threaded App Score</p></th><th  ><p>Architecture</p></th><th  ><p>Cores/Threads</p></th><th  ><p>Base/Boost GHz</p></th><th  ><p>TDP</p></th></tr></thead><tbody><tr><td class="firstcol " ><p>Intel Core i9-11900K (ABT off/on)</p></td><td  ><p>100% / 99.57%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5950X</p></td><td  ><p>95.31%</p></td><td  ><p>Zen 3</p></td><td  ><p>16 / 32</p></td><td  ><p>3.4 / 4.9</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Core i9-12900K DDR5 / DDR4</p></td><td  ><p>95.16% / 94.64%</p></td><td  ><p>Alder Lake</p></td><td  ><p>16 / 24 (8P+8E)</p></td><td  ><p>3.2 / 5.2</p></td><td  ><p>125 / 241W</p></td></tr><tr><td class="firstcol " ><p>Core i7-11700K</p></td><td  ><p>94.29%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5900X</p></td><td  ><p>93.69%</p></td><td  ><p>Zen 3</p></td><td  ><p>12 / 24</p></td><td  ><p>3.7 / 4.8</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 5800X</p></td><td  ><p>92.84%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11600K</p></td><td  ><p>92.56% / 89.67%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.9</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-12700K DDR5 / DDR4</p></td><td  ><p>91.60%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8P+4E)</p></td><td  ><p>3.6 / 4.9</p></td><td  ><p>125W / 190W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 5975WX</p></td><td  ><p>89.25%</p></td><td  ><p>Zen 3</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600X</p></td><td  ><p>89.19%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 5700G</p></td><td  ><p>88.92%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 5995WX</p></td><td  ><p>88.48%</p></td><td  ><p>Zen 3</p></td><td  ><p>64 / 128</p></td><td  ><p>3.6 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>Core i5-12600K DDR4 / DDR5</p></td><td  ><p>87.85% / 87.82%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6P+4E)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125 / 150W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10900K</p></td><td  ><p>86.68%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.7 / 5.3</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600G</p></td><td  ><p>85.75%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10850K</p></td><td  ><p>84.87%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.6 / 5.2</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900KS</p></td><td  ><p>83.13%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>127W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11400</p></td><td  ><p>83.09%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>2.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900K</p></td><td  ><p>82.63%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700K</p></td><td  ><p>82.31%</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 5.1</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 5300G</p></td><td  ><p>81.51%</p></td><td  ><p>Zen 3</p></td><td  ><p>4 / 8 </p></td><td  ><p>4.0 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-9700K</p></td><td  ><p>80.36%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 8</p></td><td  ><p>3.6 / 4.9</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800XT</p></td><td  ><p>79.75%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600XT</p></td><td  ><p>79.11%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900XT</p></td><td  ><p>78.86%</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-10600K</p></td><td  ><p>78.79%</p></td><td  ><p>Comet Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800X</p></td><td  ><p>78.37%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.5</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3950X</p></td><td  ><p>78.18%</p></td><td  ><p>Zen 2</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900X</p></td><td  ><p>77.68%</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700/F</p></td><td  ><p>~</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>2.9 / 4.8</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 4750G</p></td><td  ><p>77.2%</p></td><td  ><p>Zen  3</p></td><td  ><p>8 /16</p></td><td  ><p>3.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3970X</p></td><td  ><p>76.52%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.7 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3960X</p></td><td  ><p>76.42%</p></td><td  ><p>Zen 2</p></td><td  ><p>24 / 48</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3975WX</p></td><td  ><p>76.36%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.5 / 4.2</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700K</p></td><td  ><p>76.32%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.7</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3700X</p></td><td  ><p>76.29%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8086K</p></td><td  ><p>76.21%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600X</p></td><td  ><p>75.85%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.4</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9350KF</p></td><td  ><p>75.72%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0 / 4.6</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3300X</p></td><td  ><p>75.62%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9600K</p></td><td  ><p>75.41%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>6 / 6</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10980XE</p></td><td  ><p>75.24%</p></td><td  ><p>Cascade Lake-X</p></td><td  ><p>18 / 36</p></td><td  ><p>3.0 / 4.8</p></td><td  ><p>165W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3990X</p></td><td  ><p>75.10%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.9 / 4.3</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700</p></td><td  ><p>74.66%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 4.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3995WX</p></td><td  ><p>74.20%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.2</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600</p></td><td  ><p>73.02%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9980XE</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>18 / 36</p></td><td  ><p>4.4 / 4.5</p></td><td  ><p>165W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700K</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>4.2 / 4.5</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8600K</p></td><td  ><p>71.08%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Core i3-10100</p></td><td  ><p>70.80%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 2700X</p></td><td  ><p>69.53%</p></td><td  ><p>Zen+</p></td><td  ><p>8 / 16</p></td><td  ><p>3.7 / 4.3</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9100</p></td><td  ><p>69.20%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3100</p></td><td  ><p>67.74%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 3.9</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9400 / -9400F</p></td><td  ><p>67.67%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.9 / 4.1</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Xeon W-3175X</p></td><td  ><p>67.51%</p></td><td  ><p>Skylake</p></td><td  ><p>28 / 56</p></td><td  ><p>3.1 / 3.8</p></td><td  ><p>225W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2600X</p></td><td  ><p>66.78%</p></td><td  ><p>Zen+</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8350K / -8350KF</p></td><td  ><p>66.71%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0 / -</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8400</p></td><td  ><p>66.03%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.8 / 4.0</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3500X</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.1</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.1 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7100</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>51W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2950X</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.4</p></td><td  ><p>180W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2990WX</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>32 / 64</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2970WX</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>24 / 48</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3400G</p></td><td  ><p>64.86%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 8</p></td><td  ><p>3.7 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600X</p></td><td  ><p>63.62%</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 1800X</p></td><td  ><p>61.99%</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7400</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4 </p></td><td  ><p>3.0 / 3.5</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3200G</p></td><td  ><p>60.90%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2400G</p></td><td  ><p>60.79%</p></td><td  ><p>Zen+</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 3.9</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 1300X</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600AF</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 3.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5600</p></td><td  ><p>60.13%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8100</p></td><td  ><p>60.12%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / -</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 2200G</p></td><td  ><p>57.09%</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5400</p></td><td  ><p>56.79%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.7 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 3000G</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 220GE</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.4 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4560</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 200GE</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.2 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>AMD A10-9700</p></td><td  ><p>~</p></td><td  ><p>Bristol Ridge</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.8</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Zhaoxin KaiXian KX-U6780A</p></td><td  ><p>~</p></td><td  ><p>LuJiaZui </p></td><td  ><p>8 / 8</p></td><td  ><p>2.7 / -</p></td><td  ><p>70W</p></td></tr></tbody></table></div><p>These results are from our 2022 test bench. We calculate the above single-threaded CPU benchmark rankings based on a geometric mean of the Cinebench, POV-Ray, and LAME CPU benchmarks. The most powerful chip gets a 100, and all others are scored relative to it. We conducted these tests in Windows 10.</p><h3 class="article-body__section" id="section-legacy-2020-2022-multi-threaded-cpu-benchmarks-rankings"><span>Legacy: 2020 - 2022 Multi-Threaded CPU Benchmarks Rankings</span></h3><div ><table><caption>Legacy: Multi-Threaded CPU Benchmarks Hierarchy 2020 - 2022 - Windows 10</caption><thead><tr><th class="firstcol " ><p> </p></th><th  ><p>Multi-Threaded App Score</p></th><th  ><p>Architecture</p></th><th  ><p>Cores/Threads</p></th><th  ><p>Base/Boost GHz</p></th><th  ><p>TDP</p></th></tr></thead><tbody><tr><td class="firstcol " ><p>AMD Threadripper Pro 5995WX</p></td><td  ><p>112.53%</p></td><td  ><p>Zen 3</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3990X</p></td><td  ><p>100.0%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.9 / 4.3</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3995WX</p></td><td  ><p>97.59%</p></td><td  ><p>Zen 2</p></td><td  ><p>64 / 128</p></td><td  ><p>2.7 / 4.2</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 5975WX</p></td><td  ><p>93.14%</p></td><td  ><p>Zen 3</p></td><td  ><p>32 / 64</p></td><td  ><p>3.6 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper Pro 3975WX</p></td><td  ><p>82.59%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.5 / 4.2</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3970X</p></td><td  ><p>75.74%</p></td><td  ><p>Zen 2</p></td><td  ><p>32 / 64</p></td><td  ><p>3.7 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 3960X</p></td><td  ><p>64.76%</p></td><td  ><p>Zen 2</p></td><td  ><p>24 / 48</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>280W</p></td></tr><tr><td class="firstcol " ><p>Intel Xeon W-3175X</p></td><td  ><p>59.95%</p></td><td  ><p>Skylake</p></td><td  ><p>28 / 56</p></td><td  ><p>3.1 / 4.3</p></td><td  ><p>225W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5950X</p></td><td  ><p>53.58%</p></td><td  ><p>Zen 3</p></td><td  ><p>16 / 32</p></td><td  ><p>3.4 / 4.9</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3950X</p></td><td  ><p>47.32%</p></td><td  ><p>Zen 2</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 5900X</p></td><td  ><p>45.89%</p></td><td  ><p>Zen 3</p></td><td  ><p>12 / 24</p></td><td  ><p>3.7 / 4.8</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10980XE</p></td><td  ><p>43.06%</p></td><td  ><p>Cascade Lake-X</p></td><td  ><p>18 / 36</p></td><td  ><p>3.0 / 4.8</p></td><td  ><p>165W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9980XE</p></td><td  ><p>~</p></td><td  ><p>Skylake</p></td><td  ><p>18 / 36</p></td><td  ><p>4.4 / 4.5</p></td><td  ><p>165W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2990WX</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>32 / 64</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900X</p></td><td  ><p>38.69%</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900XT</p></td><td  ><p>38.66%</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Core i9-12900K DDR4 / DDR5</p></td><td  ><p>38.39% / 38.11%</p></td><td  ><p>Alder Lake</p></td><td  ><p>16 / 24 (8P+8E)</p></td><td  ><p>3.2 / 5.2</p></td><td  ><p>125 / 241W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-11900K (ABT off/on)</p></td><td  ><p>36.01% / 37.07%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.5 / 5.3</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2970WX</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>24 / 48</p></td><td  ><p>3.0 / 4.2</p></td><td  ><p>250W</p></td></tr><tr><td class="firstcol " ><p>Core i7-11700K</p></td><td  ><p>34.26%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10900K</p></td><td  ><p>33.79%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.7 / 5.3</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 5800X</p></td><td  ><p>33.48%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-10850K</p></td><td  ><p>33.38%</p></td><td  ><p>Comet Lake</p></td><td  ><p>10 / 20</p></td><td  ><p>3.6 / 5.2</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Threadripper 2950X</p></td><td  ><p>~</p></td><td  ><p>Zen +</p></td><td  ><p>16 / 32</p></td><td  ><p>3.5 / 4.4</p></td><td  ><p>180W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 9 3900</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>12 / 24</p></td><td  ><p>3.1 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Ryzen 7 5700G</p></td><td  ><p>29.73%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 4.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900KS</p></td><td  ><p>29.11%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>127W</p></td></tr><tr><td class="firstcol " ><p>Core i7-12700K DDR5 / DDR4</p></td><td  ><p>28.77% / 28.77%</p></td><td  ><p>Alder Lake</p></td><td  ><p>12 / 20 (8P+4E)</p></td><td  ><p>2.7 / 3.8</p></td><td  ><p>125 / 190W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800XT</p></td><td  ><p>28.49%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.7</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3800X</p></td><td  ><p>28.25%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.5</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700K</p></td><td  ><p>28.17%</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.8 / 5.1</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i9-9900K</p></td><td  ><p>27.78%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 5.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 3700X</p></td><td  ><p>27.47%</p></td><td  ><p>Zen 2</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11600K</p></td><td  ><p>26.79%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>3.9 / 4.9</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600X</p></td><td  ><p>26.15%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 4750G</p></td><td  ><p>26.06%</p></td><td  ><p>Zen 3</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-10700/F</p></td><td  ><p>~</p></td><td  ><p>Comet Lake</p></td><td  ><p>8 / 16</p></td><td  ><p>2.9 / 4.8</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-11400</p></td><td  ><p>24.46%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>2.6 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 5600G</p></td><td  ><p>23.33%</p></td><td  ><p>Zen 3</p></td><td  ><p>6 / 12</p></td><td  ><p>3.9 / 4.4</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Core i5-12600K DDR4 / DDR5</p></td><td  ><p>2308% / 23.07%</p></td><td  ><p>Alder Lake</p></td><td  ><p>10 / 16 (6P+4E)</p></td><td  ><p>3.7 / 4.9</p></td><td  ><p>125 / 150W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-9700K</p></td><td  ><p>22.81%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>8 / 8</p></td><td  ><p>3.6 / 4.9</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600XT</p></td><td  ><p>22.28%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.5</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600X</p></td><td  ><p>21.76%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.8 / 4.4</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3600</p></td><td  ><p>21.41%</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 2700X</p></td><td  ><p>21.59%</p></td><td  ><p>Zen+</p></td><td  ><p>8 / 16</p></td><td  ><p>3.7 / 4.3</p></td><td  ><p>105W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-10600K</p></td><td  ><p>20.83%</p></td><td  ><p>Comet Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.1 / 4.8</p></td><td  ><p>125W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700K</p></td><td  ><p>20.23%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.7 / 4.7</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Core i7-8700</p></td><td  ><p>20.04%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 4.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Core i7-8086K</p></td><td  ><p>19.30%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 12</p></td><td  ><p>4.0 / 5.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 7 1800X</p></td><td  ><p>19.17%</p></td><td  ><p>Zen</p></td><td  ><p>8 / 16</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2600X</p></td><td  ><p>16.96%</p></td><td  ><p>Zen+</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9600K</p></td><td  ><p>16.60%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>6  / 6</p></td><td  ><p>3.7 / 4.6</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3500X</p></td><td  ><p>~</p></td><td  ><p>Zen 2</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.1</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700K</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>4.2 / 4.5</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8600K</p></td><td  ><p>15.93%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 5300G</p></td><td  ><p>15.83%</p></td><td  ><p>Zen 3</p></td><td  ><p>4 / 8</p></td><td  ><p>4.0 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3300X</p></td><td  ><p>15.55%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600AF</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.2 / 3.6</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 1600X</p></td><td  ><p>15.16%</p></td><td  ><p>Zen</p></td><td  ><p>6 / 12</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>95W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-9400 / -9400F</p></td><td  ><p>15.04%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.9 / 4.1</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8400</p></td><td  ><p>14.76%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>6 / 6</p></td><td  ><p>2.8 / 4.0</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3100</p></td><td  ><p>14.17%</p></td><td  ><p>Zen 2</p></td><td  ><p>4 / 8</p></td><td  ><p>3.8 / 3.9</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Core i3-10100</p></td><td  ><p>13.37%</p></td><td  ><p>Rocket Lake</p></td><td  ><p>4 / 8</p></td><td  ><p>3.6 / 4.3</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9350KF</p></td><td  ><p>11.76%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0/4.6</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 3400G</p></td><td  ><p>11.31%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 8</p></td><td  ><p>3.7 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8350K</p></td><td  ><p>10.74%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>4.0 / -</p></td><td  ><p>91W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-9100</p></td><td  ><p>10.70%</p></td><td  ><p>Coffee Lake-R</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.2</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 5 2400G</p></td><td  ><p>10.56%</p></td><td  ><p>Zen+</p></td><td  ><p>4  / 8</p></td><td  ><p>3.6 / 3.9</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-8100</p></td><td  ><p>9.61%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / -</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7400</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>4 / 4 </p></td><td  ><p>3.0 / 3.5</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 3200G</p></td><td  ><p>8.66%</p></td><td  ><p>Zen +</p></td><td  ><p>4 / 4</p></td><td  ><p>3.6 / 4.0</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 1300X</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7100</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>51W</p></td></tr><tr><td class="firstcol " ><p>AMD Ryzen 3 2200G</p></td><td  ><p>7.99%</p></td><td  ><p>Zen</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.7</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5600</p></td><td  ><p>5.43%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.9 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 3000G</p></td><td  ><p>~</p></td><td  ><p>Zen+</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 220GE</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.4 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G5400</p></td><td  ><p>5.13%</p></td><td  ><p>Coffee Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.7 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>AMD Athlon 200GE</p></td><td  ><p>~</p></td><td  ><p>Zen</p></td><td  ><p>2 / 4</p></td><td  ><p>3.2 / -</p></td><td  ><p>35W</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4560</p></td><td  ><p>~</p></td><td  ><p>Kaby Lake</p></td><td  ><p>2 / 4</p></td><td  ><p>3.5 / -</p></td><td  ><p>54W</p></td></tr><tr><td class="firstcol " ><p>AMD A10-9700</p></td><td  ><p>~</p></td><td  ><p>Bristol Ridge</p></td><td  ><p>4 / 4</p></td><td  ><p>3.5 / 3.8</p></td><td  ><p>65W</p></td></tr><tr><td class="firstcol " ><p>Zhaoxin KaiXian KX-U6780A</p></td><td  ><p>~</p></td><td  ><p>LuJiaZui </p></td><td  ><p>8 / 8</p></td><td  ><p>2.7 / -</p></td><td  ><p>70W</p></td></tr></tbody></table></div><p>These tests are from our 2022 test bench. The multi-threaded workload column is based on CPU benchmarks performance in Cinebench, POV-ray, vray, Blender (four tests - Koro, Barcellona, Classroom, bmw27), y-cruncher, and Handbrake x264 and x265 workloads. These CPU benchmarks represent performance in productivity-focused applications that tend to require more compute horsepower. The most powerful chip gets a 100, and all others are scored relative to it. We conducted these benchmarks in Windows 10. </p><div ><table><caption>Legacy 2023 CPU Benchmarks Hierarchy Test Setup</caption><thead><tr><th class="firstcol " ><p>Hardware</p></th><th  ></th></tr></thead><tbody><tr><td class="firstcol " ><p><strong>AMD Socket AM4 (400- 500-Series)</strong></p></td><td  ><p>AMD Ryzen 2000- 3000- 5000- series processors</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>MSI MEG X570 Godlike</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2x 8GB Trident Z Royal DDR4-3600</p></td></tr><tr><td class="firstcol " ><p><strong>Intel LGA 1151 (Z490)</strong></p></td><td  ><p>Intel Comet Lake processors</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p><a href="https://www.amazon.com/MSI-Z370-PRO-AC-Motherboard/dp/B07SNSXHN1"></a><a href="null"></a>MSI Z370 Gaming Pro Carbon AC</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2x 8GB Trident Z Royal DDR4-3600</p></td></tr><tr><td class="firstcol " ><p><strong>AMD Socket AM4 (300-Series)</strong></p></td><td  ><p>Ryzen 1000-series processors</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p><a href="https://www.amazon.com/MSI-X370-XPOWER-Titanium-Motherboard/dp/B06WLNZ1JH"></a><a href="null"></a>MSI X370 Xpower Gaming Titanium</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2x 8GB G.Skill FlareX DDR4-3200 @ DDR4-2667</p></td></tr><tr><td class="firstcol " ><p><strong>Intel LGA 1151 (Z270)</strong></p></td><td  ><p>Intel Coffee Lake, Kaby Lake processors</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p><a href="https://www.amazon.com/MSI-Enthusiastic-Z270-Motherboard-GAMING/dp/B01N6O4YHD"></a><a href="null"></a>MSI Z270 Gaming M7</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2x 8GB Trident Z Royal DDR4-3600</p></td></tr><tr><td class="firstcol " ><p><strong>Intel LGA 2066</strong></p></td><td  ><p>Intel Skylake processors</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p><a href="https://www.amazon.com/MSI-Performance-X299-Motherboard-PRO/dp/B072JWYHVX"></a><a href="null"></a>MSI X299 Gaming Pro Carbon AC</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2x 8GB Trident Z Royal DDR4-3600</p></td></tr><tr><td class="firstcol " ><p><strong>All</strong></p></td><td  ><p>Gigabyte GeForce RTX 3090 Eagle</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>2TB Intel DC4510 SSD</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>EVGA Supernova 1600 T2, 1600W</p></td></tr><tr><td class="firstcol " ><p> </p></td><td  ><p>Windows 10 Pro version 2004 (build 19041.450)</p></td></tr><tr><td class="firstcol " ><p><strong>Cooling</strong></p></td><td  ><p><a href="https://www.amazon.com/Radiator-Advanced-Lighting-Software-compatible/dp/B077G3C6HH"></a><a href="null"></a>Corsair H115i</p></td></tr></tbody></table></div><h3 class="article-body__section" id="section-legacy-pre-2018-desktop-cpu-benchmarks"><span>Legacy: Pre-2018 Desktop CPU Benchmarks</span></h3><p>Recognizing that a lot of older platforms are going to be paired with graphics subsystems multiple generations old, we wanted to define the top of our range to encourage balance between host processing and complementary GPUs. At this point, anyone with a Sandy Bridge-based Core i7 would realize a gain from stepping up to <a href="https://www.tomshardware.com/reviews/intel-coffee-lake-ryzen-2,5615.html">Coffee Lake</a> or <a href="https://www.tomshardware.com/reviews/intel-core-i7-7740x-kaby-lake-x-cpu,5107.html">Kaby Lake</a>, for example. And putting AMD's top FX CPUs next to a handful of Core i7s and those older Core i5s represents an upgrade to their status.</p><p>Currently, our hierarchy consists of 13 total tiers. The bottom half of the chart is largely outdated; you'll notice those CPUs dragging down performance in the latest games, whether you have one of the <a href="https://www.tomshardware.com/reviews/best-gpus,4380.html">best graphics cards</a> or not. If you own a CPU in that range, an upgrade could really take your experience to another level.</p><p>Really, it's the top five tiers or so that remain viable. And in that top half of the chart, an upgrade is typically worthwhile if it's a least a couple of tiers higher. Otherwise, there's just not enough improvement to warrant the expense of a fresh CPU, <a href="https://www.tomshardware.com/reviews/best-motherboards,3984.html">motherboard </a>and <a href="https://www.tomshardware.com/reviews/best-ram,4057.html">RAM</a><a href="https://www.tomshardware.com/reviews/ram-random-access-memory-definition,5757.html"> </a>(not to mention the graphics card and storage solution you'd be considering as well). </p><div ><table><caption>Legacy: Pre-2018 Desktop CPU Benchmarks Hierarchy</caption><tbody><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700K </p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7900X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7960X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i9-7980XE</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-8700K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7740X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7820X</p></td><td  ><p>AMD Ryzen Threadripper 1950X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700</p></td><td  ><p>AMD Ryzen Threadripper 1920X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-8400</p></td><td  ><p>AMD Ryzen 7 1800X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7800X</p></td><td  ><p>AMD Ryzen Threadripper 1900X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-7700T</p></td><td  ><p>AMD Ryzen 7 1700X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-6950X</p></td><td  ><p>AMD Ryzen 7 1700</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-6900K</p></td><td  ><p>AMD Ryzen 5 1600X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-6850K</p></td><td  ><p>AMD Ryzen 5 1600</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-6800K</p></td><td  ><p>AMD Ryzen 5 1500X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-6700K</p></td><td  ><p>AMD Ryzen 5 1400</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7 6700</p></td><td  ><p>AMD Ryzen 3 1300X</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-5960X</p></td><td  ><p>Ryzen 5 2400G</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-5930K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-5820K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-5775C</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel i7-4960X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4930K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4820K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4790K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4770K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4790</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4771</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-4770</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3970X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3960X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3930K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3820</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3770K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-3770</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7640X</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7600K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7500</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-7400</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5 6600K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-6600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-6500</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5 6402P</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-6400</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-5675C</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4690K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4670K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4590</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4670</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4570</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel BX80646I54460</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4440</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-4430</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3570K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3570</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3550</p></td><td  ></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-990X Extreme</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-980X Extreme</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-975 Extreme</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-2600K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-2600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-965</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3470</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3450P</p></td><td  ><p>Intel Core i7-7700</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3450</p></td><td  ><p>AMD FX-9370</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3350P</p></td><td  ><p>AMD FX-8370</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3330</p></td><td  ><p>AMD FX-8350 w/Wraith</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2550K</p></td><td  ><p>AMD FX-8320</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2500K</p></td><td  ><p>AMD FX-8300</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2500</p></td><td  ><p>AMD FX-8150</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2450P</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2400</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2380P</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2320</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2310</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2300</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7350K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7320</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7300</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-7100</p></td><td  ></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-980</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-970</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-960</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-875K</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i7-870</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3 6320</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3 6300</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-6100</p></td><td  ><p>AMD FX-6350</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3 6100T</p></td><td  ><p>AMD FX-4350</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-6098P</p></td><td  ><p>AMD Phenom II X6 1100T Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4360</p></td><td  ><p>AMD Phenom II X6 1090T Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4350</p></td><td  ><p>AMD Phenom II X4 Black Edition 980</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4340</p></td><td  ><p>AMD Phenom II X4 Black Edition 975</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4170</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4160</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4150</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-4130</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3250</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3245</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3240</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3225</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3220</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-3210</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2130</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2025</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2120</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2105</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2100</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4620</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4560</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4500</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G4400</p></td><td  ></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-8370E</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-8320</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-8120</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-6300</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-6200</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-4300</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-4170</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom II X6 1075T</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-950</p></td><td  ><p>AMD Phenom II X4 970 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-940</p></td><td  ><p>AMD Phenom II X4 965</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-930</p></td><td  ><p>AMD Phenom II X4 955</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-920</p></td><td  ><p>AMD A10-7890K APU</p></td></tr><tr><td class="firstcol " ><p>Intel Core i7-860</p></td><td  ><p>Intel A10-7870K</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-3220T</p></td><td  ><p>AMD A10-7860K</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2405S</p></td><td  ><p>AMD A10-7850K</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-2400S</p></td><td  ><p>AMD A10-7800</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-760</p></td><td  ><p>AMD A10-7700K</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-750</p></td><td  ><p>AMD A10-6800K</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX9775</p></td><td  ><p>AMD A10-6790K</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX9770</p></td><td  ><p>AMD A10-6700</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX9650</p></td><td  ><p>AMD A10-5800K</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q9650</p></td><td  ><p>AMD A10-5700</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>Intel A8-7650K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-7600</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-6600K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-5600K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-3870K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-3870</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A8-3850</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 880K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>Intel Athlon X4 870K)</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>Intel A10-7870K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 750K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 740</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 651K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 645</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 641</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X4 640</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-6100</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-4130</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD FX-4100</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX6850</p></td><td  ><p>AMD Phenom II X6 1055T</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX6800</p></td><td  ><p>AMD Phenom II X6 1045T</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q9550</p></td><td  ><p>AMD Phenom II X4 945</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q9450</p></td><td  ><p>AMD Phenom II X4 940</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q9400</p></td><td  ><p>AMD Phenom II X4 920</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-680</p></td><td  ><p>AMD Phenom II X3 740</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-670</p></td><td  ><p>AMD Phenom II X3 720 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-661</p></td><td  ><p>AMD A8-6500</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-660</p></td><td  ><p>AMD A8-5500</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-655K</p></td><td  ><p>AMD A6</p></td></tr><tr><td class="firstcol " ><p>Intel Core i5-650</p></td><td  ><p>AMD A6</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2120T</p></td><td  ><p>AMD A6-3670K</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-2100T</p></td><td  ><p>AMD A6-3650</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon II X4 635</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon II X4 630</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme QX6700</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q9300</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q8400</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q8300</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q6700</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q6600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8600</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8500</p></td><td  ><p>AMD Phenom II X4 910</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8400</p></td><td  ><p>AMD Phenom II X4 910e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E7600</p></td><td  ><p>AMD Phenom II X4 810</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-550</p></td><td  ><p>AMD Athlon II X4 631</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-540</p></td><td  ><p>AMD Athlon II X4 620</p></td></tr><tr><td class="firstcol " ><p>Intel Core i3-530</p></td><td  ><p>AMD Athlon II X3 460</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3470</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3460</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3450</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3440</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3430</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3420</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3260</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3258</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3250</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G3220</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G2130</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G2120</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G2020</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G2010</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G870</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G860</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G850</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G840</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G645</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G640</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium G630</p></td><td  ></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Extreme X6800</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Quad Q8200</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8300</p></td><td  ><p>AMD Phenom II X4 905e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8200</p></td><td  ><p>AMD Phenom II X4 805</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E8190</p></td><td  ><p>AMD Phenom II X3 710</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E7500</p></td><td  ><p>AMD Phenom II X3 705e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E7400</p></td><td  ><p>AMD Phenom II X2 565 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6850</p></td><td  ><p>AMD Phenom II X2 560 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6750</p></td><td  ><p>AMD Phenom II X2 555 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G620</p></td><td  ><p>AMD Phenom II X2 550 Black Edition</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G1630</p></td><td  ><p>AMD Phenom II X2 545</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G1620</p></td><td  ><p>AMD Phenom X4 9950</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G1610</p></td><td  ><p>AMD Athlon II X3 455</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G555</p></td><td  ><p>AMD Athlon II X3 450</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G550</p></td><td  ><p>AMD Athlon II X3 445</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G540</p></td><td  ><p>AMD Athlon II X3 440</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G530</p></td><td  ><p>AMD Athlon II X3 435</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G3950</p></td><td  ><p>AMD Athlon II X3 425</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G3930</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Celeron G3930</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Celeron G3900</p></td><td  ></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9850</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9750</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9650</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E7300</p></td><td  ><p>AMD Phenom X4 9600</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E7200</p></td><td  ><p>AMD Phenom X3 8850</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6700</p></td><td  ><p>AMD Phenom X3 8750</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6550</p></td><td  ><p>AMD Athlon II X2 370K</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6540</p></td><td  ><p>AMD Athlon II X2 265</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E6700</p></td><td  ><p>AMD Athlon II X2 260</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E6600</p></td><td  ><p>AMD Athlon II X2 255</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E650</p></td><td  ><p>AMD A6-5500K</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E6300</p></td><td  ><p>AMD A6</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E5800</p></td><td  ><p>AMD A4-7300</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E5700</p></td><td  ><p>AMD A4-6400K</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium G9650</p></td><td  ><p>AMD A4-6300</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-5400K</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-5300</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-4400</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-4000</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-3400</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD A4-3300</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Sempron 2650</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 6400+</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9550</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9500</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9450e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6600</p></td><td  ><p>AMD Phenom X4 9350e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6420</p></td><td  ><p>AMD Phenom X3 8650</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E4700</p></td><td  ><p>AMD Phenom X3 8600</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E4600</p></td><td  ><p>AMD Phenom X3 8550</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E4500</p></td><td  ><p>AMD Phenom X3 8450e</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E5400</p></td><td  ><p>AMD Phenom X3 8450</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E5300</p></td><td  ><p>AMD Phenom X3 8400</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E5200</p></td><td  ><p>AMD Phenom X3 8250e</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core G620T</p></td><td  ><p>AMD Athlon II X2 250</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon II X2 245</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon II X2 240</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X2 7850</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X2 7750</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 6000+</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 5600+</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9150e</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Phenom X4 9100e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6400</p></td><td  ><p>AMD Athlon X2 7550</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6320</p></td><td  ><p>AMD Athlon X2 7450</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E4400</p></td><td  ><p>AMD Athlon X2 5050e</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E4300</p></td><td  ><p>AMD Athlon X2 4850e/b</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron E3300</p></td><td  ><p>AMD Athlon 64 X2 5400+</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 5200+</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 5000+</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon 64 X2 4800+</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E6300</p></td><td  ><p>AMD Athlon X2 6550</p></td></tr><tr><td class="firstcol " ><p>Intel Core 2 Duo E5500</p></td><td  ><p>AMD Athlon X2 6500</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2220</p></td><td  ><p>AMD Athlon X2 4450e/b</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2200</p></td><td  ><p>AMD Athlon X2 4600+</p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2210</p></td><td  ><p>AMD Athlon X2 4400+</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron E3200</p></td><td  ><p>AMD Athlon X2 4200+</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X2 BE-2400</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2180</p></td><td  ><p>AMD Athlon 64 X2 4000+</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron 1600</p></td><td  ><p>AMD Athlon 64 X2 3800+</p></td></tr><tr><td class="firstcol " ><p>Intel Celeron G440</p></td><td  ><p>AMD Athlon X2 4050e</p></td></tr><tr><td class="firstcol empty" ></td><td  ><p>AMD Athlon X2 2300 Black Edition</p></td></tr><tr><td class="firstcol empty" ></td><td  ></td></tr><tr><td class="firstcol " ><p><strong>Intel CPUs</strong></p></td><td  ><p><strong>AMD CPUs and APUs</strong></p></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2160</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Pentium Dual-Core E2140</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Celeron E1500</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Celeron E1400</p></td><td  ></td></tr><tr><td class="firstcol " ><p>Intel Celeron E1200</p></td><td  ></td></tr></tbody></table></div><ul><li><a href="https://www.tomshardware.com/news/amd-ryzen-7-7800x3d-vs-intel-core-i9-13900k-vs-intel-core-7-13700K">AMD Ryzen 7 7800X3D vs Intel Core i9-13900K vs Core i7-13700K: Big Gaming Punch, Smaller Price Tag</a></li><li><a href="https://www.tomshardware.com/news/amd-ryzen-9-7950x3d-vs-intel-core-i9-13900k-faceoff">AMD Ryzen 9 7950X3D vs Intel Core i9-13900K Faceoff: Battle of the Gaming Flagships</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-13600k-vs-amd-ryzen-7-7700x-and-ryzen-5-7600x-face-off">Intel Core i5-13600K vs AMD Ryzen 7 7700X and Ryzen 5 7600X Face Off</a></li><li><a href="https://www.tomshardware.com/news/amd-ryzen-9-7950x-vs-intel-core-i9-13900k">AMD Ryzen 9 7950X vs Intel Core i9-13900K Face Off</a></li><li><a href="https://www.tomshardware.com/news/ryzen-7-5800x3d-vs-core-i7-12700k-and-core-i9-12900k-face-off-the-rise-of-3d-v-cache">Ryzen 7 5800X3D vs Core i7-12700K and Core i9-12900K Face-Off: The Rise of 3D V-Cache</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i9-12900k-vs-ryzen-9-5900x-5950x">Intel Core i9-12900K vs Ryzen 9 5900X and 5950X: Alder Lake and Ryzen 5000 Face Off</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-12600k-vs-amd-ryzen-5-5600x-ryzen-7-5800x-cpu-face-off">Intel Core i5-12600K vs AMD Ryzen 5 5600X and 5800X Face Off: Ryzen Has Fallen</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i7-12700k-vs-amd-ryzen-9-5900x-and-5800x-face-off-intel-rising">Intel Core i7-12700K vs AMD Ryzen 9 5900X and 5800X Face Off: Intel Rising</a></li><li><a href="https://www.tomshardware.com/news/intel-core-i5-12400-vs-amd-ryzen-5-5600x-ryzen-5-5600g-cpu-face-off">Intel Core i5-12400 vs AMD Ryzen 5 5600X Face-Off: The Gaming Value Showdown</a></li></ul><ul><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><strong>Best CPUs for Gaming</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/features/amd-vs-intel-cpus"><strong>AMD vs Intel</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs"><strong>13th-Gen Raptor Lake</strong></a><strong> All We Know</strong></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/news/amd-zen-4-ryzen-7000-release-date-specifications-pricing-benchmarks-all-we-know-specs"><strong>Zen 4 Ryzen 7000</strong></a><strong> All We Know</strong></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/how-to/how-to-overclock-a-cpu"><strong>How to Overclock a CPU</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/how-to/how-to-check-cpu-temp-temperature"><strong>How to check CPU Temperature</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/topics/cpus"><strong>All CPUs Content</strong></a></li></ul><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ AMD Zen 1 Vulnerability Not Properly Fixed, Second Pass Issued ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/amd-zen-1-vulnerability-not-properly-fixed-second-pass-issued</link>
                                                                            <description>
                            <![CDATA[ AMD Linux security engineer Borislav Petkov issued a new patch towards fixing the Zen 1-exclusive "Divide by zero" bug, showcasing both the willingness to revisit "explored" issues and the difficulty in security mitigation. ]]>
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                                                                        <pubDate>Mon, 14 Aug 2023 17:31:10 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:06:44 +0000</updated>
                                                                                                                                            <category><![CDATA[Software]]></category>
                                                                                                <author><![CDATA[ francisco.alexandre.pires@proton.me (Francisco Pires) ]]></author>                    <dc:creator><![CDATA[ Francisco Pires ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/vVpPSVV4UyiTaveBZujqif.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Francisco&#039;s first interaction with a computer saw him diligently copying children&#039;s books into Word on a Windows 95-based PC. He built his first tower PC following magazine assembly guides, and the upgrade bug stuck - leading him to cover the latest in tech industry news since 2016. He believes curiosity is one of humanity&#039;s greatest drivers; when he isn&#039;t devoting himself to the written word, he&#039;s either photographing, gaming, or attempting to make sense of the world - something he still often fails at.&lt;/p&gt; ]]></dc:description>
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                                <p>AMD&apos;s patch for its Zen 1 "<a href="https://www.tomshardware.com/news/zen1-vulnerability-emerges-dvided-by-0-leak-data">Division by zero</a>" bug wasn&apos;t the end-all, be-all the company wanted it to be. While the company was fast in issuing a patch, they might&apos;ve been just a bit too fast: <a href="https://www.tomshardware.com/news/new-vulnerability-affects-all-amd-zen-cpus">According to</a> Michael Larabel with Phoronix, AMD Linux Engineer Borislav Petkov published a new patch that fixed an issue with the original solution (also published by him). It&apos;s just another datapoint on the difficulties of hardening against possible attack vectors.</p><p>The original bug related to how Zen 1 processed an integer calculation divided by 0 in certain circumstances: according to the findings, there was the possibility that AMD&apos;s CPU kept "stale quotient data" within its registers even after the operation was fully finished, which could give attackers a window to retrieve sensitive information. The original workaround was to perform a final "dummy division 0/1 before returning from the #DE exception handler". The idea is simple: whatever old data was still stored would be wiped upon the completion of the 0/1 division (whose result is always, well, zero).</p><p>The issue with that solution, as Petkov explained, was that by the time that security provision kicked in, the speculative execution attack would have already advanced too far: there would already be some amount of old data on AMD&apos;s divider, which the attackers could get at before the dummy division kicked in. As Petkov explained it, his new solution now forces that same division in a number of scenarios:<br><br><em>"Initially, it was thought that doing an innocuous division in the #DE handler would take care to prevent any leaking of old data from the divider but by the time the fault is raised, the speculation has already advanced too far and such data could already have been used by younger operations.</em></p><p><em>Therefore, do the innocuous division on every exit to userspace so that userspace doesn&apos;t see any potentially old data from integer divisions in kernel space.</em></p><p><em>Do the same before VMRUN too, to protect host data from leaking into the guest too."</em></p><p>It&apos;s already been a busy month for vulnerabilities in the CPU realm, with both AMD and Intel both having been hit with disclosures. From Intel&apos;s more extreme <a href="https://www.tomshardware.com/news/intel-downfall-vulnerability">Downfall</a> vulnerability (affecting Skylake through Tiger Lake/Rocket Lake) through AMD&apos;s <a href="https://www.tomshardware.com/news/new-vulnerability-affects-all-amd-zen-cpus">SQUIP</a> and <a href="https://www.tomshardware.com/news/amd-inception-vulnerability-affects-zen-3-and-4">Inception</a> vulnerabilities (and the now re-fixed "divide by zero" vulnerability, researchers have been hard at work. It still doesn&apos;t compare to the storied history of Meltdown and Spectre days (although these new bugs are also related to speculative execution vulnerabilities. Speculative execution refers to the way modern CPUs try to pre-empt calculation steps before they&apos;ve even become necessary, so that the required data is already available in case it&apos;s called to the execution. Yet while the fixes to some of those vulnerabilities have carried (sometimes severe) performance penalties, it&apos;s at least a good sign that AMD&apos;s 0/1 dummy division doesn&apos;t come with additional overhead.</p><p>At the same time, it&apos;s heartening to see that at least in this case, the security patch wasn&apos;t issued in a sort of "set it and forget it" manner - with the sort of merry-go-round work that blue team experts have to carry, there were other ways this could have gone (the deficient patch could&apos;ve been believed to fully work, leaving the door open to further hacking explorations down the road (with whatever impact those might carry).</p>
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                                                            <title><![CDATA[ Intel's Downfall Mitigations Drop Performance Up to 39%, Tests Show ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-downfall-mitigation-performance-drop-linux</link>
                                                                            <description>
                            <![CDATA[ Linux publication Phoronix evaluates the performance impact of Downfall mitigations on different Intel processors. ]]>
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                                                                        <pubDate>Thu, 10 Aug 2023 18:57:08 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:54:31 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[10th Gen Intel processors]]></media:description>                                                            <media:text><![CDATA[10th Gen Intel processors]]></media:text>
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                                <p>Intel recently disclosed <a href="https://www.tomshardware.com/news/intel-downfall-vulnerability">Downfall</a>, a security vulnerability that affects multiple generations of Intel processors - some of which used to be the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPUs</a> on the market. The chipmaker has rolled out an updated software-level microcode with a fix for the flaw. However, it has caused some alarms since there&apos;s a potential claimed performance impact of up to 50% on AVX2 and AVX-512 workloads involving the Gather instruction.</p><p>As a quick recap, Downfall (<a href="https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-40982" target="_blank">CVE-2022-40982</a>) is associated with the memory optimization feature inside Intel processors. Downfall exploits the Gather instruction, which speeds up the processor where Intel chips fetch data scattered in different places in the memory. The Gather instruction inadvertently exposes internal hardware registers to software, allowing the latter to tap into data kept by other software. Downfall affects Intel mainstream and server processors, spanning from the Skylake to the <a href="https://www.tomshardware.com/news/intel-rocket-lake-release-date-specifications-performance-all-we-know">Rocket Lake</a> microarchitecture. Therefore, you&apos;re likely affected unless you own one of Intel&apos;s more recent processors, such as <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a>, <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a>, or <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">Sapphire Rapids</a>. Intel has put up an <a href="https://www.intel.com/content/www/us/en/developer/topic-technology/software-security-guidance/processors-affected-consolidated-product-cpu-model.html" target="_blank">extensive list</a> of all the affected chips.</p><p>The main concern is how the mitigation will affect the performance of Intel processors. Leading Linux publication <a href="https://www.phoronix.com/review/intel-downfall-benchmarks" target="_blank">Phoronix</a> has evaluated the impact of the Downfall mitigations on Linux. The news outlet tested a pair of Xeon Platinum 8380 (Ice Lake) processors, a Xeon Gold 6226R (Cascade Lake) chip, and a Core i7-1165G7 (Tiger Lake) part. Phoronix utilized diverse real-world software packages that form part of the <a href="https://www.tomshardware.com/news/intel-bringing-oneapi-to-gaming-rendering-toolkit-xe-graphics">Intel oneAPI</a> software.</p><p>The two Xeon Platinum 8380 were around 6% slower in OpenVKL 1.3.1. With OSPRay 2.12, Phoronix recorded performance hits of up to 34%. The mitigations caused significant decreases in AI workloads, such as Neural Magic DeepSparse 1.5, Tencent NCNN, and QMCPACK, with up to 17% reductions.</p><p>The Xeon Gold 6226R benchmark results revealed similar performance deterioration. The Cascade Lake chip lost up to 33% in OSPRay 2.12 and up to 20% in Neural Magic DeepSparse 1.5.</p><p>As for the Core i7-1165G7, Phoronix only ran three benchmarks on it, but they were enough to show the performance degradation from the Downfall mitigations. For example, the Core i7-1165G7 delivered 11% lower performance in OpenVLK 1.3.1. On OSPRay 2.12, the mitigations shaved off between 19% to 39% of performance from the Core i7-1165G7.</p><p>The good news from Phoronix&apos;s initial set of results is that the performance decrease from the Downfall mitigation was lower than Intel&apos;s forecasted 50% overhead. However, the bad news is that the performance penalty is still significant. AVX instructions aren&apos;t limited to AI or HPC workload tests, either. You can find them in other workloads, such as video encoding or transcoding. Logically, it would be interesting to see which workloads are negatively impacted by the Downfall mitigations. From Phoronix&apos;s preliminary tests, HPC workloads are the most affected.</p><p>The microcode update isn&apos;t mandatory. If you want to turn off the mitigation, Intel offers an opt-out mechanism to restore your processor&apos;s performance in vectorization-heavy workloads. Then there is the debate on the complexity of successfully carrying out a Downfall attack. The exploit sounds like a difficult feat overall, but ultimately, it depends on whether you value your security more than performance or vice versa.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ AMD Zen 1 Vulnerability Emerges, Dividing by 0 Can Leak Sensitive Data ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/zen1-vulnerability-emerges-dvided-by-0-leak-data</link>
                                                                            <description>
                            <![CDATA[ Yet another CPU vulnerability has been found, this time affecting Zen 1 CPUs in Linux-based operating systems. This new vulnerability allows potentially sensitive data to be released if a Zen 1 chip divides an integer by 0. ]]>
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                                                                        <pubDate>Thu, 10 Aug 2023 16:40:00 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:51:30 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[A Ryzen processor sitting in a motherboard socket.]]></media:description>                                                            <media:text><![CDATA[A Ryzen processor sitting in a motherboard socket.]]></media:text>
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                                <p>Despite the fact that AMD&apos;s Zen 1 architecture is immune to the recent <a href="https://www.tomshardware.com/news/amd-inception-vulnerability-affects-zen-3-and-4">&apos;Inception&apos;</a> vulnerability affecting modern Zen 3 and Zen 4 CPUs, another vulnerability has been found that affects Zen 1 CPUs specifically. According to a report by <a href="https://www.phoronix.com/news/AMD-Zen1-Divide-By-Zero-Bug">Phoronix</a>, a new Zen 1 vulnerability was found that can release potentially sensitive data if the CPU divides an integer calculation by the number 0 in Linux operating systems.</p><p>According to commentary made by AMD Linux developer Borislav Petkov, the bug specifically leaves <em>"stale quotient data"</em> after a Zen 1 CPU divides an integer calculation by 0 in certain circumstances. The fix involves doing a "dummy division 0/1 before returning from the #DE exception handler in order to avoid any leaks of potentially sensitive data."</p><p>Thankfully the Linux community has already issued a bug fix, resolving the issue. Petkov authorized a Linux kernel patch to work around the vulnerability. The patch was merged into Linux 6.5 kernel today and is set to be back-ported to all stable Linux kernel releases as well. So if you are running an OS featuring an older Linux kernel, you don&apos;t have to upgrade to the latest Linux kernel version to get the new fix.</p><p>Interestingly there is also another workaround method that doesn&apos;t involve kernel updates. Apparently, the vulnerability can be neutralized by disabling Symmetric Multi-Threading on Zen 1 CPUs as well. This method obviously has its flaws, since it reduces the performance benefits SMT offers on AMD CPUs, and in many cases, it also disables sleep mode due to an architectural limitation. But it is a good way to temporarily patch the vulnerability for Linux users that are waiting for the kernel patch to be released for their specific OS.</p><p>This issue is reminiscent of a similar problem on Intel&apos;s Skylake chips from several years ago, where disabling Intel&apos;s HyperThreading technology patched some security holes on those chips.</p><p>Thankfully the issue appears to be Linux-specific and does not affect Windows operating systems. Plus the vulnerability is already being actively patched for Linux users. However, the same cannot be said of the two other vulnerabilities affecting modern AMD CPUs and Intel CPUs, Inception and Downfall, <a href="https://www.tomshardware.com/news/intel-downfall-vulnerability">right now.</a></p>
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                                                            <title><![CDATA[ Intel 'Downfall' Bug Steals Encryption Keys, Data From Years of CPUs (Update) ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-downfall-vulnerability</link>
                                                                            <description>
                            <![CDATA[ A Google researcher has found a speculative execution vulnerability in several generations of Intel processors. ]]>
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                                                                        <pubDate>Tue, 08 Aug 2023 22:03:57 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:09:27 +0000</updated>
                                                                                                                                            <category><![CDATA[Cyber Security]]></category>
                                                    <category><![CDATA[Tech Industry]]></category>
                                                                                                                    <dc:creator><![CDATA[ Andrew E. Freedman ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/MTveuGNKPqpzrLttEA9ebb.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Andrew oversees laptop and desktop coverage and keeps up with the latest news in tech and gaming. His work has been published in Kotaku, PCMag, Complex, Tom’s Guide and Laptop Mag, among others. He fondly remembers his first computer: a Gateway that still lives in a spare room in his parents&#039; home, albeit without an internet connection. When he’s not writing about tech, you can find him playing video games, checking social media and waiting for the next Marvel movie. Follow him on Threads &lt;a href=&quot;https://www.threads.net/@freedmanae&quot;&gt;@FreedmanAE&lt;/a&gt; and BlueSky &lt;a href=&quot;https://bsky.app/profile/andrewfreedman.net&quot;&gt;@andrewfreedman.net&lt;/a&gt;.&lt;a href=&quot;https://bsky.app/profile/andrewfreedman.net&quot;&gt; &lt;/a&gt;You can send him tips on Signal: andrewfreedman.01&lt;/p&gt; ]]></dc:description>
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                                <p>A new security vulnerability, called Downfall, was revealed today by Intel and the researcher who discovered it, Daniel Moghimi. The new attack uses Gather Data Sampling to steal data and other sensitive information from other users on a computer with Intel processors from 2015 through 2019 ranging from sixth gen Skylake through eleventh gen Rocket Lake and Tiger Lake.<br><br>Intel has posted about the vulnerability in a <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00828.html">security advisory, INTEL-SA-00828</a>, and has reserved <a href="https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2022-40982">CVE-2022-40982</a>.<br><br>Moghami, a senior research scientist at Google (and formerly of the University of California San Diego posted details on <a href="https://downfall.page/">downfall.page</a>.<br><br>"The vulnerability is caused by memory optimization features in Intel processors that unintentionally reveal internal hardware registers to software," Moghami wrote. "This allows untrusted software to access data stored by other programs, which should not be normally be accessible. I discovered that the Gather instruction, meant to speed up accessing scattered data in memory, leaks the content of the internal vector register file during speculative execution."<br><br>On the page, Moghami shows demos stealing 128-bit and 256-bit AES keys from other users, as well as spying on typed characters and taking data from the Linux kernel. He suggests that even if you don&apos;t own an Intel powered-device, Intel&apos;s dominance in the server market means that everyone on the internet is affected, and that "in cloud computing environments, a malicious customer could exploit the Downfall vulnerability to steal data and credentials from other customers who share the same cloud computer."<br><br>Intel is releasing microcode for its affected chips. The company "recommends that users of affected Intel Processors update to the latest version firmware provided by the system manufacturer that addresses these issues." If you&apos;re not using Intel SGX, a hardware-based memory encryption technology from Intel, you can load it from the operating system.<br><br>In a statement to Tom&apos;s Hardware, Intel wrote: "The security researcher, working within the controlled conditions of a research environment, demonstrated the GDS issue which relies on software using Gather instructions. While this attack would be very complex to pull off outside of such controlled conditions, affected platforms have an available mitigation via a microcode update. Recent Intel processors, including Alder Lake, Raptor Lake and Sapphire Rapids, are not affected. Many customers, after reviewing Intel&apos;s risk assessment guidance, may determine to disable the mitigation via switches made available through Windows and Linux operating systems as well as VMMs. In public cloud environments, customers should check with their provider on the feasibility of these switches.”<br><br>The overhead, per Moghami and Intel, could be as high as 50% depending on if a workload uses Gather. Notably, Intel will have an "opt-out mechanism" in the microcode that allows the mitigation for Downfall to be disabled in order to "avoid the performance impact on certain vectorization-heavy workloads."<br><br>The researcher recommends against opting out: "This is a bad idea. Even if your workload does not use vector instructions, modern CPUs rely on vector registers to optimize common operations, such as copying memory and switching register content, which leaks data to untrusted code exploiting Gather."<br><br>Moghami will present Downfall at the BlackHat USA conference on August 9 and USENIX Security Symposium on August 11. His technical paper can be found <a href="https://downfall.page/media/downfall.pdf">here</a>.</p><p>Newer Intel chips, like 12th Gen Alder Lake, 13th Gen Raptor Lake, and Sapphire Rapids server chips aren&apos;t affected. </p><p><strong>Updated August 9 </strong><em>with comment from Intel.</em></p>
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                                                            <title><![CDATA[ Microsoft Could Arm Next Surface Go With Alder Lake-N SoC ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/microsoft-could-arm-next-surface-go-with-alder-lake-n-soc</link>
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                            <![CDATA[ Microsoft is rumored to be upgrading its next-gen Surface Go tablet with the Intel Processor N200, an efficient Alder Lake-N CPU with Skylake CPU performance. ]]>
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                                                                        <pubDate>Fri, 04 Aug 2023 19:58:48 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:45:38 +0000</updated>
                                                                                                                                            <category><![CDATA[Laptops]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p><a href="https://liliputing.com/microsofts-next-surface-go-tablet-is-expected-to-have-intel-n200-inside/">Rumors suggest</a> that Microsoft will launch a next-generation Surface Go tablet later this year, and that device could be powered by Intel&apos;s new "Atom-inspired" Alder Lake-N CPU architecture. If true, this will give the next-gen Surface Go a significant performance boost over the outgoing Surface Go 3, which comes with much older 14nm Amber Lake CPUs.</p><p>The new rumors suggest that the next Surface Go 3 will be powered by the Intel Processor N200, a quad-core, four-threaded CPU with a 3.7GHz boost clock and 6W TDP. This chip is one of Intel&apos;s latest <a href="https://www.tomshardware.com/news/alder-lake-n-takes-shape-gracemont-xe-lp">Alder Lake-N</a> SoCs, featuring its highly efficient but surprisingly quick Gracemount CPU cores. These are the same cores found in Intel&apos;s Alder Lake and Raptor Lake desktop/mobile CPUs, where they are known as efficiency cores.</p><p>Despite their purpose, the <a href="https://www.tomshardware.com/features/intel-architecture-day-2021-intel-unveils-alder-lake-golden-cove-and-gracemont-cores/3">Gracemount</a> core is surprisingly powerful for its size and power consumption. Intel says Gracemount is just as fast as its 6th Generation CPUs built on the Skylake architecture in 2015, which is quick considering these chips consume around 6W (depending on clock speed and core count). For reference, a Skylake chip like a Core i5-6600K can still run basic workloads without a hitch and can still play modern games with modern GPUs as long as you aren&apos;t expecting sky-high frame rates.</p><p>This should give the next generation Surface Go very usable CPU performance, as it will be a noteworthy upgrade over the current generation&apos;s two options of either a Pentium Gold 6500Y or Core i3-10100Y. The N200 also features a modern integrated graphics chip running on Intel&apos;s Xe-LP architecture supporting AV1 encode/decode and 8K 60p playback. This will make the next Surface Go an excellent video-watching device (whether or not you&apos;re watching from the tablet screen or plugging into a 4K TV).</p><p>The only CPU choice rumored to be in the works for the new Surface Go is the Intel Processor N200. But we could see even more powerful CPUs in the official model since the current generation tablet has a Core i3 option. If Microsoft goes with a second, more powerful CPU option, we could see Core i3-N300 or Core i3-N305 being used, offering eight cores instead of four and a slightly higher clock speed. The N305, in particular, more than doubles the power rating of the N200, going from 6W to 15W.</p><p>According to <a href="https://www.windowscentral.com/hardware/surface/microsoft-postpones-surface-go-4-with-arm-plans-minor-refresh-with-intel-n200-instead">Windows Latest</a>, Microsoft is planning to launch the new Surface Go tablet this fall, supposedly, there was also going to be an ARM version that would release at the same time, but it has been postponed for unknown reasons.</p>
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                                                            <title><![CDATA[ Loongson: Next-Gen Quad-Core Chinese CPU Matches Intel's Tiger Lake ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/loongson-next-generation-cpu-matches-intels-tiger-lake</link>
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                            <![CDATA[ Loongson publishes test results of its quad-core 3A6000 processor at 2.50 GHz. ]]>
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                                                                        <pubDate>Tue, 01 Aug 2023 15:08:26 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:42:33 +0000</updated>
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                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Chinese chipmaker Loongson has long promised that its next-generation 3A6000-series processors based on the LoongArch microarchitecture will <a href="https://www.tomshardware.com/news/loongson-next-generation-cpu-core-to-match-amd-zen-3-performance">match AMD&apos;s Zen 3 CPUs in terms of instructions per clock (IPC) performance</a>. This week the company <a href="https://mp.weixin.qq.com/s/Lm_6varu0ovntPGfVzeGLw">disclosed</a> (via <a href="https://twitter.com/9550pro">@9550pro</a>) some of the actual test results of its quad-core 3A6000 processor and said that they were comparable to Intel&apos;s quad-core &apos;10th-Gen Core&apos; processor from 2020. But there&apos;s a catch.</p><p>"Based on the relevant test results, the overall performance of the Loongson 3A6000 processor is comparable to that of Intel&apos;s 10th generation Core quad-core processor launched in 2020," a statement by Loongson reads.</p><p>Loongson&apos;s quad-core 3A6000 processor has a 2.50 GHz clock rate. The chip hit 43.1/54.6 points in the SPECint_base2006/SPECfp_base2006 benchmarks, as well as 155/140 in SPECint_rate_base2006 (8 copies)/SPECfp_rate_base2006 (8 copies), at least according to the tests conducted by Saixi Laboratory of the China Institute of Electronic Technology Standardization. <br><br>However, SPEC discontinued its SPEC 2006 CPU benchmark in <a href="https://www.spec.org/cpu2006/results/res2018q2/">2018</a>, making it impossible to compare Loonson&apos;s performance numbers to independently obtained results approved by SPEC. Meanwhile, the new 3A6000 is noticeably faster than its predecessor, based on <a href="https://www.tomshardware.com/news/loongson-next-generation-cpu-core-to-match-amd-zen-3-performance">previously published test results of the quad-core 3A5000 at 2.50 GHz</a>.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/3NahnmvhgBJCenGXv2AGYc.png" alt="Loongson" /><figcaption><small role="credit">Loongson</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/5CV2mAayaTKgFAmBKEoDTc.png" alt="Loongson" /><figcaption><small role="credit">Loongson</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/dUdDVd28gRoWc8esQ5QYLc.png" alt="Loongson" /><figcaption><small role="credit">Loongson</small></figcaption></figure></figure><p>The same institute also tested the CPU in UnixBench v5.1.3 and got a 2284.5 single-thread score and 7438.4 eight-thread score. If Intel Core i7-10750H&apos;s UnixBench performance numbers published in a <a href="https://www.reddit.com/r/archlinux/comments/rfopg9/unixbench_results_evaluation/">Reddit</a> post are to be believed (1713 single-thread, 8248 12-thread), then the 3A6000 indeed outpaces Intel&apos;s six-core Comet Lake at 2.60 GHz when it comes to single-thread workloads at around the same clock, but falls behind a six-core CPU with SMT enabled. It&apos;s noteworthy that Intel&apos;s Comet Lake uses Skylake cores from 2015.</p><p>According to Loongson, its 3A6000-series processors employ a brand-new 6-way multiple-issue Dragon microarchitecture that is significantly more efficient than its predecessor. Meanwhile, the company has so far published the results of its 3A6000 CPU at 2.50 GHz and has not disclosed the final clocks of the actual processors that are due to ship several months from now.</p><p>To that end, it is too early to draw any conclusions about the performance of Loongson&apos;s upcoming processors. On the one hand, it looks like the 3A6000 is faster than the 3A5000 at the same clock in the discontinued SPEC CPU 2006 benchmark, but that&apos;s based on results published by the company itself. The chip also seems to be faster than its predecessor and Intel&apos;s Skylake in UnixBench at 2.50 – 2.60 GHz. </p><p>Since there are no independently obtained benchmark results of the 3A6000, we cannot really say whether or not Loongson has succeeded in developing a microarchitecture that matches AMD&apos;s Zen 3 in terms of IPC performance or not.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Russian CPU Tested Against Intel and Huawei Processors, Fails to Impress ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/russian-cpu-benchmarked-against-intel-huawei-chips</link>
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                            <![CDATA[ Russian manufacturer Baikal Electronics compares the Baikal-S server processor to the Huawei Kunpeng 920 and Intel Xeon Gold 6230. ]]>
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                                                                        <pubDate>Sat, 29 Jul 2023 20:32:01 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:54:56 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Baikal]]></media:description>                                                            <media:text><![CDATA[Baikal]]></media:text>
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                                <p>Russian processor developer Baikal Electronics wants to show the world that its chips can compete with Intel, which makes some of the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPUs</a> on the market, and Huawei. In a series of benchmarks, the company conducted and shared with Russian news outlet <a href="https://www.cnews.ru/news/top/2023-07-28_rossijskie_bajkaly_dali">Cnews</a>, the fabless semiconductor put its Baikal-S server processor up against Intel&apos;s Xeon Gold 6230 and Huawei&apos;s Kunpeng 920, and the Russian chip&apos;s performance wasn&apos;t that good, but wasn&apos;t awful either. The chip was way behind Huawei&apos;s processor but beat Intel&apos;s outdated offering in some tests.</p><p>The Baikal-S features 48 Arm Cortex-A75 cores on a 16nm process node with a 2 GHz base clock and 2.5 GHz boost clock. The Kunpeng 920, specifically the 920-4826 model number, wields 48 TaiShan v110 cores with a 2.6 GHz clock speed. Baikal&apos;s processor is on an older process node than the Kunpeng 920&apos;s newer 7nm TSMC HPC manufacturing process.</p><p>Having launched in 2019, Intel&apos;s Xeon Gold 6230 CPU is a bit outdated and not necessarily a fair competitor to choose for the Baikal-S. It sports just 20 cores (40 threads) and base and boost clock speeds up to 2.1 GHz and 3.9 GHz, respectively. It&apos;s an upgrade over Baikal Electronics&apos; <a href="https://www.tomshardware.com/news/russian-baikal-48-core-cpu-die-shots-benchmarks-emerge">previous comparison</a>, which used an older 20-core Xeon Gold 6148 (Skylake) for the confrontation.</p><p>If Baikal wanted a fairer comparison with Intel&apos;s server chips, the company would have benchmarked one of <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">Intel&apos;s Xeon Platinum products</a>, many of which have 48 or more cores.</p><p>For some strange reason, the Russian vendor omitted an AMD chip from its latest comparison. It&apos;s a surprising move since Baikal Electronics had enthusiastically claimed that the Baikal-S was comparable to the 16-core EPYC 7351 from the Zen 1 period.</p><div ><table><thead><tr><th class="firstcol " >Processor</th><th  >Cores / Threads</th><th  >Base / Boost Clock (GHz)</th><th  >L3 Cache (MB)</th><th  >TDP (W)</th><th  >Microarchitecture</th><th  >Lithography</th></tr></thead><tbody><tr><td class="firstcol " >Baikal-S</td><td  >48 / 48</td><td  >2.0 / 2.5</td><td  >24</td><td  >120</td><td  >Arm Cortex-A75</td><td  >16nm</td></tr><tr><td class="firstcol " >Kunpeng 920</td><td  >48 / 48</td><td  >2.6 / N/A</td><td  >48</td><td  >158</td><td  >TaiShan v110</td><td  >7nm</td></tr><tr><td class="firstcol " >Xeon Gold 6230</td><td  >20 / 40</td><td  >2.1 / 3.9</td><td  >27.5</td><td  >125</td><td  >Cascade Lake</td><td  >14nm</td></tr></tbody></table></div><p>Unfortunately, Baikal didn&apos;t disclose the test systems&apos; specifications or the testing environment&apos;s conditions in sharing its benchmarks. So take these results with a giant grain of salt.</p><p>Although there were only three processors to test, Baikal Electronics didn&apos;t run all the benchmarks on each. Whether or not the company was trying to cherry-pick results to help the Baikal-S stand out is uncertain. For us, the challenging part in evaluating these was combing through all the results and finding the most relevant metrics for comparison since some data from specific benchmarks were missing.</p><div ><table><thead><tr><th class="firstcol " >Processor</th><th  >CoreMark (Single-Thread)</th><th  >CoreMark (Multi-Thread)</th><th  >Stream (Single-Thread)</th><th  >Stream (Multi-Thread)</th></tr></thead><tbody><tr><td class="firstcol " >Kunpeng 920</td><td  >18,398</td><td  >945,564</td><td  >N/A</td><td  >110 GB/s</td></tr><tr><td class="firstcol " >Baikal-S</td><td  >16,302</td><td  >769,354</td><td  >19 GB/s</td><td  >83 GB/s</td></tr><tr><td class="firstcol " >Xeon Gold 6230</td><td  >N/A</td><td  >539,036</td><td  >N/A</td><td  >62 GB/s</td></tr></tbody></table></div><p>Admittedly, CoreMark is far from being a comprehensive benchmark for evaluating processors. Nonetheless, the Kunpeng 920 was up to 13% faster than the Baikal-S in the CoreMark single-threaded test. The Kunpeng 920 also beat the Baikal-S by 23% on the multi-threaded test. Meanwhile, the Baikal-S outperformed the Xeon Gold 6230 by 43% in the same benchmark.</p><p>The Stream benchmark helps measure sustainable memory bandwidth. While we know the number of memory channels supported per processor, we don&apos;t know the speed or capacity of the DIMMs that Baikal Electronics used for its tests. According to the results, the Baikal-S delivered 34% higher bandwidth than the Xeon Gold 6230 in the Stream benchmark. However, the Russian chip was overshadowed by the Kunpeng 920, which put up a 33% higher score.</p><p><br></p><div ><table><thead><tr><th class="firstcol " >Processor</th><th  >Linpack (Single-Threaded)</th><th  >Linpack (Multi-Threaded)</th></tr></thead><tbody><tr><td class="firstcol " >Kunpeng 920</td><td  >N/A</td><td  >327 GFLOPS</td></tr><tr><td class="firstcol " >Baikal-S</td><td  >8.5 GFLOPS</td><td  >353.3 GFLOPS</td></tr><tr><td class="firstcol " >Xeon Gold 6230</td><td  >N/A</td><td  >849 GFLOPS</td></tr></tbody></table></div><p>The Linpack benchmark is something that many will be familiar with since it&apos;s the default test for ranking the TOP500 list of supercomputers. In Baikal Electronics&apos; case, the vendor used version 2.3 of Linpack.</p><p>The Xeon Gold 6230 was the best-performing chip in Linpack, annihilating the Baikal-S and Kunpeng 920 by 140% and 160%, respectively. The Baikal-S scored a small victory over the Kunpeng 920, beating the Chinese chip by 8%.</p><p>Baikal Electronics also shared some SPEC CPU 2017 benchmark results for the Baikal-S running at 2 GHz and 2.5 GHz. The company didn&apos;t compare Baikal-S to the Xeon Gold 6230 or the Kunpeng 920.</p><div ><table><thead><tr><th class="firstcol " >Processor</th><th  >7-Zip Compression</th><th  >7-Zip Decompression</th><th  >Geekbench 5 (Single-Threaded)</th><th  >Geekbench 5 (Multi-Threaded)</th></tr></thead><tbody><tr><td class="firstcol " >Kunpeng 920</td><td  >150,105</td><td  >239,042</td><td  >N/A</td><td  >N/A</td></tr><tr><td class="firstcol " >Baikal-S</td><td  >86,953</td><td  >134,271</td><td  >498</td><td  >16,511</td></tr><tr><td class="firstcol " >Xeon Gold 6230</td><td  >N/A</td><td  >80.508</td><td  >1,058</td><td  >9,165</td></tr></tbody></table></div><p>Regarding 7-Zip compression workloads, the Kunpeng 920 was 73% faster than the Baikal-S. The company didn&apos;t benchmark the Xeon Gold 6230&apos;s performance in this metric. On the other hand, the Baikal-S defeated the Xeon Gold 6230 by a 67% margin in the 7-Zip decompression workloads. However, the Baikal-S was no match for the Kunpeng 920, which posted a whopping 78% difference over the Russian processor.</p><p>Geekbench 5 is a benchmark that a lot of us can relate to. Although it&apos;s not the best test for comparing processors, it&apos;s a more mainstream benchmark. Baikal Electronics didn&apos;t benchmark the Kunpeng 920. As expected, the Xeon Gold 6230 delivered 112% higher single-core performance than the Baikal-S. However, the Russian chip achieved an 80% higher multi-core score than the Xeon Gold 6230, which is unsurprising considering that Intel&apos;s processor has less than half as many cores.</p><p>Baikal Electronics products are far from competing with Intel, AMD, or even Huawei, and the company&apos;s results back it up. However, given the multi-socket support, the company is optimistic that the Baikal-S can get on par. A two-socket configuration is reportedly ready, while the company&apos;s working on a quad-socket design.</p><p>According to representatives, the company has already commenced its work on the Baikal-S2, a next-generation 6nm chip with 28 Arm Neoverse-N2 cores ticking at 3 GHz and supporting up to eight channels of DDR5 memory. Baikal Electronics expects to release the Baikal-S2 between the second to third quarter of 2025, allegedly offering performance uplifts up to 6X that of the Baikal-S.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ AVX-512 Works Surprisingly Well on Ryzen 7040 Series Phoenix CPUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/avx-512-performance-impresses-on-ryzen-7040</link>
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                            <![CDATA[ AVX-512 was tested on AMD's latest Zen 4 laptop CPUs, and found to be dominant compared to Intel's latest AVX-512 supported mobile platforms. ]]>
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                                                                        <pubDate>Fri, 14 Jul 2023 17:39:11 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:44:29 +0000</updated>
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                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p>Phoronix recently <a href="https://www.phoronix.com/review/amd-ryzen7040-avx512">benchmarked</a> AMD&apos;s most sophisticated Ryzen mobile architecture, the 7040 mobile series, in AVX-512 workloads to see how performant it is compared to Intel&apos;s last two generations of AVX-512-supported CPUs in the mobile space. Turns out, AMD&apos;s <a href="https://www.tomshardware.com/news/amd-ryzen-7040u-phoenix-xdna-specs">Phoenix</a> series CPUs are incredibly effective AVX-512 chips, easily beating out the competition in power efficiency and performance.</p><p>The CPUs Phoronix tested included a Ryzen 7 7840U, as well as Intel&apos;s older i7-1165G7, and i7-1065G7 — which were the last mobile CPUs to support AVX-512. The AMD chip blew past the older Intel CPUs outperforming the 1165G7 by 46% and outperformed the older 1065G7 by a whopping 63%. The Ryzen 7 chip also saw the highest performance gain when enabling AVX-512, with a 54% performance margin when enabling or disabling AVX-512. The Intel chips weren&apos;t even close, with a performance margin of 35%.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:931px;"><p class="vanilla-image-block" style="padding-top:82.60%;"><img id="vcsAuNAbzaHrGrr8XYgfrg" name="Screenshot 2023-07-14 at 12-20-32 AMD Ryzen 7040 Series Shows Great AVX-512 Performance For Laptops _ Mobile _ Edge.png" alt="Phoronix AVX-512 Comparison" src="https://cdn.mos.cms.futurecdn.net/vcsAuNAbzaHrGrr8XYgfrg.png" mos="" align="middle" fullscreen="" width="931" height="769" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Phoronix)</span></figcaption></figure><p>AMD&apos;s performance gains with AVX-512 are impressive, especially given that Zen 4 — the CPU architecture the 7840U utilizes — is the very first architecture from team red to adopt the new instruction set. Intel, conversely, has had years of experience developing AVX-512-capable architectures but has failed to pull off the same performance margins as AMD. Intel also had to deal with other architectural oddities found in Rocket Lake and Alder Lake regarding AVX-512 performance and capability, that AMD&apos;s Zen 4 architecture does not have.</p><p>AVX-512 is a relatively new instruction set that was first developed by Intel in the mid-2010s. The instruction set offers more efficient data processing compared to other AVX standards and is capable of boosting highly complex computation workloads, such as scientific simulation, 3D modeling, analytics, data compression, deep learning, and more.</p><p>The instruction set was first seen in desktop consumer chips in 2017, starting with Intel&apos;s Skylake-X CPU lineup of HEDT processors. Since then, the instruction set has made its way to desktop and mobile consumer chips, including Rocket Lake, Tiger Lake, and Ice Lake.</p><p>But, unexpectedly, Intel dropped AVX-512 support altogether when Alder Lake launched, even though the architecture featured improved AVX-512 capabilities over Rocket Lake. The problem was that Intel couldn&apos;t get AVX-512 to work in conjunction with its E-cores, which did not support AVX-512 at all. Though oddly, AVX-512 was actually functional on the P cores <a href="https://www.tomshardware.com/news/intel-nukes-alder-lake-avx-512-now-fuses-it-off-in-silicon">for a little while</a>, as long as you disabled the E-cores from the BIOS.</p><p>The ironic part is that AMD was busy integrating AVX-512 into its Zen 4 CPU architecture when Alder Lake dropped, making 2022 one of the worst years to drop AVX-512 support on the consumer side for Intel.</p><p>So, not only do AMD&apos;s Zen 4 mobile CPUs feature AVX-512 support, but they are also the only players in the space until Intel decides to reintroduce it in its consumer mobile chips in the future. This will give AMD-powered notebooks a huge performance advantage for users that can take advantage of AVX-512&apos;s faster processing capabilities.</p>
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                                                            <title><![CDATA[ Intel E-Core-Only N100 Gaming Benchmarks Emerge ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/alder-lake-n-surprisingly-efficient-gaming</link>
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                            <![CDATA[ Intel's rather new N100 Alder Lake-N SoC was tested in a series of gaming benchmarks and found to offer surprisingly good performance per watt — even if the performance isn't anything spectacular. ]]>
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                                                                        <pubDate>Thu, 13 Jul 2023 19:05:27 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:04:08 +0000</updated>
                                                                                                                                            <category><![CDATA[GPUs]]></category>
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                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p>Gaming benchmarks of Intel&apos;s new Alder-Lake-N SoCs have been scarce, as these chips only come with E-cores and single-channel memory support. We wouldn&apos;t expect most people to even consider it for gaming purposes, but that didn&apos;t stop <a href="https://www.youtube.com/watch?v=RqmfZz04Se8">Team Pandory on YouTube</a> from running some tests on the N100. Performance wasn&apos;t great, though the power efficiency was surprisingly good, with some (very light) games hitting 60 frames per second with less than 7W of power consumption.<br><br><a href="https://www.tomshardware.com/news/alder-lake-n-takes-shape-gracemont-xe-lp">Alder Lake-N</a> was announced early in 2022 as Intel&apos;s latest edition of ultra-low power and ultra-low-cost SoCs. The special sauce for these chips special is that they are based entirely on Intel&apos;s modern Gracemount CPU cores, which are used as efficiency cores in the company&apos;s <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a> and <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a> hybrid CPUs. Intel&apos;s Gracemount cores are surprisingly powerful for their intended role, featuring L3 cache support, enhanced branch prediction, and more, which Intel claims makes these cores just as powerful as the 6th generation Skylake CPU cores from 2015.<br><br>The integrated graphics chip inside these Alder Lake-N chips is reasonably decent, feature 24 Execution Units (EUs) and offering up to a theoretical 8K 60 fps playback support with AV1 decode capabilities via <a href="https://www.tomshardware.com/features/intel-xe-dg1-benchmarked">Intel&apos;s Xe-LP architecture</a>. The iGPU is still limited to 4K 60 fps output for the display resolution, however. Note also that Xe-LP is <em>not</em> the same as <a href="https://www.tomshardware.com/news/intel-arc-alchemist-release-date-specs-pricing-all-we-know">Arc Alchemist</a>, which does feature AV1 encoding support and about double the performance. Still, it might be serviceable for some light gaming.<br><br>Team Pandory shows how Intel&apos;s little Alder Lake-N chips — specifically the N100 — handle various games at minimum settings and a 1280x720 (720p) resolution. The little quad-core CPU, with 6MB of L3 cache and a 3.4 GHz turbo, was able to hit 60 fps in a few titles, but overall most of the titles ran at a paltry 30 to 20 fps on average.</p><div class="youtube-video" data-nosnippet ><div class="video-aspect-box"><iframe data-lazy-priority="high" data-lazy-src="https://www.youtube-nocookie.com/embed/RqmfZz04Se8" allowfullscreen></iframe></div></div><p>The YouTuber tested 10 games in all, including <em>Genshin Impact</em>, <em>Dota 2</em>, <em>Grid Autosport</em>, <em>GTA V</em>, <em>Minecraft</em>, <em>Resident Evil 5</em>, <em>Skyrim</em>, <em>Sleeping Dogs</em>, <em>CS:GO</em>, and <em>Forza Horizon 4. </em>In<em> </em>three of those titles, specifically <em>CS:GO</em>, <em>Grid Autosport</em>, and <em>Resident Evil 5</em>, the N100 achieved 60 fps, and in the case of <em>Resident Evil 5, it</em> ran in the mid-70s in most areas. <em>Dota 2</em> also managed an acceptable 40 fps. Sadly, the rest of the group ran at 30 fps or less, with some games dipping into the low 20 fps range. The latter are effectively unplayable on the N100.<br><br>The N100&apos;s includes four Gracemount cores clocked at up to 3.4 GHz turbo, with 6MB of L3 cache and a 6W TDP that is non-configurable. Memory maxes out at 16GB of capacity, and the testing used a single 8GB stick of DDR5 memory. (These chips only have a single memory channel, so this config doesn&apos;t restrict GPU performance.) The UHD Graphics feature the Xe-LP architecture with 24 EUs and a maximum frequency of 750 MHz — compare that to faster desktop parts like the UHD Graphics 770 in Intel&apos;s Core i9-12900K that have 32 EUs and can run at 1550 MHz.<br><br>Even though Intel&apos;s little N100 didn&apos;t achieve superb gaming performance, the performance per watt is pretty impressive coming from an entry-level design. The N100 is rated at just 6W of power consumption for the whole chip, making the chip&apos;s performance per watt exceptionally good. That&apos;s all relative, of course, as most gaming laptops would feature significantly more graphics horsepower.<br><br>The N100&apos;s performance-per-watt gaming advantage obviously isn&apos;t going to be a feature that drives sales, as the performance isn&apos;t anywhere near playable for most gamers. But Alder Lake-N was never designed as a gaming platform in the first place, instead going after lower-level tasks like web browsing, video playback, and basic office work.<br><br>But it is interesting to see what Intel&apos;s most-power efficient SoC platform is capable of. If it wanted to, Intel could potentially put together a handheld gaming SoC competitor to rival the best handheld gaming SoCs from AMD, including the <a href="https://www.tomshardware.com/news/amds-ryzen-7040u-and-z1-chips-for-handhelds-are-nearly-identical">Ryzen Z1 series</a> and the <a href="https://www.tomshardware.com/reviews/steam-deck-valve-gaming-handheld">Steam Deck&apos;s</a> custom Van Gogh APU. Will that ever happen? Never say never... but it&apos;s not likely to occur any time soon.</p>
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                                                            <title><![CDATA[ Intel Pulls the Plug On Cascade Lake HEDT, Workstation CPUs (Update) ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-pulls-the-plug-on-cascade-lake-hedt-workstation-cpus</link>
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                            <![CDATA[ Intel announced the discontinuation of Cascade Lake-X and Cascade Lake-W processors and the accompanying X299 and C422 chipsets. ]]>
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                                                                        <pubDate>Thu, 06 Jul 2023 17:05:35 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:11:02 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
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                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                <p><em><strong>Update 7/7/2023 5:40am PT</strong></em>: <em>Intel&apos;s mainstream Cascade Lake Xeon processors are still available and are unimpacted by the change. We&apos;ve clarified the article below to make that more clear.</em></p><p>Even though its mainstream Xeon line remains intact and available, Intel has already discontinued some of its more exotic <a href="https://www.tomshardware.com/news/intel-discontinues-cascade-lake-xeon-m-slashes-l-model-pricing">Cascade Lake Xeon</a> processors due to tough competition from AMD&apos;s <a href="https://www.tomshardware.com/news/amd-epyc-rome-7000-series-data-center-processor-zen-2-7nm,40108.html">EPYC Rome</a> lineup, but many of the Cascade Lake SKUs for desktop PCs and workstations had survived the cut. After three long years, Intel has decided to axe some of the remaining PC and workstation survivors.</p><p>Intel launched Cascade Lake in 2019 to replace Skylake. Cascade Lake was an optimized version of Skylake, representing the optimization phase in Intel&apos;s process–architecture–optimization development model. The 14nm processors were available in different presentations, including Cascade Lake-X for the HEDT, Cascade Lake-W for workstations, and Cascade Lake-SP and Cascade Lake-AP for servers. In a new Product Change Notification (PCN), Intel <a href="https://qdms.intel.com/dm/i.aspx/DA7DC412-3558-4C51-AC0C-63416576B2D5/PCN119604-00.pdf" target="_blank">has discontinued</a> the company&apos;s Cascade Lake-X and Cascade Lake-W lineup. The termination applies to both tray and boxed processors.</p><p>Cascade Lake-X, which belongs to the Core X-series category, was a minimal lineup with just four Core i9-tier SKUs: <a href="https://www.tomshardware.com/reviews/intel-core-i9-10980xe">Core i9-10980XE Extreme Edition</a>, Core i9-10940X, Core i9-10920X, and Core i9-10900X. Intel had abandoned the HEDT segment for a while now. Cascade Lake-X was the last wave of HEDT processors from the Blue Team. Before the <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">Sapphire Rapids</a> launch, rumors were circulating that Intel could get back into the HEDT game with Sapphire Rapids-X; however, we haven&apos;t seen any concrete evidence to back up the hearsay.</p><p>Meanwhile, Cascade Lake-W, which Intel marketed under the <a href="https://www.tomshardware.com/news/intel-cascade-lake-xeon-w-2200-pricing-availability-specifications,40564.html">Xeon W-2200</a> series, offered more diverse options with models stretching from the quad-core Xeon W-2225 to the 18-core Xeon W-2295. It&apos;s important to make this distinction because Intel later introduced the W-3200 series, that&apos;s also based on Cascade Lake. However, the chipmaker is only discontinuing the W-2200 series for now. At any rate, the Xeon W-2200 and Xeon W-3200 series have been succeeded by the more up-to-date Sapphire Rapids <a href="https://www.tomshardware.com/news/intel-xeon-w-3400-w-2400-cpu-launch-hedt-overclock">Xeon W-2400 and Xeon W-3400</a> series.</p><p>Although Intel has announced the Cascade Lake-X and Cascade Lake-W discontinuation, customers still have a substantial grace period to order the 14nm chips. Intel has set the last product discontinuance order date for April 26, 2024, and the company will ship the Cascade Lake-X and Cascade Lake-W orders before January 31, 2025.</p><p>Logically, the discontinuance of the processors also brings with it the termination of the chipsets that support these processors. <a href="https://qdms.intel.com/dm/i.aspx/7B19AF17-82DF-4210-86E7-E0CC40979414/PCN119607-00.pdf" target="_blank">Intel revealed</a> it&apos;d be retiring the X299 and C422 chipsets via a separate PCN. These chipsets existed long before Intel launched Cascade Lake. The X299 and C422 chipset debuted in 2017 with the LGA2066 socket during the old Skylake period. The chipsets supported up to three generations of Intel processors, including Skylake, Kaby Lake, and ultimately Cascade Lake.</p><p>Cascade Lake is a relic from the past for Intel and most consumers. The chipmaker is slowly halting the production of older products and redirecting the resources to focus on recent offerings, such as Sapphire Rapids.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Apple's M2 Ultra Seemingly Can't Beat AMD and Intel Rivals ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/apple-m2-ultra-geekbenched</link>
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                            <![CDATA[ Apple's M2 Ultra cannot beat Intel's Core i9-13900K, thrashed by AMD's Threadripper Pro and Intel's Xeon W9. ]]>
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                                                                        <pubDate>Fri, 09 Jun 2023 22:14:16 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:53:33 +0000</updated>
                                                                                                                                            <category><![CDATA[Big Tech]]></category>
                                                    <category><![CDATA[Tech Industry]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                        <media:description><![CDATA[Apple M2 Ultra in a Mac Pro]]></media:description>                                                            <media:text><![CDATA[Apple M2 Ultra in Macbook Pro]]></media:text>
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                                <p><a href="https://www.tomshardware.com/news/m2-ultra-mac-studio-specs-price-release-date">Apple&apos;s M2 Ultra</a> is a mighty processor with 24 general-purpose cores and up to 76 integrated GPU cores. It is also probably faster than Intel&apos;s 28-core Xeon W found in the 2019 Mac Pro, so new <a href="https://www.tomshardware.com/news/mac-pro-finally-here-gets-m2-ultra">Mac Pro workstation owners will</a> feel a significant performance uplift. But according to a purported benchmark, this CPU cannot beat competitors from AMD and Intel in <a href="https://browser.geekbench.com/v5/cpu/21305974">Geekbench 5</a> (via <a href="https://twitter.com/VadimYuryev/status/1667198875017568256">@VadimYuryev</a>) as they boast very high clocks or feature a formidable core count.</p><p>Heavy-duty workstation-grade processors are different from desktop and server CPUs in that they should deliver both very responsive performance (like all client processors) and consistently high performance under heavy workloads. This means that they must feature high instruction-per-clock performance, high clocks, high core count, support for loads of memory, and feature loads of PCIe lanes. AMD&apos;s Ryzen Threadripper Pro W5995X and Intel&apos;s Xeon W9-3495X comply with these requirements with their 64 and 56 cores, respectively. In a nutshell, they use server silicon configured to offer extremely high clocks when needed. </p><p>When it comes to Apple&apos;s M2 Ultra, it consists of two M2 Max system-on-chips that were designed primarily for MacBook Pro and Mac Studio machines. Those workstations have moderate power consumption and do not support expandability. M2 Max was not exactly architected for high clocks or for expandability, as you can only install so much memory and so much storage in a compact PC. Instead of boosting clocks to extremes when a computationally heavy workload emerges, M2 uses built-in special-purpose accelerators. It was also not designed for an extreme core count because of power and cooling limitations. While two M2 Maxes look formidable on paper, they cannot boast clocks of Intel&apos;s Core i9-13900K or the core count of AMD&apos;s Ryzen Threadripper Pro W5995WX. </p><div ><table><thead><tr><th class="firstcol empty" ></th><th  >M2 Ultra</th><th  >Xeon W9-3495X</th><th  >Ryzen Threadripper Pro 5995WX</th><th  >Core i9-13900K</th></tr></thead><tbody><tr><td class="firstcol " >General specifications</td><td  >24C/24T, up to 3.68 GHz</td><td  >56C/112T, 1.90 GHz - 4.60 GHz, 105MB L3</td><td  >64C/128T, 2.70 GHz - 4.50 GHz, 256MB L3</td><td  >8P+16E/32T, 3.0 GHz - 5.80 GHz, 68MB L2+L3 cache</td></tr><tr><td class="firstcol " >Single-Core | Integer</td><td  >1793</td><td  >1522</td><td  >1316</td><td  >2016</td></tr><tr><td class="firstcol " >Single-Core | Float</td><td  >2149</td><td  >1815</td><td  >1719</td><td  >2464</td></tr><tr><td class="firstcol " >Single-Core | Crypto</td><td  >2912</td><td  >3926</td><td  >3832</td><td  >5860</td></tr><tr><td class="firstcol " >Single-Core | Score</td><td  >1956</td><td  >1730</td><td  >1563</td><td  >2343</td></tr><tr><td class="firstcol empty" ></td><td  ></td><td  ></td><td  ></td><td  ></td></tr><tr><td class="firstcol " >Multi-Core | Integer</td><td  >24532</td><td  >59183</td><td  >46049</td><td  >28379</td></tr><tr><td class="firstcol " >Multi-Core | Float</td><td  >32195</td><td  >55393</td><td  >49414</td><td  >31320</td></tr><tr><td class="firstcol " >Multi-Core | Crypto</td><td  >46817</td><td  >36466</td><td  >44987</td><td  >22280</td></tr><tr><td class="firstcol " >Multi-Core | Score</td><td  >27945</td><td  >56910</td><td  >47005</td><td  >28956</td></tr><tr><td class="firstcol " >Link</td><td  >https://browser.geekbench.com/v5/cpu/21305974</td><td  >https://browser.geekbench.com/v5/cpu/211458582</td><td  >https://browser.geekbench.com/v5/cpu/19923348</td><td  >https://browser.geekbench.com/v5/cpu/20655426</td></tr></tbody></table></div><p>This is why the benchmark result shows Apple&apos;s M2 Ultra cannot beat Intel&apos;s Core i9-13900K in single-thread workloads and even fall behind in multi-core workloads in Geekbench 5. Intel&apos;s desktop offering supports simultaneous multi-threading and can process up to 32 threads instantly. Compared to its actual rivals — AMD&apos;s Ryzen Threadripper Pro W5995X and Intel&apos;s Xeon W9-3495X — it easily beats them in single-thread workloads but is dramatically slower when more cores are needed.</p><p>Some may argue that Geekbench 5 is a synthetic benchmark that does not reflect performance in real-world applications, which is a fair argument. But it gives a sense of what to expect from CPUs regarding their compute capabilities without any special-purpose accelerators. And this brings us to the fact that Apple&apos;s M2 SoCs have plenty of accelerators inside. Therefore, it may not need to have high clocks or extreme core count to offer great performance in many workstation-grade workloads. </p><p>Then again, with so much compute horsepower under the hood, AMD&apos;s and Intel&apos;s workstation processors are designed to handle even the most demanding workloads. That said, it remains to be seen whether Apple&apos;s Mac Pro can actually beat workstations based on AMD&apos;s and Intel&apos;s CPUs in workstation applications.</p><iframe src="https://content.jwplatform.com/players/4Z0km6XF.html" id="4Z0km6XF" title="Buy the Right Motherboard" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel's Meteor Lake CPUs for Desktops Incoming, but There's a Catch ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-meteor-lake-cpus-for-desktops-incoming</link>
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                            <![CDATA[ Intel's Meteor Lake-S for desktops will reportedly only exist in up to Core i5 models. That's what the latest information reveals. ]]>
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                                                                        <pubDate>Tue, 25 Apr 2023 15:43:36 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:55:41 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Intel Meteor Lake]]></media:description>                                                            <media:text><![CDATA[Intel Meteor Lake]]></media:text>
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                                <p>Intel is on track to release its codenamed <a href="https://www.tomshardware.com/news/intel-meteor-lake-platform-detailed">Meteor Lake</a>-S processors for desktops in the coming quarters, but there&apos;s a catch. The company will only address entry-level and mainstream systems with these CPUs, whereas performance-demanding PCs will have to use <a href="https://www.tomshardware.com/news/intel-roadmap-leaks-raptor-lake-refresh-hedt-replacement-in-2023">Raptor Lake Refresh</a> or <a href="https://www.tomshardware.com/news/intel-driver-lists-upcoming-discrete-gpus-cpus-through-2025">Arrow Lake</a>-S processors.<br><br>It looks as though Intel&apos;s Meteor Lake-S processors will only exist in Core i3 and Core i5 models rated for 35W and 65W, which is good enough for compact and standard entry-level and mid-range desktops. This information is based on an excerpt from a slide from an alleged Intel presentation published by <a href="https://twitter.com/SquashBionic/status/1650747143416860674">@SquashBionic</a>, a renowned hardware leaker with frequent access to confidential information.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1028px;"><p class="vanilla-image-block" style="padding-top:31.91%;"><img id="" name="intc-mtl-s-arl-s.png" alt="Intel" src="https://cdn.mos.cms.futurecdn.net/kQmbq4VhuXMC36ctDLiLpS.png" mos="" align="middle" fullscreen="1" width="1028" height="328" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/kQmbq4VhuXMC36ctDLiLpS.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: @SquashBionic/Twitter)</span></figcaption></figure><p>Meteor Lake-S will share Intel&apos;s Socket V1 (for LGA1851 CPUs) and Intel&apos;s 800-series chipset platform with Intel&apos;s <a href="https://www.tomshardware.com/news/intel-driver-lists-upcoming-discrete-gpus-cpus-through-2025">Arrow Lake</a>-S processors. Meanwhile, motherboards aimed at Arrow Lake-S, which will exist in Core i7 and Core i9 variants for gamers and enthusiasts, will feature considerably more advanced voltage regulating modules to offer maximum performance. You can expect it will be priced accordingly.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:970px;"><p class="vanilla-image-block" style="padding-top:55.57%;"><img id="" name="meteor-roadmap.jpg" alt="Intel 4, Meteor Lake" src="https://cdn.mos.cms.futurecdn.net/3ZDLL8VTBMF7CFg7aVSPz4.jpg" mos="" align="middle" fullscreen="1" width="970" height="539" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/3ZDLL8VTBMF7CFg7aVSPz4.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Intel&apos;s Meteor Lake and Arrow Lake processors are set to be the company&apos;s initial processors for client applications that rely on disaggregated multi-tile designs. The compute tile for Meteor Lake will be produced on the Intel 4 node that extensively uses extreme ultraviolet (EUV) lithography, while Arrow Lake&apos;s compute tile will be made using the company&apos;s 2nm-class fabrication process called Intel 20A. Both CPUs will also feature a graphics tile produced by TSMC on its N3E manufacturing technology.<br><br>Intel&apos;s 20A node is unique as it will incorporate the company&apos;s RibbonFET gate-all-around transistors with PowerVia backside power delivery. The RibbonFET and PowerVia technologies promise to offer significant benefits for high-performance client and datacenter CPUs, which explains why Intel wants to use 20A sooner rather than later, given the intense competition against AMD. Meanwhile, it&apos;s unclear why Intel does not want to introduce an Intel 4-based part for higher-end desktops.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:2000px;"><p class="vanilla-image-block" style="padding-top:56.25%;"><img id="" name="intel-nodes-characteristics.jpg" alt="Intel" src="https://cdn.mos.cms.futurecdn.net/3v9hgrF5m3CiqydxdDjaN5.jpg" mos="" align="middle" fullscreen="1" width="2000" height="1125" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/3v9hgrF5m3CiqydxdDjaN5.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>While it is somewhat surprising that Intel does not want to address performance demanding PCs with its first client processors featuring a multi-tile design, this isn&apos;t particularly unusual. Intel never offered its 5th Generation Core &apos;Broadwell-C&apos; processors for the mass desktop market. In fact, the company only released two of such CPUs in socketed LGA1150 form-factor — <a href="https://www.tomshardware.com/reviews/intel-core-i7-5775c-i5-5675c-broadwell,4169.html">Core i5-5675C and Core i7-5775C</a>. Those were quickly superseded by the Skylake <a href="https://www.tomshardware.com/reviews/skylake-intel-core-i7-6700k-core-i5-6600k,4252.html">Core i7-6700K</a> launch just a few months later.<br><br>As always with leaks of this nature, bear in mind that the information comes from an unofficial source and not directly from Intel. Plans are also subject to change, so what Intel intends to do now may not be the same what the company actually does in 2024, when Meteor Lake-S for desktops are set to enter the scene.</p><iframe src="https://content.jwplatform.com/players/XDf5PcNM.html" id="XDf5PcNM" title="How To Choose A Graphics Card" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Skylake iGPUs Reach End of Life Status ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-skylake-igpu-eol-driver-updates</link>
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                            <![CDATA[ Intel has moved the Skylake iGPU to EOL status. 10th Gen Core and older processor iGPUs were already on legacy support. ]]>
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                                                                        <pubDate>Mon, 10 Apr 2023 15:11:35 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:53:02 +0000</updated>
                                                                                                                                            <category><![CDATA[GPU Drivers]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                    <category><![CDATA[GPUs]]></category>
                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
&lt;br&gt;
Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
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When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Intel Skylake CPUs]]></media:description>                                                            <media:text><![CDATA[Intel Skylake CPUs]]></media:text>
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                                <p>Intel’s Skylake integrated graphics has reached end-of-life (EOL) status, according to <a href="https://www.intel.com/content/www/us/en/download/762755/intel-6th-10th-gen-processor-graphics-windows.html">official Intel</a> documentation spotted today by <a href="https://www.techpowerup.com/307031/intel-formally-retires-the-gen-9-graphics-architecture-powering-skylake-igpu"><em>TechPowerUp</em></a>. Many recognize Skylake as the 6th generation of Core processors, but the family launched with 9th generation iGPUs that will no longer benefit from driver updates, even if a critical issue comes to light.</p><p>However, the EOL of Skylake graphics isn’t that surprising. For users of these systems, it will likely mean very little in practice unless a gaping security vulnerability is found in the old drivers. Users of discrete graphics cards will be less worried by this EOL news, as they can disable the iGPU in BIOS, avoiding the Intel graphics driver software.</p><p>Introduced in 2015, Intel’s Skylake CPUs started to feel decidedly vintage when Windows 11 arrived with its Intel 8th Gen Core or newer architecture requirements. Last summer, we reported on <a href="https://www.tomshardware.com/news/intel-ends-day-0-game-gpu-driver-support-for-10th-gen-and-older-cpus">Intel ending day-0 GPU driver support for 10th gen and older CPUs</a>, with Skylake at the bottom of the list of generations remaining on legacy support. Now that Skylake has dropped off the legacy list, Kaby Lake chips are on the bottom rung of the ladder, waiting to be allocated a plot in silicon heaven.</p><p>Intel’s 7th Gen Core Kaby Lake CPUs debuted with Intel Gen 9.5 integrated graphics. Thus, it might be harder to EOL Kaby Lake, as the same graphics architecture persisted through 8th, 9th, and 10th Gen Core processors.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1200px;"><p class="vanilla-image-block" style="padding-top:49.50%;"><img id="" name="no-more-updates.jpg" alt="Intel EOL Skylake graphics" src="https://cdn.mos.cms.futurecdn.net/FrGddFNrjXDjwWxgAkE5xi.jpg" mos="" align="middle" fullscreen="1" width="1200" height="594" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/FrGddFNrjXDjwWxgAkE5xi.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>The last regular iGPU driver release available for Skylake users is version 31.0.101.2115, from December 2022. This legacy driver is available <a href="https://www.intel.com/content/www/us/en/download/762755/intel-6th-10th-gen-processor-graphics-windows.html">here</a>, supporting various editions of Windows 10 & 11, with the Skylake EOL notice in full.</p><p>As noted above, the EOL news probably has little consequence for desktop Skylake system users. However, this news and Intel’s legacy driver change last summer might devalue 10th Gen Core and older systems relying on iGPUs with few or no options for a GPU upgrade (e.g., laptops, AiOs or mini PCs). We must also remember that Windows 11 kicked many otherwise serviceable machines into a kind of upgrade limbo. We don’t know what <a href="https://www.tomshardware.com/news/windows-12-meteor-lake-leak-2024">Windows 12 </a>requirements may be regarding CPU, GPU, security, connectivity, RAM, storage, etc.</p>
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                                                            <title><![CDATA[ Intel Discontinues Several 11th Gen Tiger Lake CPUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-discontinues-several-11th-gen-tiger-lake-cpus</link>
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                            <![CDATA[ Some of Intel's 11th Generation Tiger Lake Core i3, i5, i7, and i9 processors have reached end-of-life (EOL) status. ]]>
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                                                                        <pubDate>Wed, 05 Apr 2023 09:27:59 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:09:09 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                        <media:description><![CDATA[11th Gen Tiger Lake]]></media:description>                                                            <media:text><![CDATA[11th Gen Tiger Lake]]></media:text>
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                                <p><a href="https://qdms.intel.com/dm/i.aspx/81C51E41-602D-422B-903F-CF5CD6C067AB/PCN119513-00.pdf">Intel has issued a product change notification (PCN)</a> which discontinues various 11th Generation <a href="https://www.tomshardware.com/news/intel-tiger-lake-release-date-specs-benchmarks-all-we-know">Tiger Lake</a> mobile processors. The retirees include several SKUs from the Core i3, Core i5, Core i7, Core i9, and Xeon W line-ups. Tiger Lake launched between 2020 and 2021, so they aren&apos;t long in the tooth. However, the 10nm processors have become obsolete now that Intel has 12th Generation <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a> and 13th Generation <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a> line-ups in the company&apos;s ranks.</p><p>The chipmaker isn&apos;t axing the entire Tiger Lake-H line-up. So far, the affected products are mainly Tiger Lake-H (45W) chips since demand has shifted to Intel&apos;s newer processor offerings. The discontinued SKUs range from the Core i5-11260H to the Core i9-11950H. Intel has included the Xeon W-11855M on the list. The Xeon W-11855M hexa-core processor is one of the only two Xeon Tiger Lake parts. The Xeon W-11955M Processor, which wields eight cores, is safe for now. There still seems to be some demand for Tiger Lake chips with IPUs (image processing units). Intel hasn&apos;t terminated models, such as the Core i7-11390H or the Core i5-11320H.</p><p>Intel&apos;s partners can place final orders on the 11th Generation Tiger Lake processors by June 30, 2023. After that, however, the shipping date will vary depending on the model. For example, Intel will ship the Core i5-11500H, Core i7-11850H, Core i9-11950H, and Xeon W-11855M by <a href="https://qdms.intel.com/dm/i.aspx/6A6431C4-226D-46BF-99EF-E93E919A3A53/PCN119512-00.pdf" target="_blank">April 26, 2024</a>. Meanwhile, the last shipment date for the remaining Tiger Lake SKUs is <a href="https://qdms.intel.com/dm/i.aspx/81C51E41-602D-422B-903F-CF5CD6C067AB/PCN119513-00.pdf" target="_blank">January 26, 2024</a>.</p><h2 id="discontinued-intel-11th-gen-tiger-lake-cpus">Discontinued Intel 11th Gen Tiger Lake CPUs</h2><div ><table><thead><tr><th class="firstcol " >Marketing Name</th><th  >Platform</th><th  >Product Code</th><th  >S SPEC</th><th  >MM#</th><th  >Stepping</th></tr></thead><tbody><tr><td class="firstcol " >Intel Core i5-11260H Processor</td><td  >Mobile</td><td  >FH8069004351513</td><td  >S RKT0</td><td  >99AFDX</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i5-11400H Processor</td><td  >Mobile</td><td  >FH8069004351613</td><td  >S RKT1</td><td  >99AFDZ</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i7-11800H Processor</td><td  >Mobile</td><td  >FH8069004352018</td><td  >S RKT3</td><td  >99AFF1</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i9-11900H Processor</td><td  >Mobile</td><td  >FH8069004352617</td><td  >S RKT7</td><td  >99AFF8</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i7-11600H Processor</td><td  >Mobile</td><td  >FH8069004670407</td><td  >S RKT9</td><td  >99AFFA</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i5-11500H Processor</td><td  >Mobile</td><td  >FH8069004351711</td><td  >S RKT2</td><td  >99AFF0</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i7-11850H Processor</td><td  >Mobile</td><td  >FH8069004352114</td><td  >S RKT4</td><td  >99AFF2</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i9-11950H Processor</td><td  >Mobile</td><td  >FH8069004352616</td><td  >S RKT6</td><td  >99AFF7</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Xeon W-11855M Processor</td><td  >Mobile</td><td  >FH8069004466609</td><td  >S RKT8</td><td  >99AFF9</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i9-11900KB Processor</td><td  >Desktop</td><td  >FH8069004610310</td><td  >S RKU4</td><td  >99AFWD</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i7-11700B Processor</td><td  >Desktop</td><td  >FH8069004610410</td><td  >S RKU5</td><td  >99AFWF</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i5-11500B Processor</td><td  >Desktop</td><td  >FH8069004610507</td><td  >S RKU6</td><td  >99AFWG</td><td  >R0</td></tr><tr><td class="firstcol " >Intel Core i3-11100B Processor</td><td  >Desktop</td><td  >FH8069004610609</td><td  >S RKU7</td><td  >99AFWH</td><td  >R0</td></tr></tbody></table></div><p>The 11th Generation <a href="https://www.tomshardware.com/news/intel-tiger-lake-b-series-65w-cpus-very-high-clocks">Tiger Lake B-serie</a>s processors, which feature a 65W TDP, have also reached the end-of-life (EOL) status. Intel had brought a couple of its 45W Tiger Lake chips to the desktop via the BGA route. Processors, including the Core i9-11900KB, Core i7-11700B, Core i5-11500B, and Core i3-11100B, were viable for vendors specializing in small form-factor (SFF) systems. Like the Tiger Lake-H chips, clients have until June 30, 2023, to put in the final orders, and Intel will ship the orders out before January 26, 2024.</p><p>A few months ago, Intel had bid the company&apos;s 11th Generation <a href="https://www.tomshardware.com/news/intel-says-goodbye-to-rocket-lake-cpus">Rocket Lake</a> desktop processors. So naturally, the writings were already on the wall that Tiger Lake wouldn&apos;t be safe from the next cut. There aren&apos;t many Tiger Lake chips left, so the 10nm family of mobile chips will eventually cease to exist. It shouldn&apos;t matter to consumers, though, as faster mobile Alder Lake and Raptor Lake alternatives are already on the market.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Launches Overclockable Xeon W CPUs up to 56 Cores: a Return to HEDT-Class Chips ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-xeon-w-3400-w-2400-cpu-launch-hedt-overclock</link>
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                            <![CDATA[ Intel released 15 new Xeon W workstation processors with several overclockable models included, perhaps marking a return to HEDT. ]]>
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                                                                        <pubDate>Wed, 15 Feb 2023 17:00:09 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:51:31 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ palcorn@outlook.com (Paul Alcorn) ]]></author>                    <dc:creator><![CDATA[ Paul Alcorn ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/RZRmFeQfPy3etHjBQitbGW.jpeg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;As a teenager, Paul scraped up enough money to buy a 486-powered PC with a turbo button (yes, a turbo button). Back when floppies were still popular he was already chasing after the fastest spinners for his personal computer, which led him down the long and winding storage road, covering enterprise storage. His current focus is on consumer processors, though he still keeps a close eye on the latest storage news. In his spare time, you’ll find Paul hanging out with his kids or indulging his love of the Kansas City Chiefs and Royals.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Sapphire Rapids]]></media:description>                                                            <media:text><![CDATA[Sapphire Rapids]]></media:text>
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                                <figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1280px;"><p class="vanilla-image-block" style="padding-top:56.25%;"><img id="" name="sapphire rapids.jpg" alt="Sapphire Rapids" src="https://cdn.mos.cms.futurecdn.net/iiNk2U4dQBGHL76arrSYd9.jpg" mos="" align="middle" fullscreen="1" width="1280" height="720" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/iiNk2U4dQBGHL76arrSYd9.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Tom's Hardware)</span></figcaption></figure><p>Intel announced its Xeon W-3400 and W-2400 workstation processors, codenamed Fishawk Falls, with 15 new chips spanning from the flagship 56-core $5,889 Xeon w-3495X to the eight-core $359 w3-2423. Eight of the new models are also overclockable, thus marking Intel&apos;s return to HEDT-class desktop processors (lower-cost overclockable server processors) for the first time since it launched the <a href="https://www.tomshardware.com/reviews/intel-core-i9-10980xe">Core i9-10980XE</a> back in 2019 and then abandoned the HEDT segment to AMD.<br><br>AMD&apos;s competing Threadripper Pro currently holds the top spots on our list of <a href="https://www.tomshardware.com/reviews/best-performance-cpus,5683.html">best CPUs for workstations</a> and still has the core count lead with the 64-core <a href="https://www.tomshardware.com/reviews/amd-threadripper-pro-5995wx-5975wx-cpu-review">Threadripper Pro 5995WX</a>. However, Intel&apos;s support for the latest connectivity options, including up to 112 PCIe 5.0 lanes and eight channels of DDR5 memory while AMD still relies on PCIe 4.0 and DDR4, could give it the edge in some workloads.<br><br>Intel claims the new Xeon W chips are up to 28% faster in single-threaded and 120% faster in multi-threaded work than its own previous-gen Xeon W processors, but didn&apos;t share any performance comparisons to AMD&apos;s Threadripper Pro series processors that address the same core workstation market segments. Intel also didn&apos;t share any gaming performance benchmarks to give us a sense of where these chips will land on the list of the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPUs for gaming</a>. This makes sense, given the workstation focus, but the chips&apos; overclockability will make game testing results interesting once the silicon is in the wild.</p><h3 class="article-body__section" id="section-intel-xeon-w-3400-w-2400-specifications-and-pricing"><span>Intel Xeon W-3400 W-2400 Specifications and Pricing </span></h3><div ><table><tbody><tr><td  ></td><td  ><strong>Cores / Threads</strong></td><td  ><strong>MSRP/SEP</strong></td><td  ><strong>Base / Boost (GHz)</strong></td><td  ><strong>TDP</strong></td><td  ><strong>PCIe</strong></td><td  ><strong>L3 Cache (MB)</strong></td></tr><tr><td  >Threadripper Pro 5995WX</td><td  >64 / 128</td><td  >$6,499</td><td  >2.7 / 4.5</td><td  >280W</td><td  >128</td><td  >256 (8CCD + I/OD)</td></tr><tr><td  ><strong>Xeon w9-3495X</strong></td><td  ><strong>56 / 112</strong></td><td  ><strong>$5,889</strong></td><td  ><strong>1.9 / 4.8</strong></td><td  ><strong>350W</strong></td><td  ><strong>112</strong></td><td  ><strong>105</strong></td></tr><tr><td  ><strong>Xeon w9-3475X</strong></td><td  ><strong>36 / 72</strong></td><td  ><strong>$3,739</strong></td><td  ><strong>2.2 / 4.8</strong></td><td  ><strong>300W</strong></td><td  ><strong>112</strong></td><td  ><strong>82.5</strong></td></tr><tr><td  >Threadripper Pro 5975WX</td><td  >32 / 64</td><td  >$3,299</td><td  >3.6 / 4.5</td><td  >280W</td><td  >128</td><td  >128 (4CCD + I/OD)</td></tr><tr><td  ><strong>Xeon w7-3455</strong></td><td  ><strong>24 / 48</strong></td><td  ><strong>$2,489</strong></td><td  ><strong>2.5 / 4.8</strong></td><td  ><strong>270W</strong></td><td  ><strong>112</strong></td><td  ><strong>75</strong></td></tr><tr><td  >Threadripper Pro 5965WX</td><td  >24 / 48</td><td  >$2,399</td><td  >3.8 / 4.5</td><td  >280W</td><td  >128</td><td  >128 (4CCD + I/OD)</td></tr><tr><td  ><strong>Intel Xeon w5-3435X</strong></td><td  ><strong>16 / 32</strong></td><td  ><strong>$1,589</strong></td><td  ><strong>3.1 / 4.7</strong></td><td  ><strong>270W</strong></td><td  ><strong>112</strong></td><td  ><strong>45</strong></td></tr><tr><td  >Threadripper 5955WX</td><td  >16 / 32</td><td  >OEM-only</td><td  >4.0 / 4.5</td><td  >280W</td><td  >128</td><td  >64</td></tr></tbody></table></div><p>Here&apos;s a quick comparison of a few of Intel&apos;s flagship chips to AMD&apos;s competing Threadripper Pro. Intel&apos;s workstation family includes four tiers with w9, w7, w5, and w3 models, mostly analogous to Intel&apos;s Core i9, i7, i5, and i3 branding scheme. Intel carves the Xeon W stack into four tiers, including dual socket models. We&apos;ll dive into the families in more detail below, but the single-socket W-2400 and W-3400 tiers are the focus of this launch:</p><ul><li>Intel Xeon W-3400: "Expert," 12 to 56 hyperthreaded cores, 112 Lanes PCIe 5.0 from CPU, Eight Channels up to DDR5-4800 (4TB), 270W to 350W (w5, w7, w9), single LGA-4677 socket, W790 chipset</li><li>Intel Xeon W-2400: "Mainstream," 6 to 24 hyperthreaded cores, 64 Lanes PCIe 5.0 from CPU, Four Channels up to DDR5-4800 (2TB), 120W to 225W (w3, w5, w7), single LGA-4677 socket, W790 chipset</li><li>Maximum Turbo Power (MTP) is 1.2X the Processor Base Power (PBP)</li></ul><p>The processors wield Intel&apos;s Golden Cove architecture and use the same design as the <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">fourth-gen Xeon Scalable server processors</a>, which are also known as Sapphire Rapids. The W-3400 processors come with the <a href="https://www.tomshardware.com/news/intel-launches-sapphire-rapids-fourth-gen-xeon-cpus-and-ponte-vecchio-max-gpu-series">multi-chiplet XCC Sapphire Rapids</a> design, while the W-2400 processors use a single MCC die.<br><br>The <a href="https://www.tomshardware.com/features/intel-architecture-day-2021-intel-unveils-alder-lake-golden-cove-and-gracemont-cores/4">Golden Cove</a> architecture is also found in Intel&apos;s consumer-oriented <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a> and marks a big step forward from the <a href="https://www.tomshardware.com/reviews/intel-sunny-cove-gen11-xe-gpu-foveros,5932.html">Sunny Cove</a> cores found in the previous-gen <a href="https://www.tomshardware.com/news/intel-ice-lake-xeon-platinum-8380-review-10nm-debuts-for-the-data-center">Ice Lake Xeon</a> processors. Notably, the new Xeon W processors only have large performance cores, so there are no smaller e-cores like we see with Intel&apos;s hybrid processors for mainstream desktop PCs. </p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/7BUJUvV7Z8jVm6C6W5D9YK.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/XRTbLQDaQrFbYYXugKh8gK.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><p>Here we can see the broader lineup of Intel&apos;s processors, but you&apos;ll notice that only seven of the 15 models are available at retail as a boxed unit — you&apos;ll have to buy a complete OEM system if you want many of these models. Additionally, only seven of the models are overclockable, and the overclockable 56-core flagship isn&apos;t available at retail.<br><br>The Xeon-W lineup spans from $350 to $5,889, but direct per-core pricing comparisons to the desktop <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a> processors are tricky, given that those models all come with smaller e-cores that aren&apos;t as performant but skew the pricing metrics. Intel&apos;s Xeon W pricing is generally in the same range as the competing Threadripper Pro processors&apos; suggested pricing, but we&apos;ll have to see how pricing settles when the processors arrive at retail.<br><br>Boost clocks range from 4.8 GHz on the highest-end models to 4.2 GHz at the end of the stack with the eight-core w3-2423. Intel&apos;s new chips have significant increases in cache compared to their predecessors (<a href="https://www.tomshardware.com/news/shed-a-tear-for-hedt-amds-threadripper-pro-pricing-marks-the-end-of-an-era">breakdown here</a>), with up to 105MB available with the flagship model. Intel lists Processor Base Power (PBP), which is similar to the  TDP rating, as stretching from 270W to 350W for the W-3400 series and 120W to 225W for the W-2400 series. These chips will consume more power under full load at their Maximum Turbo Power (MTP) rating, which is 1.2X the PBP. (For instance, the 350W model will peak at 420W, while the 300W model will reach 360W.)<br><br>Xeon W supports either 112 or 64 lanes of PCIe 5.0, depending upon the model, which provides twice the throughput of PCIe 4.0. Intel&apos;s support for DDR5 provides twice the memory throughput of DDR4, but it could also be a limiting factor for now — DDR5 continues to command hefty premiums over DDR4 memory.<br><br>The Xeon W processors support up to DDR5-4800 with one DIMM per channel (1DPC) and drop to DDR5-4400 for 2DPC, which is an important factor for workstation processors. Additionally, the w3 SKUs run at DDR5-4400 with 1DPC. Memory capacity tops out at 4TB for the W-3400 models and 2TB for W-2400, a significant jump over the 128GB limit for Intel&apos;s mainstream desktop PC processors.<br><br>AMD&apos;s Threadripper Pro 5000-series processors currently leverage the company&apos;s previous-gen Zen 3 architecture, so they are still limited to DDR4 memory and PCIe 4.0. We expect that AMD will have its own new workstation processors with the Zen 4 architecture available in due time, thus matching Intel on the connectivity front, but we don&apos;t know when those processors will launch.<br><br>Intel&apos;s Xeon W processors all support AVX-512, Deep Leaning Boost (DLBoost), and the new Advanced Matrix Extensions (AMX) instructions (INT8 and BFLoat 16) that deliver explosive performance uplift in AI workloads by using a new set of two-dimensional registers called tiles. Intel&apos;s AMX implementation is primarily used to boost performance in AI training and inference operations.</p><h3 class="article-body__section" id="section-intel-xeon-w-3400-w-2400-overclocking"><span>Intel Xeon W-3400 W-2400 Overclocking</span></h3><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:2000px;"><p class="vanilla-image-block" style="padding-top:56.25%;"><img id="" name="Intel Xeon W-3400 and Xeon W-2400 Workstation_PressPre-Briefing_Rev1.0_POST EMBARGO-1-page-022.jpg" alt="Sapphire Rapids" src="https://cdn.mos.cms.futurecdn.net/rcseQ2KUm5kCVfBhAaoW9g.jpg" mos="" align="middle" fullscreen="" width="2000" height="1125" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Tom's Hardware)</span></figcaption></figure><p>Select Xeon W models support overclocking both the cores and fabric, which Intel positions as useful for professionals that need the utmost performance but can tolerate potential instability (high frequency trading comes to mind), but this has long been one of the defining features of the enthusiast-focused HEDT segment. Just as we&apos;ve seen with past HEDT processors, the Xeon W lineup is comprised of overclockable server chips. However, pricing is much like we see with AMD&apos;s Threadripper Pro — far above what we would deem to be rational for most enthusiasts.<br><br>Intel&apos;s minimum bar for an overclockable model you can buy at retail is $1,039 for the 12-core w5-2445 and progresses up to $3,739 for the 36-core w9-3475X. This is expensive given the core counts, but it is a lower bar for entry than we see with AMD&apos;s Threadripper Pro lineup, which has a <a href="https://www.tomshardware.com/news/shed-a-tear-for-hedt-amds-threadripper-pro-pricing-marks-the-end-of-an-era">minimum pricing bar of $2,399 and an expensive motherboard ecosystem</a>.<br><br>Regardless of the class of Xeon W chip you chose, you&apos;ll have to factor in expensive platform pricing that can ruin the value prop for the Xeon W family as an HEDT platform — particularly with the W-3400 series due to its eight channels of DDR5 support, which adds cost to both the motherboards and memory. That makes the W-2400 the most accessible for enthusiasts and prosumers with its quad-channel memory support, but motherboard pricing will remain stiff due to the nature of workstation-class platforms.<br><br>The overclockable w-2400 processors start at the $1,039 12-core w5-2455X and stretch up to the $2,189 24-core w7-2495X. Naturally, those prices are hard to stomach when AMD has the 16-core Ryzen 9 7950X with a full complement of performance cores on offer for $600, so those looking for an HEDT-class system will be attracted more to the workstation-class features, like the increased number of PCIe lanes and support for ECC memory.<br><br>Naturally, these costs aren&apos;t as much of a concern for workstation users, as these machines are often business assets that generate revenue. Despite Intel&apos;s lower pricing for an entry-level HEDT-class chip, it remains to be seen if these will be viable as an HEDT-class lineup for enthusiasts because direct comparisons with Intel&apos;s desktop PC chips are hard due to their hybrid architecture, and Ryzen processors have an entirely different architecture. As such, we&apos;ll have to put these chips to the test to gauge the price-to-performance ratio.<br><br>Xeon W&apos;s core multipliers are fully unlocked, meaning you can overclock the cores at will, but BCLK adjustments aren&apos;t allowed (we&apos;re digging for details on why that limitation exists). As with the desktop processors, Intel has AVX2 and AVX-512 offsets that downshift the overclocked chip frequency when processing those types of instructions to ensure that the system remains stable in the most intense workloads, but Intel has also added a new AMX offset for Advanced Matrix Extensions. There are also accommodations for mesh frequency adjustments and turbo ratio overclocking.<br><br>Intel added support for XMP 3.0 one-click memory overclocking profiles. Overclocking the memory via XMP profiles is of little risk but can impart big memory throughput gains, so we imagine this will be popular for those with throughput-hungry workloads. All of the overclocking features are available in Intel&apos;s software-based Extreme Tuning Utility (XTU), but overclocking options will also be available in the BIOS.<br><br>Intel&apos;s support for overclocking comes with all of the typical caveats, such as the fact that it can shorten the chip&apos;s lifespan and voids the warranty. While Intel&apos;s addition of overclocking for these processors is enticing for enthusiasts, the high pricing of the chips, motherboards, cooling, and DDR5 memory will surely limit its appeal.</p><h3 class="article-body__section" id="section-intel-xeon-w-3400-w-2400-platform-and-cooling"><span>Intel Xeon W-3400 W-2400 Platform and Cooling</span></h3><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/w88iJduxrDZQVXjsNy2iJY.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/F97VkqdD9EQHw6M6rAsxXX.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Kz5MoWUR9LkcGrM8eXYHiX.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/GhrawoZEQbN6kAihyMNauX.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/tEkpb9v7CoiS2mmmmkR92Y.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/7V9FuFMqVAxiiC3t9y567Y.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/PtkZhtModWUAepdTN5KVDY.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/HgLTgCQQhUypER638eWsQ3.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/xTsbmGhh43a2GHYwoeYuY3.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Tsercd9iay9BwGkv2gbKe3.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/VRCqjVjhUKaKNA9JySMfk3.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/s8WiT5J8dQvWpEfVs673s3.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><p>The Xeon W-3400 and W-3200 chips are designed for single-socket "Expert" and "Mainstream" platforms with the LGA-4677 socket and W790 chipset (generally the same as Z790), while the standard fourth-gen Intel Xeon Scalable processors with the same socket and the C741 chipset slot in for dual-socket workstations. Intel will not offer its HBM-equipped Xeon Max models for the workstation segment, and Optane memory is not supported for any of the workstation processors. However, all of the chips do support the CXL 1.1 interface (type 1 and 2 devices).<br><br>The W790 chipset provides 36 HSIO lanes, with 16 lanes of PCIe 4.0 exposed to the user to augment the PCIe 5.0 lanes that come directly from the CPU. The W-3400 and W-3200 chips both have a DMI 4.0 x8 connection between the CPU and the chipset to increase the amount of aggregate usable throughput from chipset-attached devices. The platform also supports many of the trimmings we&apos;d expect from a modern platform, like eight SATA 3 ports, five USB 3.2, integrated LAN up to 2.5 Gbps, and WiFi 6E.<br><br>Intel&apos;s new chips can consume as much as 350W at their Processor Base Power, and 1.2X the PBO when under full load at their Maximum Turbo Power (MTP) rating. So powerful cooling systems are a must, particularly for higher-end chips. Intel has an ecosystem of partners ready with LGA-4677 cooling systems, like Cooler Master, EKWB, and Auras, with watercooled solutions for both custom loops and AIOs, along with Noctua with its air-cooled options.<br><br>On the motherboard front, we can expect W790 motherboards from the usual suspects, like ASRock, Gigabyte, Supermico, and ASUS.<br><br>Intel&apos;s chips also have all of the expected workstation-class RAS (reliability, availability, serviceability) features you&apos;d expect, like support for ECC RDIMM memory and vPro. The Xeon W platform supports only RDIMMS and not UDIMMs, as the DDR5 spec now defines these two types with different pin-outs that require different physical layouts. </p><h3 class="article-body__section" id="section-intel-xeon-w-3400-w-2400-intel-benchmarks"><span>Intel Xeon W-3400 W-2400 Intel Benchmarks</span></h3><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/XunoR46AZNePkYnkFsn52m.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Zx4VnGcKcLDSKnqWhTeY7m.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/t2b7RaWWcLbYuAevaL4ACm.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/EXdX2zjcoK6L5Bxzti84Hm.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/WuehsUw5sUgkFF8SuQpmMm.jpg" alt="Sapphire Rapids" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/CgzFf2T9R5WzKE8sJTNGke.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/j88Xqgk5B8cNHBmvV2Ftse.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/CWw8KMehroMf7wMcJ9UcEf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/afmgJxrcpo7jtSwKQjWHLf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/NZjzrF5B5buQQa68wpSNRf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/d5ExZzdRTuyjcSXM43uxZf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/K7pDqR4ggXcPye5phpKyrf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/ngmgVBNDF2q3DVsAujv9yf.jpg" alt="SPR" /><figcaption><small role="credit">Tom's Hardware</small></figcaption></figure></figure><p>Intel shared some of its own internally-derived benchmarks, but as with all vendor-provided benchmarks, take them with a grain of salt. The test notes are at the end of the album.<br><br>Intel&apos;s benchmarks are all comprised of workstation-specific workloads, so the jury is out on how these chips will perform in gaming. Intel claims a 28% gen-on-gen gain in single-threaded and 120% more performance in multi-threaded work, as measured by SPECrate2017_int_base. Intel also shows solid performance gains in workloads in the SPECworkstation 3.1  benchmark, along with a broad selection of workstation-focused content creation and scientific workloads. Intel neglected to compare to its own previous-gen <a href="https://www.tomshardware.com/news/intel-unleashes-xeon-w-3300-ice-lake-cpus-38-cores-workstation">Xeon W-3300 series</a> here, which is an interesting omission.<br><br>Intel says the Xeon W-3400 and W-2400 processors are available for preorder now from its partners, with full systems being available in March (Intel says there will be a total of 50+ system designs). We&apos;ve already seen several listings for these chips at retail, so the boxed units might come earlier.</p><ul><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><strong>Best CPUs for Gaming</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/cpu-hierarchy,4312.html"><strong>CPU Benchmark</strong></a><strong> Hierarchy</strong></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/features/amd-vs-intel-cpus"><strong>AMD vs Intel</strong></a></li></ul><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Apple Silicon Mac Pro Reportedly Lacks Upgradeable GPU, RAM ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/mac-pro-apple-silicon-non-replaceable-gpu</link>
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                            <![CDATA[ Apple's new Mac Pro reportedly won't feature user-replaceable graphics nor will it support external GPUs. ]]>
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                                                                        <pubDate>Thu, 26 Jan 2023 17:35:12 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:49:32 +0000</updated>
                                                                                                                                            <category><![CDATA[Macbooks]]></category>
                                                    <category><![CDATA[Laptops]]></category>
                                                                                                <author><![CDATA[ brandon.hill@futurenet.com (Brandon Hill) ]]></author>                    <dc:creator><![CDATA[ Brandon Hill ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/yHeufe7JcvuJBhYPkSexNf.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Brandon&amp;nbsp;has been tinkering with PCs since childhood and received his first &quot;real&quot; PC, an IBM Aptiva 310, in the mid-1990s. He next went on to build his first custom PC with an Intel Celeron 300A processor overclocked to 450MHz on an Abit BH6 motherboard.&amp;nbsp;Brandon&amp;nbsp;has written about PC and Mac tech since the late 1990s, first at AnandTech before moving to DailyTech and later to Hot Hardware. When&amp;nbsp;Brandon&amp;nbsp;is not consuming copious amounts of tech news, he can be found enjoying the NC mountains or the beach with his wife and two sons.&lt;/p&gt; ]]></dc:description>
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                                <p>Nearly all of Apple’s Macs have transitioned to homegrown <a href="https://www.tomshardware.com/news/apple-m2-pro-m2-max-macs">Apple Silicon</a>, erasing the company’s dependence on Intel processors. However, there is still one holdout left: the Mac Pro. The current generation Mac Pro was launched in 2019 and hasn’t seen any meaningful updates since then. However, a new version is on the way that will finally make the transition to Apple Silicon. </p><p>Earlier this month, Bloomberg’s Mark Gurman suggested that the new Mac Pro would <a href="https://www.tomshardware.com/news/mac-pro-soldered-ram-report">support modular graphics</a> courtesy of an expansion port on the motherboard. However, Gurman reversed that claim yesterday, suggesting that the Mac Pros “may lack user upgradeable GPUs.” Apple’s current Mac Pro is powered by Intel Xeon processors and <a href="https://www.tomshardware.com/news/mac-pro-exclusive-radeon-pro-w6000x">AMD Radeon Pro W6000X Series</a> RDNA2 graphics cards. No explanation was given for this pullback from his initial reporting, but that’s not the only bad news.</p><div class="see-more see-more--clipped"><blockquote class="twitter-tweet hawk-ignore" data-lang="en"><p lang="en" dir="ltr">The next Mac Pro may lack user upgradeable GPUs in addition to non-upgradeable RAM. Right now Apple Silicon Macs don’t support external GPUs and you have to use whatever configuration you buy on Apple’s website. But the Mac Pro GPU will be powerful with up to 76 cores.<a href="https://twitter.com/markgurman/status/1618410815379632129">January 26, 2023</a></p></blockquote><div class="see-more__filter"></div></div><p>Gurman further states that the new Mac Pro won’t support external GPUs. If this reporting is accurate, customers should think carefully about their future graphics needs at the time of purchase. In this case, the new Mac Pro’s GPU will allegedly be available in up to a 76-core configuration or double what’s available with the maxed-out M2 Max SoC available on the new <a href="https://www.tomshardware.com/news/apple-refreshes-macbook-pro-with-m2">2023 MacBook Pros</a>.</p><p>We already knew that the Mac Pro would lack user-replaceable RAM, so adding the GPU to the mix will be a bitter pill to swallow for Apple enthusiasts. However, Mac Pro customers will still have the option to upgrade their SSD storage via two internal slots or external Thunderbolt 4 ports.</p><p>The limited upgrade options for the Mac Pro will make for an interesting comparison with the similarly upgrade-averse <a href="https://www.tomshardware.com/news/apple-announces-mac-studio-with-m1-ultra">Mac Studio</a>. The Mac Studio is currently available with M1 Max and M1 Ultra SoCs, and will likely soon receive upgrades to M2 Max and M2 Ultra SoCs. It’s possible that Apple could reserve the high-end 76-core versions of the M2 Ultra for the Mac Pro.   </p><p>The Mac Studio starts at $1,999 with a M1 Max SoC ($3,999 with a M1 Ultra), while the Mac Pro starts at $5,999. The Mac Pro costs nearly $54,000 fully decked out with a 28-core Xeon W processor, 1.5B of DDR4 memory, dual Radeon Pro W690X GPUs, an Afterburner card and an 8TB SSD.</p>
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                                                            <title><![CDATA[ HandBrake 1.6.0 Debuts AV1 Transcoding Support for the Masses ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/handbrake-160-debuts-av1-transcoding-support-for-the-masses</link>
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                            <![CDATA[ The free and open source HandBrake transcoding utility gains AV1 encoding support in its 1.6.0 update. Users with Intel QSV or Arc hardware can benefit from HW accelerated encoding. ]]>
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                                                                        <pubDate>Thu, 29 Dec 2022 16:49:10 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:10:06 +0000</updated>
                                                                                                                                            <category><![CDATA[Video Editing and Graphic Design]]></category>
                                                    <category><![CDATA[Software]]></category>
                                                    <category><![CDATA[Applications]]></category>
                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
&lt;br&gt;
Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
&lt;br&gt;
When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                                            <media:credit><![CDATA[Alliance for Open Media, HandBrake]]></media:credit>
                                                                                                                                                                                                                                    <media:description><![CDATA[HandBrake 1.6.0 with AV1 encoding]]></media:description>                                                            <media:text><![CDATA[HandBrake 1.6.0 with AV1 encoding]]></media:text>
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                                <p>HandBrake, the popular free and open source video transcoder, has been updated to <a href="https://forum.handbrake.fr/viewtopic.php?t=42690">version 1.6.0</a>. This major point upgrade is notable for facilitating AV1 video encoding for the first time in a general release. Moreover, those with <a href="https://www.intel.co.uk/content/www/uk/en/support/articles/000029338/graphics.html">Intel Quick Sync Video</a> (QSV) enabled processors, and those with <a href="https://www.tomshardware.com/news/gigabyte-quietly-starts-shipping-intel-arc-graphics-cards">Intel Arc GPUs</a> will be able to encode AV1 video with hardware acceleration.</p><p>HandBrake 1.6.0 can encode AV1 videos on any of its supported systems. In the current release its SVT-AV1 encoder offers the widest support, encoding on your processor through software. However, those with Intel QSV supporting CPUs or discrete Arc graphics can use the QSV-AV1 encoder for hardware accelerated processing. QSV isn&apos;t supported if your CPU is an ‘F’ suffixed model (i.e. it doesn&apos;t have an iGPU), or it is older than the Skylake generation. If you are lucky enough to have multiple QSV accelerators in your system, support for Intel Deep Link Hyper Encode should accelerate processing further. While <a href="https://www.tomshardware.com/news/amf-encoder-rivals-nvidia-av1-still-supreme">AMD and Nvidia have AV1 encoders</a> available for their latest GPUs, they currently aren’t integrated with HandBrake.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:882px;"><p class="vanilla-image-block" style="padding-top:56.24%;"><img id="" name="av1-qualities.png" alt="HandBrake 1.6.0 with AV1 encoding" src="https://cdn.mos.cms.futurecdn.net/K5a4zLymQJamhG259DKkBj.png" mos="" align="middle" fullscreen="" width="882" height="496" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Alliance for Open Media)</span></figcaption></figure><p>AV1 video is set to become the dominant codec across app-based streaming services and the wider internet, offering attractions such as; an open and royalty-free architecture, improved compression enabling efficient <a href="https://www.tomshardware.com/news/8k-content-getting-closer">8K video</a> streaming, and support for the newest HDR standards. Developed by the <a href="https://aomedia.org/">Alliance for Open Media</a>, the AV1 standard is expected to usurp the likes of H.264/AVC and HEVC, and it looks like a sure-fire winner with the support of tech giants like Amazon, Apple, ARM, Facebook, Google, Intel, Microsoft, Netflix, Nvidia, and Samsung.</p><p>Alongside the new AV1 transcoding support, the HandBrake developers have put together several 10-bit encoder profiles, and a handful of presets for dealing with typical AV1 encoding tasks. For those still interested in H.264 and H.265 encoding there are new profiles too. Meanwhile, a multitude of the app’s built in filters are updated in v1.6.0, with many of the updates implemented to support >8-bit color depths. The latest <a href="https://github.com/HandBrake/HandBrake/releases/tag/1.6.0">release notes</a> on GitHub details all the above changes, as well as the updated libraries, and tweaks such as bug fixes on various platforms.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1589px;"><p class="vanilla-image-block" style="padding-top:67.97%;"><img id="" name="handbrake-ui.jpg" alt="HandBrake 1.6.0 with AV1 encoding" src="https://cdn.mos.cms.futurecdn.net/VhzJGp7qRbQwxGHBmT5Q2j.jpg" mos="" align="middle" fullscreen="1" width="1589" height="1080" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/VhzJGp7qRbQwxGHBmT5Q2j.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Future)</span></figcaption></figure><p>If you are interested in grabbing the latest HandBrake release to dabble in AV1 encoding, earlier versions of the transcoding utility are currently not seeing the update as available. Instead of waiting, you can head on over to the <a href="https://handbrake.fr/downloads.php">official downloads page</a> and download and install or upgrade your existing version. HandBrake is available for Windows 10 or later, MacOS, and Linux.</p><iframe src="https://content.jwplatform.com/players/XDf5PcNM.html" id="XDf5PcNM" title="How To Choose A Graphics Card" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Roadmap Leaks: Raptor Lake Refresh, HEDT Replacement in 2023 ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-roadmap-leaks-raptor-lake-refresh-hedt-replacement-in-2023</link>
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                            <![CDATA[ Intel's Raptor Lake to stay for long as Intel kisses goodbye to the HEDT platform. ]]>
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                                                                        <pubDate>Thu, 08 Dec 2022 20:41:22 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:44:30 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                                            <media:credit><![CDATA[Intel]]></media:credit>
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                                <p>Intel plans to make an <a href="https://www.tomshardware.com/news/intel-to-disclose-client-pc-roadmap-next-week">important disclosure</a> about its client PC platform roadmap next week, but some parts of the presentation have already been leaked by HXL (<a href="https://twitter.com/9550pro" target="_blank">@9550pro</a>). In fact, for performance PC enthusiasts, Intel&apos;s Desktop and Workstation Platforms Roadmap that covers things like Raptor Lake-S Refresh processors for 2023 desktops as well as Sapphire Rapids-64L/112L CPUs set to address high-end desktops and workstations next quarter poses even more interest. </p><h2 id="raptor-lake-s-refresh-coming-in-2023">Raptor Lake-S Refresh: Coming in 2023</h2><p>One of the biggest surprises revealed by the leaked document is that Intel plans to retain its Raptor Lake processors for desktops for another year. Set to arrive in Q3 2023, Raptor Lake-S Refresh CPUs will continue to serve entry-level workstations and desktops for enthusiasts, mainstream users, and commercial desktop PCs.</p><p>The leaked roadmap does not reveal any specifications or improvements of the Raptor Lake Refresh processors over existing products, but typically refreshes increased clocks and sometimes features some minor improvements like enhanced power delivery or different turbo boost algorithms. The excerpts from the document also do not disclose whether <a href="https://www.tomshardware.com/news/intels-unannounced-34-core-raptor-lake-cpus-displayed-on-wafer">Intel&apos;s 34-core Raptor Lake-S</a> (RPLS-34C) is a part of the RPL Refresh family, but something tells us that this piece of silicon is reserved for workstations.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/3bX3u54EyNnwecaJ62F8HP.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/y23PjsphuvrfiVHvc7phCP.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure></figure><p>What does strike the eye about Intel&apos;s plans for desktops in the second half of 2023 is the lack of its codenamed <a href="https://www.tomshardware.com/news/intel-meteor-lake-platform-detailed">Meteor Lake processor</a> that will rely on a multi-tile (multi-chiplet) design. Perhaps, this part is reserved for mobile platforms only or will arrive at desktops sometime in 2024.</p><p>Intel&apos;s Raptor Lake-S Refresh will continue to rely on Z790, W680, Q670, and various 700-series chipsets. However, we do not have information on whether these new parts will be drop-in compatible with existing motherboards (including those powered by 600-series chipsets).</p><h2 id="sapphire-rapids-64l-and-sapphire-rapids-112l-xeon-w-2400-and-xeon-w-3400">Sapphire Rapids-64L and Sapphire Rapids-112L: Xeon W-2400 and Xeon W-3400</h2><p>Intel has not updated its workstation and high-end desktop platforms for about three years now, and today its CPUs released in Q4 2019 – Q1 2020 (and based on the Skylake microarchitecture from 2015) look rather pale, to put it mildly. For those who want a high-end CPU from Intel, the new desktop platform roadmap brings good and bad news.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1767px;"><p class="vanilla-image-block" style="padding-top:50.65%;"><img id="" name="mainstream-ws-platform.jpeg" alt="Intel" src="https://cdn.mos.cms.futurecdn.net/63YqUDXrnC9gErtQ3vZVLP.jpeg" mos="" align="middle" fullscreen="1" width="1767" height="895" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/63YqUDXrnC9gErtQ3vZVLP.jpeg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: @9550pro/Twitter)</span></figcaption></figure><p>The good one is that the company plans to introduce its Xeon W-2400 (Sapphire Rapids-64L) and Xeon W-3400 (Sapphire Rapids-112L) offerings for desktop workstations in Q1 2023. The bad news is that Intel essentially abandons its HEDT product lineup and will address this market with Xeon-branded offerings and platforms.</p><p>As <a href="https://www.tomshardware.com/news/intel-sapphire-rapids-ws-lineup-leak">revealed a week ago</a>, both Xeon W-2400 and Xeon W-3400-series processors will come in LGA4677 packaging and use motherboards based on the Intel W790 chipset.</p><p>As far as CPU features are concerned, Intel&apos;s Xeon W-2400 will offer up to 24 high-performance cores, 64 PCIe 5.0 lanes, a quad-channel DDR5 memory subsystem supporting up to 2TB of DDR5 memory with ECC, as well as processor base power (PBP) of up 225W. By contrast, Intel&apos;s Xeon W-3400 processors will come with up to 56 high-performance cores, 112 PCIe 5.0 lanes, an octa-channel DDR5 memory subsystem supporting up to 4TB of ECC memory, and a PBP of up to 350W.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/7M39YtCKZKjp5nQR36E9ZN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/DzpmdAzamfw7sNYDRVHxnN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure></figure><p>As for frequencies, the base clocks of all Sapphire Rapids-WS CPUs are pretty low (from 1.90 GHz to 3.20 GHz, depending on the SKU), but Turbo frequencies exceed 4 GHz in most cases. Actual clocks will rely on cooling systems and power limits, so we will see how fast these CPUs are in real life. Many of the Xeon W-2400/W-3400 models will come with an unlocked multiplier and overclockable, so those who want to push these processors to their limits will have such an opportunity. Meanwhile, it does not look like memory will be overclockable (not that one needs it with a quad or eight-channel DDR5 memory subsystem).</p><p>Since we are talking about Xeons, these W-2400/W-3400 processors will support all the workstation-grade reliability, availability, and serviceability (RAS) features as well as capabilities like Virtual RAID on CPU (VROC) 8.0 and Intel Volume Management Device (VMD) 3.04.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/VmYYWMEcXVpFkDUAZ43bTN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/LpUJggdUNj4hkQmmMS7AdN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure></figure><p>In addition to increased core count, all-new CPU microarchitecture, PCIe Gen5, and DDR5 support, the new workstation platform from Intel will feature relatively comprehensive and up-to-date I/O capabilities courtesy of the W790 chipset. The new W790 core logic will provide up to 16 PCle 4.0 lanes, up to 12 PCle 3.0 lanes, up eight SATA ports, up to five USB 3.2 Gen2x2 connections, and up to 10 USB 3.2 Gen2 ports. The chip will also integrate Wi-Fi 6E capabilities and support two 2.5GbE PHY controllers. Furthermore, as the W790 is designed for desktop PCs, it will come with HD Audio, MIPI SoundWare, and other features for client PCs.</p><p>The W790 chipset does not support PCIe 5.0, Thunderbolt 3/4, or USB 4/4.1, which is a pity. But keeping in mind that it connects to its host CPU with eight DMI Gen4 lanes, this might be a logical move to ensure maximum I/O performance as the chipset already packs quite a bit of bandwidth-hungry interfaces.</p><h2 id="sapphire-rapids-sp-xeon-scalable-on-c741">Sapphire Rapids-SP: Xeon Scalable on C741</h2><p>For those who need unbeatable performance, Intel will offer to use its Eagle Stream platform, supporting up to two server-grade 4th Generation Xeon Scalable Platinum, Gold, Silver, or Bronze (Sapphire Rapids-SP) processors. When equipped with two CPUs, the platform will provide up to 112 high-performance cores with Hyper-Threading, 160 PCIe Gen5 lanes, and up to 8TB of 16-channel DDR5 memory per box. In addition, of course, this platform will offer all the RAS and remote management capabilities in the Sapphire Rapids-WS but will naturally not offer any overclocking features.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/DCumpFsLqsUZwRiAJjwG9P.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/ZDcMykrC5tHMYWVGa7oF3P.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/y6ASsUBZzrXm7BnM93EPsN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3aTfZQ2KErB3P8CSBnQmvN.jpeg" alt="Intel" /><figcaption><small role="credit">@9550pro/Twitter</small></figcaption></figure></figure><p>While Eagle Stream workstations will offer unbeatable number-crunching capabilities, they will rely on the server-grade <a href="https://www.intel.com/content/www/us/en/products/sku/227842/intel-c741-chipset/specifications.html" target="_blank">C741 chipset</a> that does not support modern I/O capabilities. Workstation makers like Dell and Lenovo will equip Sapphire Rapids-SP-based machines with a bunch of extra controllers to make up for a modest chipsets, of course, so this might not be a problem for those who get complete boxes.</p><h2 id="more-details-about-client-pc-platforms-to-come">More Details About Client PC Platforms to Come</h2><p>While the desktop part of Intel&apos;s plans for 2023 is more or less clear, there are several things that the company will address at its upcoming event for investors. In addition to Meteor Lake, Arrow Lake, and Lunar Lake CPUs coming in the next few years, Intel will likely talk about its plans for discrete graphics, <a href="https://www.tomshardware.com/news/next-gen-intel-thunderbolt-80-gbps-120-gbps-video">next-generation Thunderbolt</a> based on USB 4.1, <a href="https://www.tomshardware.com/news/intel-plans-to-bring-wi-fi-7-to-client-platforms-by-2024">Wi-Fi 7</a>, and a bunch of other things that are set to make its platforms more appealing than those of its rivals. So, stay tuned.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Confirms Sapphire Rapids Coming to Workstations ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-confirms-sapphire-rapids-coming-to-workstations</link>
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                            <![CDATA[ Sapphire Rapids coming to workstations rather sooner than later? ]]>
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                                                                        <pubDate>Wed, 07 Dec 2022 03:30:01 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:50:36 +0000</updated>
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                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Intel, late on Tuesday, officially confirmed that its <a href="https://www.tomshardware.com/news/intel-sapphire-rapids-xeon-scalable-specifications-and-features">Sapphire Rapids</a> processors are coming to workstations in a teaser video published on Twitter. This is the first official confirmation that the company intends to address this market with its upcoming Sapphire Rapids CPUs. However, Intel is still tight-lipped about the specifications of these upcoming products.</p><p>"This thing is ridiculous, it used to take whole room full of computers to do what this is doing on its own, there go my 30-minute rendering coffee breaks," says a lady in the <a href="https://twitter.com/IntelTech/status/1600234029151838215">video</a>. "I was on a meeting the other day and our final test runs are coming back really good, so I&apos;d say pretty soon. You should probably take that coffee break while you still can.  </p><div class="see-more see-more--clipped"><blockquote class="twitter-tweet hawk-ignore" data-lang="en"><p lang="en" dir="ltr">Coming Soon: You’re going to have to schedule your coffee breaks, because Intel’s new workstation processors mean less time waiting. Your workstation will work as fast as you do. pic.twitter.com/9oFBL3TLBZ<a href="https://twitter.com/IntelTech/status/1600234029151838215">December 6, 2022</a></p></blockquote><div class="see-more__filter"></div></div><p>Based on the latest leaks, Intel will market its <a href="https://www.tomshardware.com/news/intel-sapphire-rapids-ws-lineup-leak">Sapphire Rapids-WS CPUs</a> (at least, this is how they are called for now, unofficially) under the Xeon W 3400-series name. These processors will use Intel&apos;s all-new <a href="https://www.tomshardware.com/news/intel-w790-motherboard-spotted">W790 platform</a> and offer up to 56 cores, eight DDR5 memory channels, and 112 PCIe lanes. In addition, the CPUs are set to be based on high-performance Golden Cove-derived cores with AVX-512 and AMX instructions enabled.</p><p>Many Sapphire Rapids-WS SKUs — including the flagship Xeon W9-3495X — will come with an unlocked multiplier and thus be overclockable. The 56-core range-topping model will be the industry&apos;s first overclockable CPU for powerful workstations released in years. Intel and AMD essentially abandoned this market and focused on more traditional workstations that never get overclocked.</p><p>A rumor is that Intel plans to release its Sapphire Rapids-WS processors next Spring after it first ships Xeon Scalable &apos;Sapphire Rapids&apos; products for servers. So far, Intel has not confirmed any timeframes for its workstation-grade Xeon W 3400-series products, but at least it clearly stated that Sapphire Rapids is coming to workstations.</p><iframe src="https://content.jwplatform.com/players/dBMx1ASv.html" id="dBMx1ASv" title="How to Choose a CPU" width="960" height="540" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Sapphire Rapids-WS Lineup Leaks: Up to 56 Cores With Overclocking ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-sapphire-rapids-ws-lineup-leak</link>
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                            <![CDATA[ Intel's next-generation workstation platform to feature 17 models with six to 56 cores. ]]>
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                                                                        <pubDate>Fri, 02 Dec 2022 15:45:33 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:54:58 +0000</updated>
                                                                                                                                            <category><![CDATA[Overclocking]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Intel&apos;s plans for the workstation market with its Sapphire Rapids-WS are taking shape as a well-known hardware leaker published preliminary specifications for the new CPUs. Intel&apos;s lineup of next-generation Xeon products for workstations and high-end desktops will include overclockable CPUs with up to 56 cores, eight memory channels, and 112 PCIe lanes if the information revealed by reputable hardware leaker Enthusiastic Citizen (<a href="https://t.bilibili.com/734714058061643784?spm_id_from=333.999.0.0">ECSM_Official</a>) is correct.</p><h2 id="the-new-family-of-workstation-cpus-from-intel">The New Family of Workstation CPUs from Intel</h2><p>Intel&apos;s family of next-generation Xeon W processors for <a href="https://www.tomshardware.com/news/intel-w790-motherboard-spotted">W790-based workstations</a> will reportedly consist of two families of products that will offer slightly different capabilities. The Xeon W 3400-series CPUs will be derived from a multi-chiplet <a href="https://www.tomshardware.com/news/intel-sapphire-rapids-xeon-scalable-specifications-and-features">Sapphire Rapids design</a> and will feature up to 56 cores, eight DDR5 memory channels, and 112 PCIe lanes. In addition, CPU cores used by these processors will be Golden Cove-derived cores with AVX-512 and AMX instructions enabled. By contrast, the Xeon W-2400-series processors will use a single-die design with up to 24 cores, four DDR5 memory channels, and 64 PCIe lanes. </p><p>Intel&apos;s Xeon W-2400 and W3400-series processors are expected to come in LGA4677 packaging and use W790-based workstation motherboards. One of the first W790 mainboards <a href="https://www.tomshardware.com/news/intel-w790-motherboard-spotted">leaked last week</a>, which suggests that some of Intel&apos;s partners are getting ready to ship these products sooner rather than later. Meanwhile, a rumor suggests that Intel only intends to roll out its W790 platform next April, so it is too early to ship appropriate motherboards. Then again, Intel has never officially confirmed the launch timeframe for its W790 platform and only confirmed that this one is designed for workstations.</p><h2 id="intel-xeon-w-3400-up-to-56-overclockable-cores">Intel Xeon W-3400: Up to 56 Overclockable Cores</h2><p>Intel&apos;s Xeon W-3400-series lineup will allegedly include nine models, four of which will be overclockable. Even the flagship Xeon W9-3495X is expected to come with an unlocked multiplier making for overclocking support. </p><div ><table><tbody><tr><td class="firstcol empty" ></td><td  >Cores/Threads</td><td  >Overclocking</td><td  >Memory</td><td  >PCIe Lanes </td></tr><tr><td class="firstcol " >Xeon W9-3495X</td><td  >56/112</td><td  >Yes</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W9-3475X</td><td  >36/72</td><td  >Yes</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W7-3465X</td><td  >28/56</td><td  >Yes</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W7-3455</td><td  >24/48</td><td  >No</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W7-3445</td><td  >20/40</td><td  >No</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W5-3435X</td><td  >16/32</td><td  >Yes</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W5-3433</td><td  >16/?</td><td  >No</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W5-3425</td><td  >12/24</td><td  >No</td><td  >8-channel DDR5</td><td  >112 Lanes </td></tr><tr><td class="firstcol " >Xeon W5-3423</td><td  >12/?</td><td  >No</td><td  >8-channel DDR5</td><td  >112 Lanes</td></tr></tbody></table></div><p>Linux boot logs unearthed earlier this year essentially confirm the existence of Intel&apos;s Xeon W-3400-series CPUs (which come with AVX-512 and AMX enabled). Still, they also mention the <a href="https://www.tomshardware.com/news/intel-56-core-xeon-w9-3495-spotted">Xeon W9-3495 (non-X) CPU clocked at 1.80 GHz base</a>, which Enthusiastic Citizen does not list. We have no idea whether Intel changed its plans concerning its Sapphire Rapids-WS lineup since July, but we are dealing with preliminary information, so some details may be inaccurate. </p><p>Intel&apos;s Xeon W-3400-series relies on Sapphire Rapids silicon, which will offer AVX-512 support and AMX instructions for artificial intelligence and machine learning applications. Advanced Matrix Extensions is a tiled matrix multiplication accelerator, a grid of fused multiply-add units supporting BF16 and INT8 input types that can be programmed using only 12 instructions and perform up to 1024 TMUL BF16 or 2048 TMUL INT8 operations per cycle per core.</p><p>Currently, there are no workstation-grade CPUs featuring up to 56 cores and AVX-512 instructions, so this will be a tangible advantage of Intel&apos;s X-3400-series processors over existing AMD&apos;s Ryzen Threadripper Pro 5000WX-series products. Meanwhile, AMD is working on the next-generation Zen 4-based <a href="https://www.tomshardware.com/news/ryzen-threadripper-7000-storm-peak-cpu-surfaces-with-64-zen-4-cores">Ryzen Threadripper Pro 7000WX family codenamed Storm Peak</a> that will also support AVX-512, but we have no idea when these CPUs are set to become available. </p><p>What will truly set Intel&apos;s Xeon W-3400 apart from the competition is AMX support since these instructions will make it extremely competitive in AI/ML and other types of matrix multiplication workloads. One may argue that workstations hardly run such applications, but someone has to develop and try AMX-supporting applications on something, and they will likely opt for a Xeon W-3400-based machine. Furthermore, once workstation programs learn how to use AMX properly, Sapphire Rapids-WS-based devices will have an advantage over the competition for some time.</p><h2 id="intel-xeon-w-2400-up-to-24-overclockable-cores">Intel Xeon W-2400: Up to 24 Overclockable Cores</h2><p>Intel&apos;s Xeon W-2400-series family will reportedly comprise eight SKUs, four of which will be overclockable. While we cannot state this for sure, but we suspect that the W2000-series will use Intel&apos;s <a href="https://www.tomshardware.com/news/intels-unannounced-34-core-raptor-lake-cpus-displayed-on-wafer">34-core Raptor Lake-S silicon</a>. Meanwhile, even the range-topping Xeon W7-2495X features 24 cores with Hyper-Threading. Perhaps, Intel yet has to disclose additional Xeon W-2400-series models with higher core counts to partners. Or maybe the company decided to sacrifice eight cores for additional yields, clocks, or perhaps decent clocks for AVX-512. </p><p>Three interesting SKUs that Intel allegedly has in the Xeon W-2400 lineup are the eight-core W5-2435 as well as the six-core W3-2425 and W3-2423 processors. Assuming that these chips can be <a href="https://www.tomshardware.com/news/overclocker-exposes-hack-to-overclock-locked-alder-lake-cpus">overclocked by raising BCLK frequency</a> (we are not sure this will work on a workstation-grade W790 platform, but who knows?), they will certainly attract the attention of the world&apos;s top professional overclockers. Meanwhile, we can only wonder whether these parts will be successful commercially or share the fate of Intel&apos;s <a href="https://www.tomshardware.com/news/intel-discontinues-kaby-lake-x-processors,36985.html">Kaby Lake-X processors</a> for the X299 platform aimed at enthusiasts. </p><p>It is noteworthy that the Xeon W4-242<strong>3</strong> processor does not support Hyper-Threading, according to Enthusiastic Citizen, which is a big surprise for a 2023 workstation processor. Interestingly, there are also Xeon W5-343<strong>3</strong> and W5-342<strong>3</strong> processors in the 3400-series family, but there is no word whether they support simultaneous multithreading.</p><h2 id="worthy-contender-maybe">Worthy Contender? Maybe</h2><p>Intel&apos;s Xeon W-3000 and W-2000-series processors could give AMD&apos;s Ryzen Threadripper Pro a good run for their money if the information is correct. Yet, while Enthusiastic Citizen tends to be very accurate and therefore has a good reputation, we are still dealing with unofficial information, so take it with a grain of salt. </p><p> </p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ AMD Takes Jab at Intel Over LGA1700 Platform Longevity ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/amd-takes-jab-at-intel-over-lga1700-platform-longevity</link>
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                            <![CDATA[ In a new blog spot, AMD compares its AM5 platform against Intel's LGA1700 platform in terms of costs, longevity, and value. ]]>
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                                                                        <pubDate>Wed, 23 Nov 2022 18:28:54 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:11:27 +0000</updated>
                                                                                                                                            <category><![CDATA[Motherboards]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                <p>In a new <a href="https://community.amd.com/t5/gaming/let-s-talk-desktop-pcs-is-your-platform-an-investment-or-a/ba-p/560176" target="_blank">blog post</a>, AMD compares the company’s latest <a href="https://www.tomshardware.com/features/x670-motherboard-overview">AM5</a> platform against Intel’s LGA1700 platform in terms of costs, longevity, and value. However, the Red Team didn’t miss the chance to take a jab at its competition, stating that Intel platforms are limited to one or two generations of processors.</p><p>The motherboard is one of the most expensive components inside a system. So it makes sense that consumers want to get the most out of their investment. With AM4, AMD has proven a single socket is more than sufficient to provide generation-over-generation performance uplifts. The chipmaker introduced AM4 in 2016, and the platform has housed several generations of Ryzen processors since its inception. As a result, AMD provided an example of how a consumer who brought a Ryzen 3 1300 in 2017 can upgrade to a <a href="https://www.tomshardware.com/reviews/amd-ryzen-7-5800x3d-review">Ryzen 7 5800X3D</a>, one of the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPUs</a>, in 2022 without hiccups.</p><p>“The competition, on the other hand, makes no commitments to future upgrade support on their latest LGA 1700 platform. Intel has consistently limited platforms to one or two processors, so users who buy a 12th or 13th Gen Intel Core platform will likely have to spend a lot more money on a whole new motherboard if they want to upgrade to a 14th Gen processor or beyond,” wrote AMD in the blog post.</p><p>However, one thing is future support, and another is performance. Unfortunately, the future is uncertain, and AMD can&apos;t guarantee it’ll be in the lead or more price-competitive in the future. The counterweight is that forward compatibility may not be as crucial if the next generation of Ryzen processors is slower than the competition. Nonetheless, it’s a feature that Ryzen owners will appreciate since they can upgrade to a newer chip that offers better performance over the existing one. One thing to note is that AM4 lacked connectivity compared to Alder Lake, and its power delivery for AM4 created limits, so it couldn&apos;t push chips faster. So, that&apos;s a limitation, and it is possible that there could be future limitations with the AM5 platform as well.</p><p>From a longevity standpoint, AMD is undoubtedly more committed to offering future processor support on its platforms. If we turn back the hands of time, the <a href="https://www.tomshardware.com/reviews/mother-cpu-charts-part-1,943-23.html">LGA775</a> was one of Intel’s most long-lived platforms, which lasted seven years. So, it’s been a while since we’ve seen an Intel platform support more than two generations of processors. Likewise, the <a href="https://www.tomshardware.com/reviews/intel-z170-lga-1151-skylake-motherboard,4254.html">LGA1151</a> platform was the last to provide housing to <a href="https://www.tomshardware.com/reviews/skylake-intel-core-i7-6700k-core-i5-6600k,4252.html">Skylake</a>, <a href="https://www.tomshardware.com/reviews/intel-kaby-lake-core-i7-7700k-i7-7700-i5-7600k-i5-7600,4870.html">Kaby Lake</a>, <a href="https://www.tomshardware.com/reviews/intel-coffee-lake-i7-8700k-cpu,5252.html">Coffee Lake</a>, and <a href="https://www.tomshardware.com/news/intel-9th-gen-desktop-cpu-coffee-lake,39138.html">Coffee Lake Refresh</a> chips. However, consumers still needed to change motherboards despite Intel sticking with the LGA1151 socket. In addition, there were unofficial workarounds to get previous processors to work on newer motherboards. Obviously, Intel disapproved of these bootleg firmwares.</p><p>Thus far, the LGA1700 platform supports <a href="https://www.tomshardware.com/features/intel-shares-alder-lake-pricing-specs-and-gaming-performance">Alder Lake</a> and <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a> processors. It’s unlikely it’ll support Intel’s upcoming 7nm <a href="https://www.tomshardware.com/news/intels-meteor-lake-cpus-may-arrive-with-ray-tracing-hardware">Meteor Lake</a> chips, which will arrive in 2023. There are already leaked images of the <a href="https://www.tomshardware.com/news/intels-lga1800-socket-spotted">LGA1800</a> socket, which reportedly share the exact dimensions of the LGA1700 socket. Meanwhile, AMD has confirmed that AM5 will have a long life span comparable to AM4, so AMD 600-series motherboard owners can rest easy knowing they don’t have to shell out more money for AMD’s next-generation Ryzen parts. </p><p>“We’ve been extremely pleased with how AM4 has evolved. When we started in 2017 we said we would keep that socket for a long time, and we have. We continue to believe that it’s been good for the community. It’s been good for us as well, as we bring things along. It was time to do a socket transition for the new I/O and the new technology, but I think strategy-wise, it should be similar. I don’t have an exact number of years, but I would say that you should expect AM5 to be a long-lived platform as AM4 has been, and as AM4 will be. We’re expecting AM4 to stay in the marketplace for some years and have an overlapping type of thing,” stated AMD CEO Dr. Lisa Su in a virtual press event at CES 2022.</p><p>AMD’s other argument is that the company’s “reasonably priced” B650E chipset offers more benefits than Intel’s premium <a href="https://www.tomshardware.com/news/asrock-z790-h770-supports-both-ddr4-and-ddr5">Z790</a> chipset. If we look at the raw bandwidth, AMD B650E motherboards promise total bandwidth for PCIe 5.0 graphics cards and storage devices installed on the same motherboard. In comparison, the Intel Z790 motherboard loses 50% of the graphics card bandwidth when a PCIe 5.0 SSD is installed on the same motherboard. The primary expansion slot drops from an x16 connection to an x8 link. While AMD makes this limitation a bigger deal than it is, modern high-performance graphics cards, such as the <a href="https://www.tomshardware.com/reviews/nvidia-geforce-rtx-4090-review">GeForce RTX 4090</a>, are more than happy on a PCIe 5.0 x8 interface.</p><p>AMD B650E motherboards start at $240. In contrast, the cheapest Intel Z790 motherboard retails for $180. However, for the more budget-conscious buyers, B650 motherboards typically go as low as $150.</p><iframe src="https://content.jwplatform.com/players/4Z0km6XF.html" id="4Z0km6XF" title="Buy the Right Motherboard" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Hit with Another $949 Million Verdict in Patent Infringement Trial ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-hit-with-another-949-million-verdict-in-patent-infringement-trial</link>
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                            <![CDATA[ Intel must pay VLSI $949 million for infringing a chip patent, Texas jury rules. ]]>
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                                                                        <pubDate>Wed, 16 Nov 2022 17:17:11 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:55:49 +0000</updated>
                                                                                                                                            <category><![CDATA[Semiconductors]]></category>
                                                    <category><![CDATA[Tech Industry]]></category>
                                                    <category><![CDATA[Manufacturing]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>A federal jury in Texas this week ordered Intel to pay VLSI Technology nearly $949 million for infringing a patent with its processors, according to a <a href="https://www.reuters.com/legal/intel-hit-with-9488-mln-us-verdict-vlsi-computer-chip-patent-trial-2022-11-15/">Reuters</a> report. Intel disagreed with the verdict and will appeal. </p><p>VLSI asserts that Intel&apos;s Skylake and Cascade Lake processors violated its patents covering a CPU innovation and its lawyers say that the violations cause &apos;millions and millions of infringements per second.&apos; Intel argues that its Skylake and Cascade Lake CPUs use technologies developed in-house and that the patent VLSI acquired from NXP cannot cover modern processors. </p><p>Based on court records accessed via <a href="https://pcl.uscourts.gov/pcl/pages/search/results/cases.jsf?sid=d740cc9bff4d4ec1adca934ff2548ed8">PACER</a>, VLSI is accusing Intel of infringing its <a href="https://patents.google.com/patent/US7247552B2/en">7,242,552</a> patent, which covers a method for lessening the problems of defects caused by stress applied to bond pads. The technique includes adding dummy metal lines to interconnect layers to increase their density before producing other layers. </p><p>This is not the first time Intel has lost in court to VLSI. In March 2021, a district judge in Waco, Texas, <a href="https://www.tomshardware.com/news/intel-ordered-to-pay-dollar22-billion-in-damages-for-patent-infringement">ordered Intel to pay VLSI $2.18 billion</a> for infringing two of its patents related to frequency management and lowering memory voltage. The patents were originally filed by SigmaTel and Freescale. Intel <a href="https://www.tomshardware.com/news/intel-loses-a-trial-with-vlsi">failed to overturn the ruling</a> in Aug. 2021.  </p><p>Intel and VLSI have a large scale ongoing legal battle in different courts across the U.S. and abroad. VLSI accused Intel of infringing 19 of its patents that originate from Freescale, SigmaTel, and NXP. Some of the claims have been dismissed by judges, but many cases are still ongoing. </p><p>VLSI is controlled by Fortress Investment Group, a private equity firm, which is owned by SoftBank. SoftBank also owns Arm. Intel and Apple have accused VLSI, Fortress, and their affiliates of unlawful patent aggregation.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ New Alder Lake-N Chips Could Be First Without Pentium/Celeron Badging ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/alder-lake-n-deletes-pentium-celeron-badging</link>
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                            <![CDATA[ A new report indicates Intel's upcoming Alder Lake-N entry-level mobile processors will be the first to come with the new "Intel Processor" nomenclature, set to replace Pentium and Celeron. ]]>
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                                                                        <pubDate>Tue, 20 Sep 2022 13:28:02 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:11:23 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p>According to a report by <a href="https://www.coelacanth-dream.com/posts/2022/09/17/intel-branding/">Coelacanth&apos;s Dream,</a> a couple of new Alder Lake-N processor names have been discovered in an Intel graphics bootlog. These chips are known as the N100 and N200. Traditionally, the &apos;N&apos; badging would signify a Celeron or Pentium product; however, there is no such terminology to be found this time. That leads the outlet to believe these chips will be the first to incorporate Intel&apos;s new "Intel Processor" brand name.</p><p>A few days ago<a href="https://www.tomshardware.com/news/intel-retires-celeron-and-pentium-brands-for-laptops">,</a> Intel announced that it would <a href="https://www.tomshardware.com/news/intel-retires-celeron-and-pentium-brands-for-laptops">retire the 20-year-old Pentium and Celeron</a> naming scheme. In its place, Intel will use a very generic "Intel Processor" term. Starting in 2023, Intel Processor will represent all of Intel&apos;s budget-friendly CPUs, which are cheaper and less powerful than the Core i3 lineup.</p><p>The most notable hint at the name change is the drastically different model numbers found with the N100 and N200. Previous chips have used four digits plus the N to signify a full model name - such as the Pentium N6000. But here we see a reduction of the thousandth digit to hundreds only, signifying these chips could use the &apos;Intel processor&apos; name instead.</p><p>The name change would be appropriate for the new CPUs, as these chips are believed to be a part of Intel&apos;s new budget-friendly Alder Lake-N architecture — built to replace current Pentium and Celeron Jasper Lake CPUs.</p><p>Alder Lake-N will be built on the same Gracemount cores found in Alder Lakes E-cores, with a maximum configuration of eight cores on the flagship model. As a result, these chips won&apos;t be particularly fast compared to today&apos;s chips. However, they will be very efficient and incredibly compact yet still retain performance akin to Intel&apos;s Skylake parts. That&apos;s a perfect combination for Chromebooks and entry-level Windows laptops.</p><p>According to the bootlog data, the N100 and N200 are quad-core parts with no hyperthreading. Naturally, we should expect a flagship eight-core eight-thread part to be in the works to complete the lineup. The release date for Alder Lake-N is expected to be in 2023.</p>
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                                                            <title><![CDATA[ Rare Intel Cannon Lake CPU Emerges With Three Chiplets ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/rare-intel-cannon-lake-cpu-emerges-with-three-chiplets</link>
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                            <![CDATA[ A new Cannon Lake "Special Samples" prototype CPU has emerged, showcasing a third die featuring integrated voltage regulation functionality. ]]>
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                                                                        <pubDate>Sun, 21 Aug 2022 18:28:56 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:06:30 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p>A mysterious Intel <a href="https://www.tomshardware.com/news/intel-removing-cannon-lake-driver-linux">Cannon Lake</a> prototype processor has surfaced in the wild, rocking up to three chiplets. Hardware leaker <a href="https://twitter.com/yuuki_ans/status/1561247547116511232" target="_blank">YuuKi_AnS</a> shared the images on Twitter, and CPU expert <a href="https://twitter.com/SkyJuice60/status/1561250164433596422" target="_blank">SkyJuice60</a> detailed the third die&apos;s function.</p><p>The third chiplet reportedly serves as the CPU&apos;s Integrated Voltage Regulator (IVR), a feature that originated with Intel&apos;s <a href="https://www.tomshardware.com/reviews/core-i7-4770k-haswell-review,3521.html">Haswell</a> (and <a href="https://www.tomshardware.com/reviews/core-i7-4790k-devils-canyon-overclock-performance,3845.html">Devil&apos;s Canyon</a>) 4th Generation CPU architecture several years ago. But Cannon&apos;s implementation is known as a Multi-Chip Integrated Voltage Regulator (McIVR) due to the additional die.</p><p>IVR first debuted in Intel&apos;s 4th Generation Haswell architecture in 2013. IVR changed the way the motherboard and processor handled the power delivery. It transferred the CPU voltage regulation directly into the CPU die from the motherboard.</p><p>Intel said this greatly simplified the Haswell platform&apos;s power delivery design, with IVR being able to replace five voltage regulators on the mainboard down to just one inside the CPU. Another benefit to this design includes finer-grain voltage control for the processor. But in the end, Intel canceled IVR on all mainstream desktop architectures following 5th Generation Broadwell chips for unknown reasons. However, we believe its removal was related to thermal issues and die size constraints. Nonetheless, IVR reappeared in other architectures following Haswell, including a few mobile architectures and Intel&apos;s <a href="https://www.tomshardware.com/reviews/-intel-skylake-x-overclocking-thermal-issues,5117-2.html">Skylake-X</a> HEDT architecture.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/uSdMqg79EweTPVADzunhBN.jpg" alt="Cannon Lake CPU" /><figcaption>Cannon Lake CPU<small role="credit">YuuKi_AnS/Twitter</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/8n2QYYyaiH4dGW6ppNhxsM.jpg" alt="Cannon Lake CPU" /><figcaption>Cannon Lake CPU<small role="credit">YuuKi_AnS/Twitter</small></figcaption></figure></figure><p>It would seem that Intel also had plans to integrate IVR into its Cannon Lake mobile processors, with this prototype being proof of the idea. But, what makes IVR unique in Cannon Lake is its multi-chip implementation.</p><p>The approach makes a lot of sense from Intel&apos;s perspective and could significantly improve the chip&apos;s voltage headroom and temperature limitations. Previous IVR designs, particularly on Haswell, made the chip extra hot since the CPU cooler now had to deal with heat from the voltage regulator and the CPU cores, integrated graphics, and the CPU cache combined.</p><p>It wasn&apos;t a big deal for regular users, but it did become problematic with many overlockers having temperature limitations instead of voltage limitations on mid-range air coolers.</p><p>On a mobile chip, the situation is very similar to overlockers. CPU coolers on notebooks are much smaller than desktop coolers, and as a result, you want as much thermal efficiency as possible from the CPU. Moving IVR to a separate die would do just that and disperse the heat to a different area, allowing the CPU cooler to handle heat transference more effectively.</p><p>It&apos;s a shame this triple chiplet design never came to the market. Cannon Lake was one of Intel&apos;s worst, if not the worst, architecture ever released, featuring a horrible implementation of Intel&apos;s first <a href="https://www.tomshardware.com/news/intel-process-tech-lag-competitors-late-2021-leadership-5nm">10nm</a> process (now rebranded to Intel 7), less than two years of support, and only one CPU supporting the architecture.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Tiny, 4-Inch Motherboard Can Run a Xeon W Workstation CPU ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/aaeon-TGH7-xeon-w-board</link>
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                            <![CDATA[ A tiny embedded system that supports a range of Intel processors. ]]>
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                                                                        <pubDate>Mon, 15 Aug 2022 12:58:18 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:50:23 +0000</updated>
                                                                                                                                            <category><![CDATA[Motherboards]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Ian Evenden ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/dY5MGBXCT6GV6ARt8oSiSj.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Ian is a UK-based news writer for Tom’s Hardware US. In 1992, he was given a 286-based PC because his parents hoped he’d become a programmer, and was instantly hooked despite the vagaries of MS-DOS. Pretty soon there was a 386 with Windows 3.1, a CD-ROM, and Sound Blaster card under the desk, followed by Pentium II, Athlon, i7 and Threadripper systems, most of which he built himself. After a brief eight-year dalliance with games consoles at Edge magazine, he began contributing to the likes of Maximum PC, PC Gamer, Windows Help and Advice and a few other magazines that have since closed - none of which were directly his fault. His desk today is a riot of PC monitors, Apple products, Raspberry Pi boards, purple unicorns, game controllers and camera lenses. He has no idea about programming.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[The Aaeon TGH7 ]]></media:description>                                                            <media:text><![CDATA[The Aaeon TGH7 ]]></media:text>
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                                <p>Lately, we&apos;re seeing a slew of small systems with <a href="https://www.tomshardware.com/news/shuttle-barebones-workstation" target="_blank">with big processors</a> seem, so we were weren&apos;t too surprised to see the <a href="https://www.aaeon.com/en/p/epic-boards-epic-tgh7" target="_blank">Aaeon EPIC-TGH7 SBC</a> reported in the pages of <a href="https://www.cnx-software.com/2022/08/15/aaeon-epic-tgh7-sbc-supports-up-to-intel-xeon-w-11865mre-tiger-lake-h-processor/" target="_blank">CNX Software</a>. This four-inch (165 x 115mm) board has a list of compatible processors that begins with the Intel Celeron 6600HE, but which makes its way through the i-numbers to the mighty Xeon W 11865MRE. </p><p>None of these processors would make our list of the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPUs for gaming</a>. However, the config with the Xeon W 11865MRE promises workstation class power on a motherboard that&apos;s significantly smaller than a mini ITX motherboard (170 x 170 mm), the smallest mainstream size.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/SUtzJ5pkpa3eMdxYBqkmiX.jpg" alt="The Aaeon TGH7 " /><figcaption><small role="credit">Aaeon</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/8gZRvaYAjFCRUdfjem93nX.jpg" alt="The Aaeon TGH7 " /><figcaption><small role="credit">Aaeon</small></figcaption></figure></figure><p>The TGH7 appears to come with the Tiger Lake H CPU+GPU combo soldered to the board; only the i3 and i7 models are listed on Aaeon’s site, and they’re both out of stock at the time of writing. But theoretically you could get one with a Xeon W installed, and run ECC memory with it too. This appears to be the only benefit of the workstation chip, which in every other way is identical to the i7 11850HE.</p><p>These two hot chips (their temperature rating tops out at 100°C or 212°F) both run to eight cores and 16 threads, with a top boost speed of 4.7 GHz, two memory channels, and identical integrated graphics. They both draw the same 45W, and don&apos;t appear to come with any cooling solutions, though holes for a CPU fan are visible on the board.</p><p>Elsewhere on the board, you’ll find a lot of ports crammed into the small space. There are two DisplayPorts and an HDMI port, four USB 3.2 Type-A sockets, a pair of Ethernet ports - one gigabit, the other 2.5Gb - a pair of SATA ports, a PCIe 4.0 x8 slot supplying a maximum of 25W, and two M.2 slots, one of which can take NVMe storage, while the other is for optional modules such as Wi-Fi and Bluetooth, or a cellular modem. </p><p>Drivers for Windows 10 are available, raising hopes it will work under Windows 11 as well, while a single ‘peripheral’ driver exists for Ubuntu 20.04.2. </p><p>Assuming availability picks up a bit, you should be able to get the boards direct from Aaeon’s eshop, with pages online for the <a href="https://eshop.aaeon.com/epic-boards-epic-tgh7-i3-epic-tgh7-a10-0004.html" target="_blank">i3 ($812)</a> and <a href="https://eshop.aaeon.com/epic-boards-epic-tgh7-i7-EPIC-TGH7-A10-0002.html" target="_blank">i7 ($1,167)</a> boards. </p><p><br></p>
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                                                            <title><![CDATA[ Shuttle's New SW580R8 Barebones Workstation Supports Xeon W CPUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/shuttle-barebones-workstation</link>
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                            <![CDATA[ Small-form-factor PC maker Shuttle has announced a workstation case with an Intel W580 chipset. ]]>
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                                                                        <pubDate>Tue, 09 Aug 2022 15:30:00 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:44:41 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Ian Evenden ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/dY5MGBXCT6GV6ARt8oSiSj.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Ian is a UK-based news writer for Tom’s Hardware US. In 1992, he was given a 286-based PC because his parents hoped he’d become a programmer, and was instantly hooked despite the vagaries of MS-DOS. Pretty soon there was a 386 with Windows 3.1, a CD-ROM, and Sound Blaster card under the desk, followed by Pentium II, Athlon, i7 and Threadripper systems, most of which he built himself. After a brief eight-year dalliance with games consoles at Edge magazine, he began contributing to the likes of Maximum PC, PC Gamer, Windows Help and Advice and a few other magazines that have since closed - none of which were directly his fault. His desk today is a riot of PC monitors, Apple products, Raspberry Pi boards, purple unicorns, game controllers and camera lenses. He has no idea about programming.&lt;/p&gt; ]]></dc:description>
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                                <p>Taiwanese tiny-PC company Shuttle has announced <a href="https://www.shuttle.eu/en/press/press-releases/20220809-xeon-compatible-mini-pc-barebone-with-4x-lan-and-ecc-ram-support" target="_blank">via its EU site</a> a new model in its XPC Barebone line, capable of accepting Intel Xeon W processors, sporting four Ethernet ports, and the first Shuttle PC compatible with error-correcting RAM.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/sHiuXjHPkCwjJKpRWgEXHP.jpeg" alt="Shuttle SW580R8" /><figcaption><small role="credit">Shuttle</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/EiFxuHHQsRgbr54YaP3aAP.jpeg" alt="Shuttle SW580R8" /><figcaption><small role="credit">Shuttle</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/6jNH3KNhE9rvr8qtyU4Q7P.jpeg" alt="Shuttle SW580R8" /><figcaption><small role="credit">Shuttle</small></figcaption></figure></figure><p><a href="https://www.shuttle.eu/en/products/cube/sw580r8" target="_blank">The SW580R8</a> isn&apos;t going to win any prizes for its name, but it&apos;s innovative in other ways. Extremely compact, as is the Shuttle way, the case comes with just the motherboard and PSU included - it&apos;s up to the customer to provide their own CPU, RAM sticks and graphics. It&apos;s small, but not as small as <a href="https://www.tomshardware.com/news/shuttle-alder-lake-xpc-slim-dh670" target="_blank">some we&apos;ve seen</a>.</p><p>The included chipset is Intel&apos;s W580, a product aimed at workstations and capable of housing Intel&apos;s 10th and 11th gen Xeon W processors, which in their <a href="https://www.tomshardware.com/news/intel-xeon-e-2300-list-leaks" target="_blank">Rocket Lake</a> incarnation have six or eight hyper-threading cores, turbo speeds up to 5.3GHz, and draw up to 125W. Of course, you don&apos;t have to accept this much processing power; however: anything down to a Celeron G5905 can also be fitted.</p><p>The Xeon W chips all come with an Intel UHD P750 integrated GPU, but the case can accommodate a PCIe 4.0 x16 dual-slot AIB. There are four RAM slots, for a maximum of 128GB of ECC RAM, and a plethora of ports, including one HDMI 2.0b, two DisplayPort 1.4, four 10Gbit USB 3.2 plus a 5 Gbit USB 3.2 Type C. There are three USB 3.2 and four USB 2.0 Type-A ports too, audio around the back, and four Ethernet sockets (two of which are 2.5Gbps and the others plain old gigabit). One supports vPro and AMT, Intel&apos;s Active Management Technology, which can provide remote management even when the PC is switched off.</p><p>Inside, you can fit six drives by exploiting every port, and the case comes with a cooling system designed to keep it all cool. Accessories include wireless upgrade kits, an installation frame for hard drives, and an uprated 850W power supply should the built-in 500W unit prove insufficient. This is a small black cube with a lot of power inside, measuring just 33.2 x 21.5 x 19.0 cm (13 x 8.5 x 7.5 inches).</p><p>The recommended price is 483 Euros, which converts to $495 thanks to the current closeness of the two currencies. The case should be available from specialist retailers imminently.</p>
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                                                            <title><![CDATA[ Intel Ends Day 0 Game GPU Driver Support For 10th Gen and Older CPUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-ends-day-0-game-gpu-driver-support-for-10th-gen-and-older-cpus</link>
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                            <![CDATA[ Intel 6th to 10th Generation processors will now receive quarterly software updates. ]]>
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                                                                        <pubDate>Thu, 28 Jul 2022 03:08:19 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:05:26 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                <p><a href="https://community.intel.com/t5/Graphics/Graphics-Driver-Support-Update-for-10th-Generation-and-Older/m-p/1403969/thread-id/108899" target="_blank">Intel has revamped</a> how it will deliver graphics driver updates to modern and legacy processors. The chipmaker has decided to move its 6th to 10th Generation processors to a legacy support model.</p><p>Under the new model, Intel will only provide critical fixes and security vulnerabilities for processors from the <a href="https://www.tomshardware.com/news/intel-retires-6th-generation-skylake-cpus-processors,38751.html">Skylake</a> to <a href="https://www.tomshardware.com/news/intel-comet-lake-s-cores-53-ghz-high-power-better-pricing">Comet Lake</a> family. That means that the aforementioned processors will no longer receive Day 0 game support updates. The change applies to all the SKUs in the lineup, including Core, Atom, Celeron, and Xeon chips. Instead, Intel will deploy the software updates quarterly or when it needs to address critical issues or security vulnerabilities.</p><p>Intel&apos;s 11th Generation <a href="https://www.tomshardware.com/news/intel-11th-gen-rocket-lake-s-specifications-pricing">Rocket Lake</a> and newer processors will be the only chips to continue to enjoy Day 0 game support. Intel expects to launch regular updates through a standard monthly cadence.</p><p>The Intel Graphics Driver will now pack two drivers in the same package. It&apos;ll contain driver files for Intel&apos;s 10th Generation processors and older and driver files for 11th Generation chips and newer. Installation remains the same: you download and run the executable. The executable automatically picks the adequate driver for your system, so you don&apos;t have to ponder which one to install.</p><p>It makes sense why Intel would drop support for Skylake since the 14nm chips came out seven years ago. It seems odd, however, that Intel would forsake Comet Lake too since the processors are relatively new and only debuted two years ago. Although Intel&apos;s integrated graphics solution has improved tremendously over the years, we don&apos;t expect anyone to use an Intel iGPU for serious gaming. According to the latest <a href="https://store.steampowered.com/hwsurvey/videocard/" target="_blank">Steam Hardware Survey</a>, less than 2% of Steam users are gaming on Intel&apos;s UHD Graphics. Intel&apos;s new graphics driver model shouldn&apos;t affect most consumers since the chipmaker will continue to offer security updates. It&apos;s just that the old iGPUs won&apos;t have access to new games.</p><h2 id="list-of-affected-intel-processors">List of Affected Intel Processors</h2><ul><li>10th Generation Intel® Core® processors with Intel® Iris® Plus graphics (Codename Ice Lake)</li><li>10th Generation Intel® Core® processors with Intel® UHD Graphics (Codename Comet Lake)</li><li>9th Generation Intel® Core® processors, related Pentium®/Celeron® processors, and Intel® Xeon® processors, with Intel® UHD Graphics 630 (Codename Coffee Lake-R)</li><li>8th Generation Intel® Core® processors, related Pentium®/ Celeron® processors, and Intel® Xeon® processors, with Intel® Iris® Plus Graphics 655 and Intel® UHD Graphics 610, 620, 630, P630 (Codename Kaby Lake-R, Coffee Lake)</li><li>Intel Pentium® and Celeron® processor family (Codename Gemini Lake)</li><li>7th Generation Intel® Core® processors, related Pentium®/Celeron® processors, and Intel® Xeon® processors, with Intel® Iris® Plus Graphics 640, 650 and Intel® HD Graphics 610, 615, 620, 630, P630 (Codename Kaby Lake)</li><li>6th Generation Intel® Core®, Intel® Core® M, and related Pentium® processors with Intel Iris® Graphics 540, Intel® Iris® Graphics 550, Intel® Iris® Pro Graphics 580, and Intel® HD Graphics 510, 515, 520, 530 (Codename Skylake)</li><li>Intel® Pentium® Processor family and Intel® Celeron® Processor family (Codename Jasper Lake),</li><li>Intel® Core® Processor with Intel® Hybrid Technology (Codename Lakefield)</li><li>Intel® Atom®, Pentium® and Celeron® processor family (Codename Elkhart Lake)</li></ul><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ 32-Bit Linux Won't Get Patched for Latest Intel Vulnerabilities ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/32-bit-linux-not-patched-intel-vulberabilites</link>
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                            <![CDATA[ The amount of work involved in fixes means that the 32-bit Linux kernel won’t be getting the same treatment as the 64-bit version of the OS. ]]>
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                                                                        <pubDate>Mon, 25 Jul 2022 16:06:21 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:44:38 +0000</updated>
                                                                                                                                            <category><![CDATA[Linux]]></category>
                                                    <category><![CDATA[Software]]></category>
                                                    <category><![CDATA[Operating Systems]]></category>
                                                                                                                    <dc:creator><![CDATA[ Ian Evenden ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/dY5MGBXCT6GV6ARt8oSiSj.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Ian is a UK-based news writer for Tom’s Hardware US. In 1992, he was given a 286-based PC because his parents hoped he’d become a programmer, and was instantly hooked despite the vagaries of MS-DOS. Pretty soon there was a 386 with Windows 3.1, a CD-ROM, and Sound Blaster card under the desk, followed by Pentium II, Athlon, i7 and Threadripper systems, most of which he built himself. After a brief eight-year dalliance with games consoles at Edge magazine, he began contributing to the likes of Maximum PC, PC Gamer, Windows Help and Advice and a few other magazines that have since closed - none of which were directly his fault. His desk today is a riot of PC monitors, Apple products, Raspberry Pi boards, purple unicorns, game controllers and camera lenses. He has no idea about programming.&lt;/p&gt; ]]></dc:description>
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                                <p>Users of 32-bit Linux distributions have another reason to consider an upgrade following the news that their kernels will not be patched against the latest speculative execution attack, known as <a href="https://comsec.ethz.ch/research/microarch/retbleed/">Retbleed</a>. The attack, classified as <a href="https://www.cve.org/CVERecord?id=CVE-2022-29900">CVE-2022-29900</a> and <a href="https://www.cve.org/CVERecord?id=CVE-2022-29901">CVE-2022-29901</a>, has led to a number of Linux patches, according to reporting from <a href="https://www.phoronix.com/news/Linux-x86-Retbleed">Phoronix</a>.</p><div class="youtube-video" data-nosnippet ><div class="video-aspect-box"><iframe data-lazy-priority="low" data-lazy-src="https://www.youtube-nocookie.com/embed/dmSPvJxPm80" allowfullscreen></iframe></div></div><p>A variant of <a href="https://www.tomshardware.com/news/cpu-security-flaw-everything-spectre-meltdown,36237.html">Spectre</a>, Retbleed exploits one of the mitigations against such attacks, and affects particular x86-64 (AMD Zen 1/1+/2 and Intel Core 6th through 8th Gen). It has been addressed in a 64-bit Linux kernel update (and Windows users should already have received mitigations). But the amount of work involved means that the 32-bit Linux kernel won’t be getting the same treatment.</p><p>The attack exploits retpolines, a mitigation against Spectre introduced in 2018 that’s a portmanteau word of ‘return’ and ‘trampoline’. The original attack used indirect branches in a processor’s speculative execution system to steal information from the system memory through branch mispredictions leaking data. But retpolines replaced these branches with a return that uses a never-executed infinite loop to prevent a processor from speculating on the target of an indirect jump.</p><p>These retpolines can now be bypassed by the new exploit, leading to arbitrary information leaking from a computer’s memory. While at least one proof-of-concept exploit using Retbleed has been coded, it’s unknown if the exploit is at large on the internet.</p><p>Responding to queries on the lore.kernel.org mailing list, Intel’s Pawan Gupta wrote: "Intel is not aware of production environments that use 32-bit mode on Skylake-gen CPUs. So this should not be a concern.”</p><p>His colleague Peter Zijlstra added: "Yeah, so far nobody cared to fix 32-bit. If someone *realllllly* cares and wants to put the effort in I suppose I&apos;ll review the patches, but seriously, you shouldn&apos;t be running 32-bit kernels on Skylake / Zen based systems, that&apos;s just silly."</p><p>So the message is clear: If you’re running a 32-bit Linux distro on a Skylake-vintage CPU, stop it immediately and upgrade to 64bit.</p>
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                                                            <title><![CDATA[ AMD Threadripper Pro 5000WX Tested, Up to 35% Faster Than Zen 2 Counterparts ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/amd-ryzen-threadripper-pro-5000x-benchmarks</link>
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                            <![CDATA[ Puget Systems has tested AMD's Ryzen Threadripper Pro 5000WX CPUs and found them to be substantially faster than Threadripper 3000, despite core counts staying the same. ]]>
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                                                                        <pubDate>Fri, 24 Jun 2022 20:23:04 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:07:53 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p><a href="https://www.pugetsystems.com/labs/articles/AMD-Threadripper-PRO-5000-WX-Series-Content-Creation-Review-2338/">Puget Systems</a> recently tested AMD&apos;s new Ryzen Threadripper Pro 5000WX CPUs in several professional applications and found performance to be substantially better in most workloads compared to the older Ryzen Threadripper 3000 series. Several Intel chips were also tested, including the Xeon W 3000 series and i9-12900K. In the multi-core heavy applications, Threadripper 5000 dominated the best Intel can offer today.</p><p>Ryzen Threadripper 5000 is AMD&apos;s newly updated HEDT workstation platform running on AMD&apos;s Zen 3 architecture. Compared to Threadripper 3000, Threadripper 5000 offers significantly higher IPC performance, up to a 19 percent uplift, and a unified L3 cache per CCD which increases core responsiveness and performance in nearly all workloads. Core counts remain the same, but core frequencies have gone up.</p><p>In Puget Systems&apos; testing, the significantly quicker cores on Zen 3 Threadripper can make for considerable gains in heavily multi-threaded applications, despite core counts staying the same as the previous generation. This should be advantageous for all users since single-core heavy and multi-core heavy workloads can benefit from all of Threadripper 5000&apos;s performance improvements.</p><p>Testing includes the 64-core 5995WX, 32-core 5975WX, 24-core 5965WX, 64-core 3995WX, 32-core 3975WX, and 16-core 3955WX. For Intel parts, tests were conducted with the Xeon W series (W-3365, W-3345, W-3335, and Core i9-12900K) for testing single-core heavy workloads.</p><p>Starting with Premiere Pro, Puget Systems found the 5995WX, 5975WX and 5965WX all dominating the charts over AMD&apos;s Zen 2 counterparts and Intel&apos;s W-3345, and W-3335 processors. The only exception to this behavior was Intel&apos;s Core i9-12900K which scored the highest result, but the Zen 3 chips are behind by just a few percentage points. This shows us that Premiere Pro is a heavily single-threaded application and that AMD&apos;s Zen 3 chips can keep up even with Intel&apos;s Alder Lake CPUs.</p><p>The Threadripper 5000 Pro chips took away the lead by a long shot in Adobe After Effects, beating all of Intel&apos;s chips and AMD&apos;s Threadripper 3000 chips by a long shot.</p><p>Davinci Resolve shares similar behavior to After Effects, but all the chips are much closer to each other in performance. Nonetheless, all of AMD&apos;s Threadripper 5000 chips were ahead.</p><p>Adobe Photoshop sees another win for Intel&apos;s Core i9-12900K, beating out everyone, including Threadripper 5000. However, the Zen 3 chips do take 2nd place, beating out Intel&apos;s Xeon W lineup and AMD&apos;s Zen 2 counterparts. Photoshop is notorious for being highly single-threaded, which is why Intel&apos;s more superior IPC on Alder Lake beat out AMD&apos;s Zen 3 chips.</p><p>Adobe Lightroom Classic is somewhat an anomaly with the Zen 3 chips. The 24-core 5965WX and 32-core 5975WX easily take the win and beat all other chips tested. However, the 64-core 5995WX part takes up 5th place, as it was surprisingly outperformed by the previous-gen 32-core 3975WX and Core i9-12900K. Presumably, Lightroom&apos;s core management has issues with the 64 core model that isn&apos;t a problem in the lower core count SKUs.</p><p>Other notable benchmarks include Unreal Engine and Blender, both of which are very heavy multi-core applications. Overall, Ryzen Threadripper Pro 5000 sees a 15% performance improvement in both benchmarks over all SKUs compared to the previous generation. However, even when we compare Intel&apos;s Xeon parts, the 32-core W-3365 still lags behind AMD&apos;s 24-core 5965WX.</p><p>Overall, AMD&apos;s Ryzen Threadripper 5000WX CPUs are substantially quicker than Intel&apos;s workstation Xeons and AMD&apos;s Ryzen Threadripper 3000 parts, with a 15 to 45 percent performance improvement depending on the task. This makes Ryzen 5000WX a very viable solution in the workstation market and beats anything Intel can offer, and that&apos;s before we see how a <a href="https://www.tomshardware.com/how-to/how-to-overclock-a-cpu">CPU overclock</a> would weigh in. The only exception is the Core i9-12900K in specific Adobe applications, which are single-core biased. It will certainly be interesting to see how these chips fare against AMD&apos;s own <a href="https://www.tomshardware.com/news/amd-zen-4-ryzen-7000-release-date-specifications-pricing-benchmarks-all-we-know-specs">Ryzen 7000</a> when it arrives later this year.  </p>
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                                                            <title><![CDATA[ AVX-512 Patch Brings 30% Performance Uplift to PlayStation 3 Emulator ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/ps3-emulator-avx-512-30-percent-performance-boost</link>
                                                                            <description>
                            <![CDATA[ Large register file, data level parallelism, and proper compilers can do wonders ]]>
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                                                                        <pubDate>Mon, 20 Jun 2022 09:55:15 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:45:27 +0000</updated>
                                                                                                                                            <category><![CDATA[SSDs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                    <category><![CDATA[Storage]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p><a href="https://github.com/Whatcookie">Whatcookie</a>, a software developer behind <a href="https://rpcs3.net/">RPCS3</a>, a multi-platform open-source Sony PlayStation 3 emulator, has released a patch that makes use of AVX-512 instructions and brings a <a href="https://whatcookie.github.io/posts/why-is-avx-512-useful-for-rpcs3/">30% performance improvement</a> to the emulator. So far, AVX-512 instructions have not made much sense for games. But in the case of a PS3 emulator, a large register file of AVX-512-enabled hardware, data level parallelism, and the LLVM compiler can do wonders.</p><p>But before jumping in to how AVX-512 instructions make sense for RPCS3, something that Whatcookie explained in his detailed blog post, let&apos;s take a short dive in the recent history of computing.</p><p><br></p><p>When you need to emulate Cell, you need explicit parallelism and large file registers, a combination that AVX-512 CPUs feature. As it turns out, the LVVM compiler automatically chooses the best possible code path, which in case of AVX-512-enabled hardware means an appropriate code path. For obvious reasons (we are talking about emulation here at the end of the day) it is not exactly ideal, not all mask registers can be used, for example.</p><p>AVX-512 also adds new mask registers which can be optionally used with EVEX encoded instructions,” wrote Whatcookie. “There are new comparison instructions which generate a mask in the mask registers as the result of a comparison between vectors. When a mask register is used as an operand all of the elements not selected by the mask will either be zeroed or leave the existing value in the destination register untouched. There are 8 mask registers, through k0 - k7, however only k1 - k7 can be used to mask things out, as k0 implicitly behaves as if all elements are selected.”</p><p>Nonetheless, the numbers speak for themselves. A 30% performance uplift is significant. Some may ask why bother about this kind of optimization considering the fact that we are already at well above 120 frames per second on our <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best gaming CPU</a>,  Intel&apos;s Alder Lake Core i9-12900K? The answer is that there will be lower-power machines that will still benefit from this optimization. AMD&apos;s upcoming <a href="https://www.tomshardware.com/news/amd-zen-4-ryzen-7000-release-date-specifications-pricing-benchmarks-all-we-know-specs">Ryzen 7000</a> processors will also have AVX-512 acceleration. </p><p>When Sony introduced its PlayStation 3 based on the Cell CPU featuring one general-purpose Power core and eight synergistic processing elements (SPEs), a proprietary instruction set architecture with in order execution and 128-bit SIMD organization, the gaming industry was not exactly impressed since Cell was so much different than conventional processors of 2006. Something similar happened to Intel&apos;s AVX-512 instructions introduced with its 2013 Xeon Phi &apos;Knights Landing&apos; supercomputer accelerators and later added to Skylake-X desktop CPUs (and the appropriate generation of Xeon Scalable). </p><p>Thread level (multi-core/multi-thread) and data level parallelism (SIMD) are exceptionally good for high-performance computing (HPC), datacenter, encoding, and encrypting workloads, and even games, yet they are sometimes hard to exploit. Hardware base, code complexity, costs, time-to-market, and numerous other considerations drive decisions not to invest resources in development of software that would use every single client side CPU (or GPU) innovation that is out there. This approach to video games is considered good enough, which is one of the reasons why both Microsoft and Sony are on x86 (with AVX2, but without AVX-512) with a conventional Radeon graphics architecture.</p><iframe src="https://content.jwplatform.com/players/SzkW6ASo.html" id="SzkW6ASo" title="Buy the Right Graphics Card" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Microsoft Denies Windows 11 CPU Requirements Have Changed After 22H2 Gaffe ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/microsoft-denies-windows-11-cpu-requirements-have-changed-after-22h2-gaffe</link>
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                            <![CDATA[ Some Windows 10 insiders with unsupported hardware are being offered the latest Windows 11 22H2 release preview. Microsoft has sought to clarify that this is "a bug," and doesn't mark a change of policy. ]]>
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                                                                        <pubDate>Thu, 09 Jun 2022 16:48:05 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:48:55 +0000</updated>
                                                                                                                                            <category><![CDATA[Windows]]></category>
                                                    <category><![CDATA[Software]]></category>
                                                    <category><![CDATA[Operating Systems]]></category>
                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
&lt;br&gt;
Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
&lt;br&gt;
When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                <p>On Tuesday, Microsoft started to roll out Windows 11 22H2 to the release preview channel for enrolled insiders. It noted that this update was going to be offered to Windows 11 insiders only. However, <a href="https://www.neowin.net/news/people-on-unsupported-hardware-are-being-offered-windows-11-22h2-upgrade/">NeoWin</a> reports some Windows 10 users have been taken aback as the 22H2 update has been offered to them, even if their hardware is too old to meet <a href="https://www.tomshardware.com/news/microsoft-says-you-cannot-ignore-windows-11-requirements">Windows 11 hardware requirements</a>.</p><p>Microsoft&apos;s official <a href="https://blogs.windows.com/windows-insider/2022/06/07/releasing-windows-11-version-22h2-to-the-release-preview-channel/">blog post</a> about the release preview of Win 11 22H2 says "Insiders currently in the Release Preview Channel that meet the Windows 11 hardware requirements can go to Settings and Windows Update and choose to download and install Windows 11, version 22H2 Build 22621 if they want." This statement makes no mention of Windows 10 Insider testers, but it seems like updates have slipped through the net to offer updates to the newest build of Windows 11.</p><p>Several social media posters say they have been offered the headlining update for PC systems using Windows 10. A <a href="https://twitter.com/barbbowman/status/1534573201040322561">Twitter</a> user noted her Windows 10 release preview machine got offered Windows 11 version 22H2, as did a <a href="https://www.reddit.com/r/Windows11/comments/v798je/my_6700k_desktop_gtx_1080_32gb_ram_became/">Reddit</a> user and a number of people who replied to their post.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1366px;"><p class="vanilla-image-block" style="padding-top:56.22%;"><img id="" name="ace-rimmer.png" alt="Windows 11 22H2" src="https://cdn.mos.cms.futurecdn.net/cS3yyJqxh9joeEWbePSYo3.png" mos="" align="middle" fullscreen="1" width="1366" height="768" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/cS3yyJqxh9joeEWbePSYo3.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Ace RImmer on Reddit)</span></figcaption></figure><p>Many of the users inexplicably offered the latest Windows 11 insider update were running 7th gen Intel Core processors (Kaby Lake), which are just one generation below <a href="https://www.tomshardware.com/how-to/bypass-windows-11-tpm-requirement">qualifying for support</a> by this metric. There were reports of 7th gen and 6th gen (Skylake) Intel Core processor based machines being offered the update and going ahead with it, with no known issues to date. Those with even older gen hardware appear to have had had less success with fewer update offers, and the chance of update success seems to be diminished the further a machine wanders away from the official supported specs.</p><h2 id="microsoft-its-quot-a-bug-quot-not-a-feature">Microsoft: Its "A Bug," Not a Feature</h2><p>With the above posts circulating and discussion threads growing, people started to speculate whether this was an intended change from Microsoft, to boost the adoption / popularity of its latest OS. Sadly, this isn&apos;t the case. Microsoft&apos;s official Windows Insider Program Twitter account has <a href="https://twitter.com/windowsinsider/status/1534588001183051786">replied</a> to the Twitter post linked above to assert "it’s a bug… requirements have not changed". The development teams are apparently investigating what has happened, and one must assume Microsoft will be changing the bug which was offering Windows 11 updates on unsupported hardware.</p><p>Those who have upgraded systems via this bug may wish to roll back within 10 days of the update. If not, as users of unsupported systems, they might not be offered Microsoft&apos;s regular security patches.</p>
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                                                            <title><![CDATA[ Hot Chips 34 Reveals Intel's 3D Foveros Ambitions for Meteor Lake, Arrow Lake CPUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/hot-chips-34-schedule-reveals-intels-3d-foveros-ambitions-for-meteor-lake-arrow-lake-cpus</link>
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                            <![CDATA[ Intel will discuss Meteor Lake, Arrow Lake, and 3D Foveros. Other prominent attendees with Hot Chips presentations include; AMD, Arm, Nvidia, Samsung, and Tesla. ]]>
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                                                                        <pubDate>Sun, 22 May 2022 18:53:08 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:50:58 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
&lt;br&gt;
Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
&lt;br&gt;
When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                <p>The organizers have shared the schedule for the Hot Chip Symposium 2022. Intel has booked a lot of presentation time with experts sharing information and insight about its latest GPUs, CPUs, foundry technologies, etc. Other key PC technology firms at <a href="https://hotchips.org/advance-program/" target="_blank">Hot Chips 34</a> include AMD, Arm, and Nvidia. Well-known tech industry pioneers like Samsung, Tesla, MediaTek, and Cerebras will be there. Due to the ongoing pandemic situation, Hot Chips 34 will be a virtual conference that will take place live over the days specified. Still, all presentations will be recorded and made available after processing.</p><h2 id="intel-apos-s-hot-chips-34-schedule">Intel&apos;s Hot Chips 34 Schedule</h2><ul><li>Intel’s Ponte Vecchio GPU: Architecture, System and Software. Monday, August 22, 9 – 11am</li><li>Heterogenous Integration Enables FPGA Based Hardware Acceleration for RF Applications. Monday, August 22, 11.30am – 1.30pm</li><li>Semiconductors Run the World. Monday, August 22, 2.30 – 3.30pm</li><li>Meteorlake and Arrowlake : Intel Next Gen 3D Client Architecture Platform with Foveros. Tuesday, August 23, 5 – 7pm</li><li>Next-Generation Intel processor build for the edge - Intel Xeon D 2700 & 1700. Tuesday, August 23, 5 – 7pm</li></ul><p>Our readers&apos; most interesting Intel presentation will concern Meteor Lake and Arrow Lake technologies on Tuesday. Intel&apos;s Wilfred Gomes will host this presentation.</p><p>Meteor Lake first successfully <a href="https://www.tomshardware.com/news/intel-meteor-lake-boots-os-sapphire-rapids-shipping-pvc-sampling">booted</a> up in Windows, Chrome, and Linux last month, and it is due to begin shipping to customers in 2023 as 14th Gen Core processors. It looks like Meteor Lake will be a mobile-first architecture, and the presentation will take place in a segment of Hot Chips devoted to mobile and edge processors. Meteor Lake chips will scale from 5W on the mobile side up to 125W for desktops.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/Lt4maHUJYVRGTRJqP39uCS.png" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/qPKEeWaF28F86qyNWRaMDU.png" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/6XCEnbtvgiriBNSvbA7KiC.jpg" alt="Intel Meteor Lake" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Lz6bEECP55T8DT9Y3rZPHc.jpg" alt="Meteor Lake & Granite Rapids" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>To remind readers of the importance of Meteor Lake for Intel, it will be a platform that debuts several essential technologies. Meteor Lake utilizes the Intel 4 process node. We already know it will feature a flexible tiled architecture with chiplets and hybrid cores and a next gen integrated GPU and AI acceleration (a trend set by Arm mobile processors).</p><p>The Hot Chips 34 presentation descriptions confirm that Meteor Lake will feature a "Next Gen 3D Client Architecture Platform with Foveros," or a new generation 3D Foveros implementation, with doubled connection density compared to the previous gen. As far as we know, right now, Arrow Lake, or the 15th Gen Core processors, will carry through most of the features of Meteor Lake with a die shrink to Intel 18A. Meteor Lake and Arrow Lake might share a common platform like we have seen confirmed that <a href="https://www.tomshardware.com/news/intel-roadmap-meteor-lake-arrow-lake-lunar-lake-cpus">Alder Lake</a> and <a href="https://www.tomshardware.com/news/intel-13th-gen-raptor-lake-release-date-specifications-pricing-benchmarks-all-we-know-specs">Raptor Lake</a> do.</p><h2 id="amd-nvidia-and-tesla">AMD, Nvidia, and Tesla</h2><p>AMD will also have multiple presentations at Hot Chips. It will discuss its latest Instinct GPU accelerators for HPC on Monday. On Tuesday, it has a presentation about an SoC targeting networking hardware. Lastly, and probably the most interesting to us, will be a late Tuesday presentation about AMD Ryzen 6000 series processors (mobile). We saw this Ryzen APU family first <a href="https://www.tomshardware.com/news/amd-6nm-ryzen-6000-rembrandt-soc-deep-dive-gunning-for-alder-lake">unwrapped at CES</a>, and they have only recently started to feature in laptop designs that are <a href="https://www.tomshardware.com/reviews/asus-zenbook-s-13-oled-ryzen-6800u">shipping</a>. Since this presentation is part of the mobile segment, it could be that there are some more ULV models on the way. The current H-series are 35 to 45W+, and the U-series are 15-28W. Could we see some sub-15W APUs between now and the end of August?</p><p>If we had to pick a highlight from Nvidia&apos;s upcoming Hot Chips presentations, we would probably jump with both feet onto the Nvidia Grace CPU talk. We reported the <a href="https://www.tomshardware.com/news/nvidia-unveils-144-core-grace-cpu-superchip-claims-arm-chip-15x-faster-than-amds-epyc-rome">144-core Nvidia Grace CPU</a> in quite some depth last month. However, Nvidia has promised more architectural insight later, and the Hot Chips 34 presentation looks like the right place at the right time.</p><p>The Tesla Dojo features two separate presentations at Hot Chips 34. Tesla decided to split the presentations regarding this exascale computer into an architectural segment, and a super compute scaling ML training segment, led by respective experts from the company. In our most recent <a href="https://www.tomshardware.com/news/tesla-d1-ai-chip">report on the Tesla Dojo</a>, we talked about this 7nm and 50 billion transistor chip&apos;s custom ASIC-for-AI design and performance potential. We are looking forward to an official update on the hardware, how it will be implemented, and more.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Releases 16 Security Advisories Covering 41 Vulnerabilities in CPUs, NUCs, SSDs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-security-vulnberabilities-</link>
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                            <![CDATA[ Probably of most interest to readers is the CPU microcode fix for several Core processor generations. However, there are also fixes to vulnerabilities in things like NUC firmware, Optane SSD firmware, and the XTU software. ]]>
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                                                                        <pubDate>Wed, 11 May 2022 16:57:25 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:41:52 +0000</updated>
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                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
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Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
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When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                <p>Intel has released 16 new security advisories, which address 41 vulnerabilities. The <a href="https://www.intel.com/content/www/us/en/security-center/default.html">advisories</a>, some with &apos;high&apos; severity ratings, appear to cover the full gamut of Intel catalog, including processors, devices, firmware, drivers and software. For example, several generations of Core processors and enterprise (Xeon) chips have newly disclosed vulnerabilities on the processor side. Then there are flaws and vulnerabilities in products like Optane SSD firmware, NUC firmware, Linux Kernel drivers, and the XTU tuning software.</p><p>The <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00617.html">Intel Processor advisory</a> has been given the CVEID of CVE-2022-21151. It is described in summary as "a potential security vulnerability in some Intel Processors may allow information disclosure." It is &apos;only&apos; a medium severity rating vulnerability. We think this is because it requires an authenticated user with local access to exploit the chance to "potentially enable information disclosure" from the processor.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:847px;"><p class="vanilla-image-block" style="padding-top:83.71%;"><img id="" name="affected-cpus.png" alt="Vulnerable Intel CPUs" src="https://cdn.mos.cms.futurecdn.net/keL4YwxqNuod9pjpRJSzK5.png" mos="" align="middle" fullscreen="1" width="847" height="709" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/keL4YwxqNuod9pjpRJSzK5.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Affected processors are shown in the above table, and you could sum it up by saying that it spans the Skylake to Coffee Lake generations.</p><p>Though the exploitation of CVE-2022-21151 by a threat actor may sound unlikely, Intel has released a microcode update for those who feel it might be worth patching. Linux users can grab a microcode update from GitHub. Meanwhile, Windows users are advised to check Windows Update and motherboard/system makers for updated firmware.</p><p>We looked through the numerous other security advisories just published and thought it was worth highlighting that there are <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00654.html">three Intel NUC vulnerabilities</a> classed as high risk. They all "potentially enable escalation of privilege via local access." Intel has thankfully provided BIOS downloads for all the affected NUC products.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1280px;"><p class="vanilla-image-block" style="padding-top:42.81%;"><img id="" name="Intel Optane SSD 905P.jpg" alt="Intel Optane SSD 905P (1TB)" src="https://cdn.mos.cms.futurecdn.net/VaDcdrfe4ALvKqataXj2SP.jpg" mos="" align="middle" fullscreen="1" width="1280" height="548" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/VaDcdrfe4ALvKqataXj2SP.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>In its <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00563.html">Optane SSD firmware advisory</a>, Intel describes several high severity vulnerabilities which "may allow escalation of privilege, denial of service or information disclosure." If you have any Optane memory or SSDs, please check the link, where you will find a link to download updates to address these vulnerabilities.</p><p>Other vulnerabilities classed as high severity are detailed by the <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00613.html">Intel Boot Guard and Intel TXT Advisory</a> (Escalation of Privilege), the <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00601.html">BIOS Advisory</a> (Escalation of Privilege), and an <a href="https://www.intel.com/content/www/us/en/security-center/advisory/intel-sa-00549.html">Intel In-Band Manageability Advisory</a> (Escalation of Privilege).</p>
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                                                            <title><![CDATA[ Intel Launches Alder Lake HX: Up to 16 Cores, PCIe 5.0, and 157W of Power ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-alder-lake-hx-16-core-desktop-cpus-in-notebook-clothing</link>
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                            <![CDATA[ Intel introduced its notebook workstation-class Alder Lake HX mobile processors that feature up to 16 cores, 5.0 GHz peak clock rates, and 157W of peak power draw. ]]>
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                                                                        <pubDate>Tue, 10 May 2022 15:00:04 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:42:58 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ palcorn@outlook.com (Paul Alcorn) ]]></author>                    <dc:creator><![CDATA[ Paul Alcorn ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/RZRmFeQfPy3etHjBQitbGW.jpeg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;As a teenager, Paul scraped up enough money to buy a 486-powered PC with a turbo button (yes, a turbo button). Back when floppies were still popular he was already chasing after the fastest spinners for his personal computer, which led him down the long and winding storage road, covering enterprise storage. His current focus is on consumer processors, though he still keeps a close eye on the latest storage news. In his spare time, you’ll find Paul hanging out with his kids or indulging his love of the Kansas City Chiefs and Royals.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Intel Alder Lake-HX and -S]]></media:description>                                                            <media:text><![CDATA[Intel Alder Lake-HX and -S]]></media:text>
                                <media:title type="plain"><![CDATA[Intel Alder Lake-HX and -S]]></media:title>
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                                <figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:4000px;"><p class="vanilla-image-block" style="padding-top:87.25%;"><img id="" name="Intel Image 3 - adl-mobile-wafer-photo-001-white-bg-4000px.jpg" alt="Wafer" src="https://cdn.mos.cms.futurecdn.net/mBUpNzWMFU96CEcdyBHZiF.jpg" mos="" align="middle" fullscreen="" width="4000" height="3490" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel )</span></figcaption></figure><p>Intel is bulking up its family of <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a> mobile CPUs with new HX series chips that leverage the same silicon as the Alder Lake desktop PC chips, but Intel crammed them into a slimmer package that will power the highest-powered gaming and workstation laptops and notebooks. The new chips feature up to 16 cores, 24 threads, peak clock rates of 5.0 GHz, and a 55W base power spec that stretches up to an almost-unbelievable 157 watts under heavy load. Intel says the HX chips deliver up to 80% more performance in multi-threaded workloads than its own previous-gen chips and 10 to 20% more performance than its current-gen H-Series, and that&apos;s before you leverage the HX chips&apos; overclocking features.<br><br>Intel&apos;s new chips will attempt to fend off Apple&apos;s M1 Max and M1 Ultra processors, not to mention <a href="https://www.tomshardware.com/news/amds-6nm-ryzen-6000-rembrandt-chips-have-zen-3-rdna2-and-ddr5">AMD&apos;s existing 6nm Ryzen 6000 ‘Rembrandt’ chips</a> and the upcoming <a href="https://www.tomshardware.com/news/amd-confirms-zen-4-dragon-range-phoenix-apus-for-2023">Zen 4-powered Ryzen 7000 &apos;Dragon Range&apos; processors</a> that will also stretch beyond 55W.<br><br>The HX chips are armed for workstation tasks with support for an incredible amount of I/O for a notebook, including up to 128GB of memory spread across four DDR4 or DDR5 modules, support for ECC memory, and up to four SSDs. It&apos;s also the first mobile platform to support the PCIe 5.0 interface, making it powerful enough to fit into the &apos;desktop replacement&apos; class of mobile systems. The vPro-branded HX series models will replace Intel&apos;s Xeon W mobile lineup, while the Core-branded models will power the highest-end gaming laptops. Let&apos;s look at the specs and see how Intel crams its desktop PC processors into notebooks, then examine the company&apos;s performance claims. </p><h2 id="intel-alder-lake-core-hx-processors-specifications">Intel Alder Lake Core HX Processors Specifications</h2><p>Intel&apos;s 12th-Gen Alder Lake chips feature the company&apos;s hybrid architecture, which combines a mix of big and fast Performance cores (P-cores) with clusters of small and powerful Efficiency cores (E-cores) that chew through background processes. You can <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">read more about the design here</a>.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/Yx36yU53eYhQMeYENYchJJ.jpg" alt="Alder Lake HX" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/7kJ3fZnn6gnzc5ZXeQspVC.jpg" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3Dq52ELrByxxUT9tp8YzQo.jpg" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/wdVF9x72bJSXtB2Mo2qwXo.jpg" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/txXQ2eQHzdaHRuLGNHigV.jpg" alt="Intel" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><ul><li><strong>HX-Series:</strong> 55W / 157W — Up to 8 P-cores, 8 E-cores, 32EU Xe LP graphics</li><li><strong>H-Series: </strong>45W / 115W — Up to 6 P-cores, 8 E-cores, 96EU Iris Xe graphics</li><li><strong>P-Series: </strong>28W / 64W— Up to 6 P-cores, 8 E-cores, 96EU Iris Xe graphics</li><li><strong>U-Series:</strong> 9W/15W 29W/55W — Up to 2 P-cores, 8 E-cores, 96EU Iris Xe graphics</li></ul><p>Intel typically carves its mobile processors into 9/15W, 28W, and 45W swim lanes, but the HX-Series steps in as a new 55W tier for the most performance. In addition, the HX series can boost up to 157W, which is 42W higher than the H-series and a new high for Intel&apos;s mobile lineup. For reference, the &apos;X&apos; in HX stands for &apos;eXpanded,&apos; indicating these models are an expansion of the H-series of chips.<br><br>Intel’s HX series lineup spans the Core i9, i7, and i5 families with a total of eight SKUs and tops out at up to eight P-cores and eight E-cores, providing a total of 24 threads (the P-Cores have hyperthreading, whereas the E-cores do not).<br><br>The HX processors use the same silicon as Intel&apos;s desktop PC chips (more on that below), so they have the Xe LP graphics engine with up to 32 EUs. In comparison, the rest of the Alder Lake mobile lineup comes with the faster Iris Xe engine with up to 96 EUs. Intel says that it expects all of the HX-powered laptops, which will come in both Core-branded gaming and vPro-branded workstation flavors, to have discrete GPUs from Nvidia, AMD, or Intel&apos;s own Arc lineup (though the latter is <a href="https://www.tomshardware.com/news/intel-arc-gpu-launch-delays">besieged by delays</a>), so the lesser integrated GPU shouldn&apos;t be a concern.<br><br>The Core i9-12950HX slots in as the flagship chip and has the full complement of 8P+8E cores. The processor boosts to 5.0 GHz on the P-Cores, 3.6 GHz on the E-Cores, and supports partial overclockability.<br><br>As you can see in the slide above, Intel has two tiers of overclocking available for the HX models: Two models, the 12900HX and the 12800HX, support full overclocking of both the CPU cores and memory, while the five other models only support memory overclocking, so you can&apos;t overclock the CPU cores. Memory overclocking includes support for XMP 3.0 profiles and Intel&apos;s <a href="https://www.tomshardware.com/features/intel-shares-alder-lake-pricing-specs-and-gaming-performance/5">Dynamic Memory Boost</a> tech. The chips also support Intel Speed Optimizer and the eXtreme Tuning Utility (XTU) for CPU core overclocking. Additionally, the P-Cores and E-Cores can be overclocked independently on models that fully support overclocking. <br><br>The lower end of the spectrum consists of the Core i5-12400HX, which comes with four P-cores and four E-cores, for a total of 12 threads, that boost to 4.4 and 3.1 GHz, respectively. This is the only HX chip to come with an even smaller Xe LP engine with only 16 EUs.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/PgSkeCXNEMFXqkTEhKYFZ6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/TLuacyQb6udr4jCqeyjBe6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/B722qYfHZAVCNCG3zgJsh6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/QHXXafonrbDJWgE3Uxqdm6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/bjerBfWBqBggzxnrA5e8t6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/PjCdWWFK8EBWv59c7AoFy6.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/eT4ew2geR7LFw84yPGar37.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/kkGmvxWofycGtkUGExe377.jpg" alt="Intel HX Series " /><figcaption><small role="credit">Intel </small></figcaption></figure></figure><p>Intel&apos;s HX series uses the same die as the Alder Lake desktop PC chips, meaning they are the same physical silicon, but its firmware has been optimized for the power, frequency, and thermal profile needed for mobile use. <br><br>Intel transplanted the Alder Lake die from the 45 x 37.5mm LGA package that typically slots into the motherboard&apos;s socket into a similarly-sized SBGA package soldered into a slimmer socket on a motherboard. Additionally, as with all laptop chips, the HX processor doesn&apos;t have an integrated heat spreader (IHS), instead using a bare die. As a result, the BGA package is roughly 2mm thick, significantly thinner than the 4.4mm found with the desktop PC chips. This allows Intel to cram the chip into thin laptops while still having room for a cooling solution on top. Intel says most HX laptops will have a 20mm or lower thickness, whereas H-series devices aim for 14mm or less.<br><br>As you can see in the first slide above, all of Intel&apos;s other mobile chips come with a separate, smaller platform controller hub (PCH) chip on the same package that provides the connectivity typically found on a separate chipset processor. In contrast, the HX processor doesn&apos;t come with a PCH on the same package, so it is placed separately on the laptop&apos;s motherboard.  </p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:966px;"><p class="vanilla-image-block" style="padding-top:50.10%;"><img id="" name="HX Pic.JPG" alt="Intel Alder Lake-HX and -S" src="https://cdn.mos.cms.futurecdn.net/3SbV4pZEoheg6oxXocyjkR.jpg" mos="" align="middle" fullscreen="" width="966" height="484" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel )</span></figcaption></figure><p>This separate chipset provides far more connectivity than a typical laptop, with support for up to four PCIe 4.0 x4 SSDs (with one connected to the HX processor itself), discrete WiFi 6E MACs, and two discrete Thunderbolt controllers. You can assign those four SSDs into different types of redundancy, like RAID 1 and 5, or use a RAID 0 stripe for performance.<br><br>Additionally, the HX processor supports an x16 PCIe 5.0 connection (or 2x8) that Intel says will be handy for future GPUs (none of the discrete GPUs used for the launch notebooks will have a PCIe 5.0 GPU). That makes the HX-series processors the first to support PCIe 5.0 for laptops. Overall, HX-based systems support up to 48 total PCIe lanes in both PCIe 5.0 and 4.0 flavors, while the H-series topped out at 28 lanes of PCIe 4.0.<br><br>The support for PCIe 5.0 will be most useful in the near term for the newer, faster crop of SSDs with the new interface that will come to market soon. However, the respective laptops will need to be wired appropriately, as the standard four lanes for M.2 SSDs from the CPU are PCIe 4.0.<br><br>The HX processor also supports dual-channel LPDDR4-4267/DDR4-3200 or LPDDR5-4800/DDR5-5200 memory in standard or ECC flavors (ECC is for vPro models only). Notebook makers can use up to two DIMMs per channel, boosting capacity to four total DIMMs that could provide up to 128GB. In contrast, Apple supports LPDDR-6400 and AMD has LPDDR5-5500.</p><h2 id="intel-alder-lake-core-hx-mobile-performance-benchmarks">Intel Alder Lake Core HX Mobile Performance Benchmarks</h2><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/aZZdbBcsWLrRmm4qteKtKg.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/zTeeikEhTE5b3MgCMS3e3g.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/izqycpmbk4PZ2x6vx6gr6g.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Yzrjd5qetAXnpcDZDDZjAg.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3tKD2CgjfhWhUn3pNJQJFg.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/nMv2uny2WhAeLDssKxkQPg.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/AeMgrKvp4rDbJSNWv79wTg.jpg" alt="Intel Alder Lake HX Series" /><figcaption><small role="credit">Intel </small></figcaption></figure></figure><p>Intel shared its own internal benchmarks, but as with all vendor-provided tests, take them with a grain of salt.<br><br>Intel says that its H-Series processors are still the fastest gaming CPUs available, so even though the HX series will come in gaming-focused laptops, they won&apos;t provide the highest levels of gaming performance. As such, it isn&apos;t surprising that Intel only provided basic gaming benchmark results that don&apos;t have any comparative data to other chips.<br><br>Intel did provide plenty of benchmarks for applications, though. For example, Intel claims that the 12900HX is 17% faster than the 11980HK in single-threaded work and 64% faster in threaded work, with both measurements coming in the SPECint_rate_based 2017 workload.<br><br>Notably, this isn&apos;t the newest version of SPEC&apos;s test and only measures integer performance. Intel&apos;s results show that it is much faster in single- and multi-threaded work than the AMD Ryzen 9 6900HX and the Apple M1 Max but doesn&apos;t provide specific performance measurements. Unfortunately, that makes it impossible to derive any meaningful comparisons to competing processors. Instead, Intel gives us bars on a chart with an unlabeled axis, which certainly doesn&apos;t give us much confidence in the test methodology/results.<br><br>The remainder of Intel&apos;s benchmark results are just as poorly-defined, with the company attempting to limit its comparisons to its own chips only instead of the AMD and Apple competition. Workloads include Blender, CrossMark, AutoDesk, and SPECworkstation CPU tests, but you should view all of these with skepticism.<br><br>Intel says that ten systems built around the HX processors will arrive this year, with products from OEMs like Dell, HP, Lenovo, and others. That includes the ASUS ROG Strix Scar 17 SE, HP Omen 17, Gigabyte Aorus 17X/15X, MSI GT77 Titan and GE77/67 Raider, Lenovo Legion 7i, and Dell Precision 7670/77700. However, Intel hasn&apos;t provided a specific date that these will be available for purchase. </p><ul><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><strong>Best CPUs for Gaming</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/reviews/cpu-hierarchy,4312.html"><strong>CPU Benchmark Hierarchy</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/features/amd-vs-intel-cpus"><strong>AMD vs Intel</strong></a></li><li><strong>MORE: </strong><a href="https://www.tomshardware.com/topics/cpus"><strong>All CPUs Content</strong></a></li></ul><iframe src="https://content.jwplatform.com/players/7AgPc2Q8.html" id="7AgPc2Q8" title="Buy the Right SSD" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ AIDA64 Hints Intel's Return To HEDT Market With Alder Lake-X ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/aida64-hints-intels-return-to-hedt-market-with-alder-lake-x</link>
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                            <![CDATA[ Intel is toying with the idea of re-entering the HEDT market in the shape of the chipmaker's Alder Lake-X processors. ]]>
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                                                                        <pubDate>Sat, 09 Apr 2022 19:45:32 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:04:58 +0000</updated>
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                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                <p>Patch notes for a new beta version of AIDA64 -- <a href="https://www.aida64.com/downloads/NGJjOGZjZTg=" target="_blank">version 6.60.5944</a>, show preliminary support for a mysterious new Intel CPU platform, which carries the Alder Lake-X codename. We don&apos;t have an official word on what these new CPUs are, but on the surface, these chips could be new HEDT models of Intel&apos;s <a href="https://www.tomshardware.com/features/intel-shares-alder-lake-pricing-specs-and-gaming-performance">Alder Lake</a> CPUs, meaning Intel could be returning to the HEDT market after a long hiatus.</p><p>In recent years Intel began using the letter X to symbolize its HEDT platform, including the chipset and the CPUs related to the platform. So it&apos;s easy to guess that Alder Lake-X will probably be a continuation of that tradition. However, it&apos;s been a while since we&apos;ve seen a HEDT processor from Intel. The last HEDT lineup debuted in 2019 in the form of Intel&apos;s 14nm <a href="https://www.tomshardware.com/reviews/intel-core-i9-10980xe">Cascade Lake-X</a>, maxing out at 18 cores.</p><p>Intel produces Alder Lake and Sapphire Rapids on the Intel 7 node, formerly known as the 10nm Enhanced SuperFin process. Both processor families leverage Intel&apos;s Golden Cove cores, although Sapphire Rapids won&apos;t incorporate the Gracemont cores as Alder Lake did. It makes sense since the first targets data centers, whereas the latter aims for the mainstream market.</p><p>One theory is that Alder Lake-X could be the enthusiast-friendly version of Intel&apos;s Sapphire Rapids platform with an unlocked multiplier for overclocking and other features. However, there were early rumors that Intel may launch Sapphire Rapids-X, and if they&apos;re accurate, then Alder Lake-X and Sapphire Rapids-X would need to coexist. Nevertheless, it&apos;s not impossible, and we can see it working out for Intel.</p><p>For example, Intel could market Alder Lake-X with higher core counts than the consumer Alder Lake chips and maybe kill off the Gracemont cores, which we doubt will be helpful for HEDT enthusiasts. Alder Lake-X reminds us of <a href="https://www.tomshardware.com/news/intel-discontinues-kaby-lake-x-processors,36985.html">Kaby Lake-X</a>, which launched alongside Skylake-X. Intel&apos;s intention for Kaby Lake-X was to provide entry-level SKUs for its HEDT platform. On the other hand, Intel can sell Sapphire Rapids-X with similar core counts but with octa-channel memory and AVX512 support. Remember that Intel has <a href="https://www.tomshardware.com/news/intel-nukes-alder-lake-avx-512-now-fuses-it-off-in-silicon">fused off AVX512 from its Alder Lake chips</a> for good. So, the only way to get AVX512 is through Sapphire Rapids, and Sapphire Rapids-X could be a budget-friendly version for consumers. Of course, all of this is just our estimated guess.</p><p>At any rate, Alder Lake-X will have to deal with AMD&apos;s latest <a href="https://www.tomshardware.com/news/amd-details-ryzen-threadripper-pro-5000-wx-series-zen-3-up-to-64-cores">Ryzen 5000 Threadripper Pro</a> CPUs, spanning up to 64 Zen 3 cores. Unfortunately, AMD hasn&apos;t confirmed whether it will launch the non-Pro variants. The <a href="https://www.tomshardware.com/news/amd-ryzen-threadripper-cpu-shortage-hits-pc-makers">Ryzen Threadripper shortage</a> started in the fourth quarter of last year and has been plaguing vendors, putting in doubt whether the regular Ryzen 5000 Threadripper lineup will launch or not.</p><p>Hopefully, we&apos;ll know more about Alder Lake-X in the future, but it seems Intel is looking into the idea of coming back to the HEDT market. Alder Lake-X will give AMD some other competition, which is always a welcome sight.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Alder Lake, ARM CPUs Affected by New Spectre Vulnerability ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-alder-lake-arm-cpus-affected-by-new-spectre-vulnerability</link>
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                            <![CDATA[ Arm and Intel CPU cores are affected by a branch prediction history vulnerability, AMD's CPUs are not. ]]>
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                                                                        <pubDate>Tue, 08 Mar 2022 22:00:53 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:56:51 +0000</updated>
                                                                                                                                            <category><![CDATA[Cybersecurity]]></category>
                                                    <category><![CDATA[Tech Industry]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>VUSec security research group and Intel on Tuesday disclosed a yet another Spectre-class speculative execution vulnerability called <a href="https://www.vusec.net/projects/bhi-spectre-bhb/">branch history injection</a> (BHI). The new exploit affects all of Intel processors released in the recent years, including the latest Alder Lake CPUs, and select Arm cores. By contrast, AMD&apos;s chips are believed to be unaffected.<br><br>BHI is a proof-of-concept attack that affects CPUs already vulnerable to Spectre V2 exploits, but with all kinds of mitigations already in place. The new exploit bypasses Intel&apos;s eIBRS and Arm&apos;s CSV2 mitigations, reports <a href="https://www.phoronix.com/scan.php?page=news_item&px=BHI-Spectre-Vulnerability">Phoronix</a>. BHI re-enables cross-privilege Spectre-v2 exploits, allows kernel-to-kernel (so-called intra-mode BTI) exploits, and allows perpetrators to inject predictor entries into the global branch prediction history to make kernel leak data, reports <a href="https://www.vusec.net/projects/bhi-spectre-bhb/">VUSec</a>. As a result, arbitrary kernel memory on select CPUs can be leaked and potentially reveal confidential information, including passwords. An example of how such a leak can happen was <a href="https://www.youtube.com/watch?v=537HUwV36ME">published here</a>.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3802px;"><p class="vanilla-image-block" style="padding-top:51.29%;"><img id="" name="bhi-attack.png" alt="VUSec" src="https://cdn.mos.cms.futurecdn.net/c4nHxa7M5JVhK8goJpfyCJ.png" mos="" align="middle" fullscreen="1" width="3802" height="1950" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/c4nHxa7M5JVhK8goJpfyCJ.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: VUSec)</span></figcaption></figure><p>All of Intel&apos;s processors beginning with Haswell (launched in 2013) and extending to the latest Ice Lake-SP and Alder Lake are <a href="https://www.intel.com/content/www/us/en/developer/topic-technology/software-security-guidance/processors-affected-consolidated-product-cpu-model.html">affected</a> by the vulnerability, but Intel is about to release a software patch that will mitigate the issue.<br><br>Numerous cores from Arm, including Cortex A15, A57, A72 as well as Neoverse V1, N1, and N2 are also <a href="https://developer.arm.com/support/arm-security-updates/speculative-processor-vulnerability/spectre-bhb">affected</a>. Arm is expected to release software mitigations for its cores. What is unclear is whether custom versions of these cores (e.g., select cores from Qualcomm) are also affected and when the potential security holes will be covered.<br><br>Since this is a proof-of-concept vulnerability and it is being mitigated by Intel and Arm, it should not be able to be used to attack a client or server machine — as long as all the latest patches are installed. There&apos;s no indication how much the mitigations will impact performance.</p><iframe src="https://content.jwplatform.com/players/SzkW6ASo.html" id="SzkW6ASo" title="Buy the Right Graphics Card" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Specs of Intel's Alder Lake-N Published: 8 Gracemont Cores, 32 Xe-LP EUs ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/alder-lake-n-takes-shape-gracemont-xe-lp</link>
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                            <![CDATA[ Intel's Alder Lake-N: is the only Alder Lake CPU with no high-performance cores. ]]>
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                                                                        <pubDate>Thu, 10 Feb 2022 17:40:24 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:50:56 +0000</updated>
                                                                                                                                            <category><![CDATA[Overclocking]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Intel has already released dozens of 12th Generation Core &apos;Alder Lake&apos; processors for desktops, laptops, and ultra-thin laptops. But there are other categories of PCs that are yet to be addressed by the new family: ultra-low-power and ultra-low-cost computers. Intel is prepping its Alder-Lake N system-on-chips that only feature small energy-efficient Gracemont cores for these PCs, but these SoCs may actually be pretty serious performers. </p><p>Intel&apos;s Alder Lake-N processor apparently packs up to eight cores based on the energy-efficient Gracemont microarchitecture that come in two quad-core clusters with 2MB L2 cache per cluster and a shared L3 cache, according to a <a href="https://github.com/Vamshigopal">partial boot log of Alder Lake-N (ADL-N RVP)</a> uploaded by Intel to the Linux repository in the Sound Open Firmware (SOF) Project (and discovered by <a href="https://www-coelacanth--dream-com.translate.goog/posts/2022/02/04/adl_n-8thread/?_x_tr_sl=auto&_x_tr_tl=en&_x_tr_hl=en-US&_x_tr_pto=wapp">Coelacanth&apos;s Dream</a>). </p><p>Gracemont is a 5-wide out-of-order architecture with enhanced branch predictor with pattern recognition, new integer and floating point execution units, increased number of execution ports, and even L3 cache support. Eight Gracemont cores promise to offer quite formidable performance even when compared to previous generation &apos;big&apos; cores like Skylake. That said, Intel&apos;s forthcoming low-power/low-cost PC platform (at least in its eight-core incarnation) may offer performance on par with premium PCs released some three or four years ago.</p><p>The SoC also has an integrated GPU with 32 execution units based on Intel&apos;s Xe-LP architecture, media, and display engines. Intel&apos;s Xe-LP has up-to-date media encode/decode capabilities (with AV1, H.264, H.265, Dolby Vision, and 8Kp60 support), so expect Alder Lake-N systems to offer premium multimedia playback features.  Just what the doctor ordered for home theater PCs. </p><p>It remains to be seen how Intel plans to market its Alder Lake-N processors, but it is reasonable to expect this design to power next-generation Pentium Silver and Celeron CPUs for desktops, thin client, NAS, embedded systems, and low-cost notebooks. Eventually, Intel might offer some specialized Atom-branded processors based on Gracemont cores, though they will not necessarily be based on the Alder Lake-N design.</p>
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                                                            <title><![CDATA[ Intel Alder Lake Users Get First New iGPU Driver in Three Months ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-alder-lake-users-get-first-new-igpu-driver-in-three-months</link>
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                            <![CDATA[ PC enthusiasts and DIYers who had bought into one of the new Alder Lake platforms with chips announced at CES 2022 were stuck on an iGPU driver dated August 2021, until now. ]]>
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                                                                        <pubDate>Tue, 08 Feb 2022 15:46:13 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:53:24 +0000</updated>
                                                                                                                                            <category><![CDATA[GPU Drivers]]></category>
                                                    <category><![CDATA[PC Components]]></category>
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                                                                                                                    <dc:creator><![CDATA[ Mark Tyson ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/56vqMYLDaKRHPhHZgbADFR.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Mark&#039;s enthusiasm for computers dampened at an early age by the rubber-keyed Sinclair Spectrum 48K and feelings of Commodore 64 envy. However, in the mid-80s, hope in a digital future was rekindled by the purchase of an Atari 520 STe. Since that time Mark has used a multitude of computers for fun and professional endeavors. He often owned both Macs and PCs but went cold on the former after OS9 was killed off, and warmed to the latter with the introduction of Windows XP.&lt;br&gt;
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Early work years were spent in artwork and reprographics but in the late noughties, Mark started to blog about computers, Taiwanese food culture, and guitar design. This activity led to a full-time position writing about breaking PC tech news for HEXUS, for the best part of a decade. When HEXUS was abruptly closed, Mark helped with the foundation of Club386, before finding a new home at Tom&#039;s Hardware.&lt;br&gt;
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When not wearing through the keycap legends on his PC keyboards, Mark can be found wandering the computer malls of Taiwan&#039;s neon-lit conurbations and enjoying local and international cuisine.&lt;/p&gt; ]]></dc:description>
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                                <p>Many PC enthusiasts will have been picked up by the wave of enthusiasm for the Intel 12th Gen Core non-K processors and mainstream motherboards that Intel launched at CES 2022, in early January. However, those that decided to take the plunge and invest in a new pre-built system might have been disappointed to find the newest available drivers for non-K processors was dated August 2021. On Monday, that changed with the release of the Intel Graphics Windows DCH v30.0.101.1340 release that supports all the Alder Lake-S chips, as well as processors dating back to the Skylake era (with built-in iGPUs). </p><p>Looking back over the Intel 12th-Gen processor releases and Windows DCH Driver timeline, we see that Windows 10/11 supported the iGPU on the first batch of ADL-S K processors with version 30.0.101.1069, which was released on November 11 of last year. That&apos;s just a few days after the official release of the Intel Core i9-12900K, i7-12700K, and i5-12600K.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:809px;"><p class="vanilla-image-block" style="padding-top:56.49%;"><img id="" name="UHD-old.jpg" alt="ADL iGPU driver gets updated at last" src="https://cdn.mos.cms.futurecdn.net/d5qKcmGmEupjSPsxnfJak3.jpg" mos="" align="middle" fullscreen="1" width="809" height="457" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/d5qKcmGmEupjSPsxnfJak3.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="caption-text">With the previous driver the iGPU wasn't properly recognized </span><span class="credit" itemprop="copyrightHolder">(Image credit: Future)</span></figcaption></figure><p>Now that Intel has released Graphics Windows DCH v30.0.101.1340, Alder Lake-S (K and non-K) users have an update to install. Consumers have been able to buy the non-K processors since early January, so Intel has taken several weeks to make a DCH driver available.</p><h2 id="what-is-in-the-driver">What Is in the Driver?</h2><p>Though gladly received, driver 30.0.101.1340 doesn&apos;t add any new features. However, it does crush some pretty annoying bugs. The majority of the bugs fixed appear to affect 11th-Gen Core processor iGPUs and Intel Iris Xe Graphics. Intel reckons the highlights are fixes to Fortnite (had flickering graphics) and Call of the Duty: Vanguard DX12 (crashes). Here&apos;s the full list of key fixed issues:</p><ul><li>Intermittent crash or hang seen in Call of the Duty: Vanguard (DX12) on 11th Generation Intel Core Processors with Intel Iris Xe graphics.</li><li>Crash or hang seen when launching Dirt 5 through Microsoft Store on 11th Generation Intel Core Processors with Intel Iris Xe graphics.</li><li>Minor graphic anomalies seen in Shadowman Remastered (DX11) at High presets, The Surge 2 (Vulkan), Wolfenstein: Youngblood (Vulkan).</li><li>Minor graphic anomalies may be observed in Fortnite (DX11) on Intel Iris Xe Discrete graphics.</li><li>Minor graphic anomalies seen in Doom Eternal* (Vulkan), Forza Horizon 5 (DX12), Adobe Premiere Pro 2020 during video playback on 11th Generation Intel Core Processors with Intel Iris Xe graphics.</li><li>Crash or hang seen in Baldur’s Gate 3 (Vulkan) after loading screen on 10th Generation Intel Core processors with Intel Iris Plus graphics.</li></ul><p>Sadly, Intel&apos;s list of known issues is even longer than the fixes. Some of the howlers include intermittent crashes in Call of Duty: Black Ops Cold War (DX12) and Far Cry 6 (DX12) across all iGPU architectures. For non-gaming folk, two of the worst remaining issues are one involving blank screens when using docks and 4K monitors, and the same problem with 8K TV monitors in clone display mode.</p><p>You can grab the latest Intel Graphics Windows DCH Drivers direct from Intel <a href="https://www.intel.com/content/www/us/en/download/19344/721124/intel-graphics-windows-dch-drivers.html">here</a>. With the DCH drivers, the Intel Graphics Command Center software is a separate download that you can grab from the Windows Store.</p>
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                                                            <title><![CDATA[ Apple Reportedly Readies Three 3nm Mac SoCs: Ibiza, Lobos, Palma ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/apple-readies-three-n3-socs-ibiza-lobos-palma</link>
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                            <![CDATA[ Apple's 3rd Generation MaC SoCs expected to offer up to 40 cores. ]]>
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                                                                        <pubDate>Fri, 05 Nov 2021 19:02:43 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:47:42 +0000</updated>
                                                                                                                                            <category><![CDATA[Macbooks]]></category>
                                                    <category><![CDATA[Laptops]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Apple&apos;s aggressive Mac system-on-chips (SoCs) development plan reportedly now includes three 3nm chips — codenamed Ibiza, Lobos, and Palma — that will arrive in 2023 and will offer up to 40 general-purpose CPU cores.</p><p>With its M1-series SoCs, Apple has managed to build quite a formidable family of highly-integrated processors that can compete against the vast majority of the <a href="https://www.tomshardware.com/reviews/best-performance-cpus,5683.html">best CPUs</a> from AMD and Intel. The only processors that are untouchable for Apple&apos;s M1 Max are high-end desktop/workstation offerings like AMD&apos;s Ryzen Threadripper and Intel&apos;s Xeon W. But Apple now supposedly has a hard-hitting SoC roadmap that includes a 40-core CPU due to be released in about two years from now.</p><p>Next year, Apple plans to introduce its 2nd generation M-series SoCs (M2-series?) for Mac computers, reports <a href="https://9to5mac.com/2021/11/05/mac-iphone-apple-silicon-future/">The Information</a>. These processors will be made using an enhanced version of TSMC&apos;s N5 node, which is currently used to make Apple&apos;s M1-series SoCs (think N5P, N4, N4P). So, it&apos;s probably best not to expect significant improvements as far as performance and transistor count is concerned. But in an interesting twist, Apple is reportedly planning to build a multi-chip-module processor to get higher performance for demanding systems like the MacBook Pro 16. </p><p>But tangible improvements will come to Apple&apos;s 3rd generation M-series SoCs as they will be made using TSMC&apos;s N3 (3 nm-class) fabrication process. The new technology will enable the company to pack in significantly more transistors and increase clocks without increasing power consumption compared to M1-series offerings. </p><p>The alleged "M3"-series reportedly includes processors codenamed Ibiza, Lobos, and Palma. Each will target different Mac systems based on their performance requirements. The top-of-the-range offerings are rumored to offer up to 40 CPU cores over four dies, which could be good enough for workstations like the Mac Pro.</p><p>The report claims that Apple&apos;s first M3 chips will emerge in 2023, which is when TSMC starts to deliver products made using its N3 technology. Keeping in mind that Apple is usually the first company to adopt all-new nodes, it is reasonable to expect it to roll-out the first systems based on its M3 SoCs in the first half of the year (as always, though, take these kind of predictions with a grain of salt). </p><p>Apple updates its A-series SoCs for smartphones and tablets every year. The cadence is enabled both by Apple&apos;s huge hardware development team that works like clockwork as well as TSMC&apos;s regular introduction of new process technologies. With Macs, Apple is looking at steady, but not <em>so</em> regular SoC updates, as it is hard to develop and produce large chips for Macs. Furthermore, not all of TSMC&apos;s new nodes bring in capabilities required for PC SoCs.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel Discontinues Its Overclockable 28-Core Xeon W CPU ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-eols-its-overclockable-28-core-xeon-w-cpu</link>
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                            <![CDATA[ Overclockable 28-core Intel Xeon W-3175X to be discontinued. ]]>
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                                                                        <pubDate>Tue, 05 Oct 2021 13:03:30 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:53:25 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p>Intel has <a href="https://qdms.intel.com/dm/i.aspx/1E07901F-0EDC-42B2-8BA5-EC124761070D/PCN118523-00.pdf">initiated</a> the end of life (EOL) procedure for its only &apos;extreme&apos; Xeon W processor with 28 cores and unlocked multiplier. Originally meant to compete against AMD&apos;s Ryzen Threadripper processors, the <a href="https://www.tomshardware.com/reviews/intel-xeon-w-3175x-cpu,5976.html">Xeon W-3175X</a> offered a combination of high core count and overclockability.</p><p>"Market demand for the [Intel Xeon W-3175X] products […] have shifted to other Intel products," an Intel statement reads, though the company does not disclose whether it intends to offer an unlocked Xeon for extreme workstations any time soon. For regular workstations that are not designed for CPU overclocking Intel offers its Ice Lake-SP-based <a href="https://www.tomshardware.com/news/intel-unleashes-xeon-w-3300-ice-lake-cpus-38-cores-workstation">38-core Xeon W-3375 and 32-core Xeon W-3365 processors</a>. </p><p>Those interested in buying the <a href="https://www.tomshardware.com/reviews/intel-xeon-w-3175x-cpu,5976.html">Intel Xeon W-3175X</a> will have to order it by April 29, 2022, and the last Xeon W-3175X CPU will be shipped by Intel on October 28, 2022. </p><p>Intel originally demonstrated its 28-core Xeon W-3175X processor for extreme workstations at Computex 2018 emphasizing that it could work at 5.0 GHz with all of its cores activated. It quickly turned out that 5.0 GHz was achievable when overclocked and cooled down using a chiller, but it was still impressive to see a 28-core CPU operating at such an extreme frequency. Eventually, Intel clocked the processor at 3.10 GHz base and 4.30 GHz maximum single-core turbo, but since the chip comes with an unlocked multiplier, owners could overclock it beyond 3.10 GHz. </p><p>The CPU has a TDP of 255W, but when overclocked it consumes significantly more, which is why makers of motherboards for the Xeon W-3175X had to implement rather extreme voltage regulating modules (VRM) with ~30 power stages to feed the processor and enable overclocking, which made such motherboards extremely expensive. To that end, only Asus, EVGA, and Gigabyte offered platforms for the unlocked Xeon W processor. </p><p>Priced at $2999 and requiring a very expensive motherboard along with an advanced cooler, a six-channel DDR4 memory, and a high-performance PSU, Intel&apos;s Xeon W-3175X has never been a very popular option even for extreme workstations, perhaps because AMD Ryzen Threadripper-based machines offered more cores at a lower price.  </p><p>Intel continues to offer Core i9-10980XE Extreme Edition &apos;Cascade Lake&apos; processor with 18 cores for enthusiasts who want a combination of high core count, high frequency, and overclockability, though to a large degree AMD currently controls the lion&apos;s share of enthusiast CPU market.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel's 12th Generation Alder Lake Packaging Looks Pretty Nice ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-12th-generation-alder-lake-packaging-looks-pretty-nice</link>
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                            <![CDATA[ VideoCardz has shared the alleged packaging for Intel's upcoming Alder Lake hybrid chips. ]]>
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                                                                        <pubDate>Fri, 01 Oct 2021 02:37:26 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 10:11:53 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                        <media:description><![CDATA[Intel Core i9-12900K]]></media:description>                                                            <media:text><![CDATA[Intel Core i9-12900K]]></media:text>
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                                <p>An anonymous tipper has sent <a href="https://videocardz.com/newz/intel-core-i9-12900k-and-core-i7-i5-alder-lake-series-packaging-has-been-leaked" target="_blank">VideoCardz</a> renders of what could be the packaging for Intel&apos;s looming 12th Generation <a href="https://www.tomshardware.com/news/intel-alder-lake-specifications-price-benchmarks-release-date">Alder Lake</a> processors. It’s not a drastic redesign, but the new packaging looks pleasing to the eyes.</p><p>The <a href="https://www.tomshardware.com/news/core-i9-12900k-takes-on-core-i9-11900k-ryzen-9-5900x-new-benchmarks">Core i9-12900K</a>, which is the flagship of the Alder Lake lineup, will likely be the only SKU that sports special, retail packaging. It&apos;s not as exotic as the dodecahedron packaging that came with the <a href="https://www.tomshardware.com/reviews/intel-core-i9-9900k-9th-gen-cpu,5847.html">Core i9-9900K</a>, though. Nonetheless, the Core i9-12900K packaging features different tones of blue to stay within Intel’s theme. The biggest novelty with the design is sides that emulate a window-like view into the packaging. One side of the box shows a partial picture of a wafer.</p><p>The other K-series chips will arrive in standard, compact boxes that lack any sort of eye candy. The dimensions of the packaging insinuate that unlocked Alder Lake processors will arrive without a stock cooler, a trend that Intel started back in the Skylake days.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/PCPiXsxPd4oXfMC6zE7Qrc.jpg" alt="Intel 12th Gen Alder Lake Packaging" /><figcaption>Intel 12th Gen Alder Lake Packaging<small role="credit">VideoCardz</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/jqEwdkwsWsi3hmfFWHdb5d.jpg" alt="Intel 12th Gen Alder Lake Packaging" /><figcaption>Intel 12th Gen Alder Lake Packaging<small role="credit">VideoCardz</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/8rGjB2xou7zdc939ja7nQc.jpg" alt="Intel 12th Gen Alder Lake Packaging" /><figcaption>Intel 12th Gen Alder Lake Packaging<small role="credit">VideoCardz</small></figcaption></figure></figure><p>Curiously, VideoCardz didn’t receive a render of the packaging for the Core i3 models. Therefore, Intel may forsake the Core i3 on this generation or perhaps the lower end SKUs will arrive later on. There are already more than a dozen <a href="https://www.tomshardware.com/news/intel-alder-lake-already-looks-confusing-12-configurations-possible">Alder Lake chips</a> thanks to the hybrid design, potentially not leaving any room for a Core i3 chip. A <a href="https://www.tomshardware.com/news/us-retailer-alder-lake-boxed-tray-pricing-up-to-600-dollars">couple of U.S. retailers</a> have already shared their pricing for the Alder Lake stack, and neither of the stores remotely mentioned any Core i3 SKUs.</p><p>As far as Intel goes, the chipmaker only committed to a Fall 2021 launch for Alder Lake. However, the hardware circles have been speculating that Intel will  announce the hybrid desktop chips at its upcoming Intel Innovation event that runs from October 27 to 28. </p><p>Early rumors on the Internet claim that Alder Lake will hit the market on November 19.  Subsequently, MSI announced that Coreliquid AIO owners can apply for <a href="https://www.tomshardware.com/news/msi-spills-possible-alder-lake-launch-date">LGA1700 mounting kits starting November 4</a>, adding another potential launch date to our calendar.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel XTU Update Adds Full Support for Alder Lake Chips ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-xtu-update-adds-full-support-for-alder-lake-chips</link>
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                            <![CDATA[ Intel's new XTU update sheds light on some coming overclocking changes for its Alder Lake processors. ]]>
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                                                                        <pubDate>Mon, 30 Aug 2021 16:00:03 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:42:38 +0000</updated>
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                                                                                                <author><![CDATA[ editors@tomshardware.com (Aaron Klotz) ]]></author>                    <dc:creator><![CDATA[ Aaron Klotz ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/aAk2saHqkgFuTCanz8LnmD.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Aaron began building computers back when he was 8 years old in the mid-2000s, and it’s been a hobby of his ever since then. With a focus on computer hardware, he became an avid member of the Tom’s Hardware forums several years later, helping people solve issues with their PCs. He is now a freelance writer for Tom’s Hardware, writing about computer hardware news and more. When not busy playing or writing about computer hardware, he spends his free time playing video games like Star Citizen or Apex Legends.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Intel 12th Generation Alder Lake]]></media:description>                                                            <media:text><![CDATA[Intel 12th Generation Alder Lake]]></media:text>
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                                <p>Intel has just released a new update to its XTU monitoring and overclocking software, bringing it to <a href="https://www.intel.com/content/www/us/en/download/17881/29183/intel-extreme-tuning-utility-intel-xtu.html"><u>version 7.5.0</u></a>. This new release adds enhanced support for Alder Lake and fully supports all of the chip&apos;s most important features, including the hybrid core architecture and DDR5 memory. As covered at <a href="https://www.tomshardware.com/features/intel-architecture-day-2021-intel-unveils-alder-lake-golden-cove-and-gracemont-cores">Intel’s Architecture Day</a>, the company will release the Alder Lake CPUs soon, so they&apos;ll vie for a spot on our <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html"><u>best CPUs</u></a> list in the future. </p><p>The new Alder Lake architecture features a hybrid core layout with high-performance Golden Cove cores and efficiency-focused Gracemount cores built on the Intel 7 process node. The new high-performance cores promise a 19% IPC improvement over Rocket Lake, and the Gracemount cores are expected to outperform Skylake cores while consuming much less power.</p><p>Due to the many changes Alder Lake brings to the table, the number of new XTU features is extensive. The biggest additions are support for Alder&apos;s performance and efficiency cores, meaning XTU can now monitor the CPU usage of both sets of cores and identify which cores are high performance and which cores are optimized for power savings.</p><p>Intel also added support for Speed Optimizer technology, giving you a fully automated overclock with a single click. Speed Optimizer could apply to both performance and efficiency cores, but we’re not sure at this time. It all depends on whether Intel decides to keep its power-efficient cores unlocked for overclocking or not.</p><p>XTU now has support for real-time memory timings, meaning you can now adjust memory timings within the utility, and DDR5 memory is now officially supported.</p><p>Turbo Velocity Boost has also been added to Alder Lake’s support list in XTU for both per-core and package overclocks. Turbo Velocity Boost -- or TVB, is a relatively new technology that allows one or two cores to boost beyond Intel’s Turbo Boost specifications if temperatures are below a certain threshold. This is done via binning at the factory, so TVB knows which cores have the highest silicon quality for maximum boosting potential.</p><p>With per-core TVB boosting, you can overclock the TVB profile beyond its rated specifications within Intel’s XTU utility for very high single and dual-core overclocks. This type of overclocking can be very beneficial for single-threaded applications and games.</p><p>Alder Lake also supports a new type of TVB manipulation called package TVB overclocking. Unfortunately, Intel hasn’t provided any details about package TVB overclocking, but we suspect that the modifier encompasses all cores, including power saver cores and the integrated graphics.</p><p>If true, then we can expect both Intel’s power saver cores and high-performance cores to be fully unlocked, which could be a whole lot of fun for overclocking enthusiasts that want to push the limit on all their cores.</p>
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                                                            <title><![CDATA[ Intel Architecture Day 2021: Alder Lake Chips, Golden Cove and Gracemont Cores ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/features/intel-architecture-day-2021-intel-unveils-alder-lake-golden-cove-and-gracemont-cores</link>
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                            <![CDATA[ Intel shared the details of its Alder Lake processors and its Golden Cove and Gracemont cores at its Architecture Day 2021. ]]>
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                                                                        <pubDate>Thu, 19 Aug 2021 13:00:03 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:52:20 +0000</updated>
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                                                    <category><![CDATA[PC Components]]></category>
                                                                                                <author><![CDATA[ palcorn@outlook.com (Paul Alcorn) ]]></author>                    <dc:creator><![CDATA[ Paul Alcorn ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/RZRmFeQfPy3etHjBQitbGW.jpeg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;As a teenager, Paul scraped up enough money to buy a 486-powered PC with a turbo button (yes, a turbo button). Back when floppies were still popular he was already chasing after the fastest spinners for his personal computer, which led him down the long and winding storage road, covering enterprise storage. His current focus is on consumer processors, though he still keeps a close eye on the latest storage news. In his spare time, you’ll find Paul hanging out with his kids or indulging his love of the Kansas City Chiefs and Royals.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                                                                                    <media:description><![CDATA[Intel Architecture]]></media:description>                                                            <media:text><![CDATA[Intel Architecture]]></media:text>
                                <media:title type="plain"><![CDATA[Intel Architecture]]></media:title>
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                                <p>Intel&apos;s Architecture Day 2021 was full of deep-dive disclosures, with this year&apos;s topics focusing on the architectural details of the company&apos;s forthcoming Alder Lake CPUs that will span from the desktop PC down to ultra-mobile applications by combining two types of cores in a hybrid design, a first for an x86 desktop PC chip. However, unlike other Arm hybrid designs we&apos;ve seen that are tuned for power efficiency, Intel has tuned its Alder Lake chips for the highest performance possible. Intel claims that Alder Lake&apos;s high-performance cores come with an average 19% <a href="https://www.tomshardware.com/reviews/ipc-cpu-definition,5777.html">IPC</a> improvement over the Rocket Lake chips, marking the fastest high-performance core the company has built, and that its new efficiency core offers up to five times the power efficiency of Skylake. Intel&apos;s Alder Lake also supports features like <a href="https://www.tomshardware.com/reviews/pcie-definition,5754.html">PCIe </a>5.0 and DDR5 that leapfrog AMD and Apple in connectivity technology and also outstrip Ryzen&apos;s core counts in mobile designs, potentially a much-needed win when Alder Lake comes to market in Fall 2021.<br><br>Intel also outlined its Sapphire Rapids and IPU processors for data centers, which bring plenty of radical new advances of their own, and shared details about its new <a href="https://www.tomshardware.com/uk/features/intel-looks-to-create-gold-with-its-arc-alchemist-and-xe-hpg-architecture">Xe Arc Alchemist discrete gaming GPUs for desktops</a>, along with the datacenter-bound <a href="https://www.tomshardware.com/features/intel-ponte-vecchio-and-xe-hpc-architecture-built-for-big-data">Ponte Vecchio and Xe-HPC GPUs</a>, too.<br><br>Intel shared plenty of new information about its latest CPU architectures, but we&apos;re focusing on Alder Lake in this article. We&apos;ve put the short list of disclosures here up front, but we&apos;ll drill down in greater depth on each topic in its own section below and on the following pages:</p><ul><li>The Alder Lake <a href="https://www.tomshardware.com/reviews/glossary-soc-system-on-chip-definition,5890.html">SoC</a> will span from desktop PCs to ultramobile devices with TDP ratings from 9W to 125W, all built on the Intel 7 process. The desktop PC comes with up to eight Performance (P) cores and eight Efficient (E) cores for a total of 16 cores and 24 threads and up to 30 MB of L3 <a href="https://www.tomshardware.com/news/pc-cache-definition,37649.html">cache</a> for a single chip.</li><li>Intel's new hyper-<a href="https://www.tomshardware.com/reviews/cpu-computing-thread-definition,5765.html">thread</a>ed Performance (P) core, which comes with the Golden Cove microarchitecture designed for low-latency single-threaded performance, comes with an average of 19% more IPC than the Cypress Cove architecture in Rocket Lake. It also supports AVX-512 and AMX (a new AI-focused matrix-multiply ISA) for data center variants (both are disabled on consumer chips).</li><li>Intel's new single-threaded Efficiency (E) core, which comes with the Gracemont microarchitecture, is designed to improve multi-threaded performance and provide exceptional area efficiency (small footprint) and performance-per-watt. Four of these small cores fit in the same area as a Skylake core and deliver 80% more performance in threaded work (at the same power). A single E core also delivers 40% more performance than a single-threaded Skylake core (at the same power) in single-threaded work (caveats apply to both).</li><li>Intel's Thread Director is a hardware-based technology that provides enhanced telemetry data to the Windows 11 scheduler to assure that threads are assigned to either the P or E cores in an optimized manner, potentially easing one of the major pain points for a hybrid architecture in a standard desktop environment. This is the sleeper tech that enables the hybrid architecture.</li><li>Alder Lake does not support AVX-512 under any condition (fused off in P cores, not supported in E cores) to ensure an even ISA application. </li><li>Alder Lake supports either DDR4 or DDR5 (LP4x/LP5, too). Desktop PC supports x16 PCIe Gen 5 and x4 PCIe Gen 4, while mobile supports x12 PCIe Gen 4 and x16 PCIe Gen 3, Thunderbolt 4, and Wi-Fi 6E.</li><li>Intel will hold the inaugural Intel Innovation event October 27-28 with keynotes, demos and technical sessions. The event will be both in-person (location unannounced) and remote, and is largely thought to be the official unveiling of the Alder Lake processor stack.   </li></ul><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/tZW5Ke6UnGZLea8F2sap5Z.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/7CZJMYZYqjpVbkfMiWx6kY.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/hWwh2Skm9AAZbkaqH4ejtY.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><h2 id="alder-lake-configurations-and-socs">Alder Lake Configurations and SoCs</h2><p>Quick refresher: Intel&apos;s Alder Lake architecture features a design reminiscent of ARM&apos;s big.LITTLE, with the larger cores used primarily for high-priority single-threaded work, while the smaller cores execute multi-threaded workloads and less-intensive background tasks. Intel uses a combination of &apos;big&apos; Performance (P) Golden Cove cores and &apos;small&apos; Efficiency (E) Atom Gracemont cores for the task. We&apos;ll dig deeper into the core architectures on the following pages.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="Alder 01.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/GPua8kVLq6UxtpNVg2JhPY.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/GPua8kVLq6UxtpNVg2JhPY.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Intel&apos;s goal with Alder Lake was to create a handful of IP blocks used to mix-and-match designs that cater to a vast segment of the consumer market spanning from 7W to 125W TDPs.<br><br>As you can see above, Intel etches both the P-Cores and E-Cores onto the same single CPU die, with four of the smaller efficient E-Cores (we outlined one E-Core cluster in red) consuming roughly the same amount of die area as a single high-performance P-Core (dark blue). This diagram may not be entirely to scale, but Intel tells us that it can fit four E-Cores into the same amount of space as a single Skylake core.<br><br>The Alder Lake chips use the Intel 7 process, which used to be referred to as &apos;10nm Enhanced SuperFin&apos; before Intel recently renamed its process nodes during its latest process and packaging roadmap update. The Golden Cove cores support <a href="https://www.tomshardware.com/reviews/hyper-threading-intel-definition,5746.html">Hyper-Threading</a>, allowing two threads to run on a single core, while the smaller Gracemont cores are single-threaded. Both types of cores come as part of IP blocks that also include some of the cache topology (like L1, L2, and a portion of LLC). That means some models could come with seemingly odd distributions of cores and threads.<br><br>Intel ties the cores, L3 caches (LLC), memory, and other IP blocks together with a ring bus, much like we&apos;ve seen with its prior CPU architectures for the mainstream desktop.<br><br>The media engine, in this case the same <a href="https://www.tomshardware.com/news/intel-xe-lp-graphics-specs">Gen12 Xe LP architecture found in Tiger Lake</a> but ported to the Intel 7 process, comes in two variants: one with 32 EUs (GT1) for desktop PCs (because they tend to use discrete GPUs), and another GT2 variant with 96 EUs for the mobile variants. Intel says the Xe LP engine supports <a href="https://www.tomshardware.com/reviews/what-is-fhd-full-hd,5741.html">1080p</a> gameplay and features a <a href="https://www.tomshardware.com/news/what-is-10-bit-color,36912.html">12-bit</a> end-to-end video pipeline. You&apos;ll notice that the desktop PC models don&apos;t have Thunderbolt 4 connectivity or an image processing unit (IPU), with those features being used only for mobile variants.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/uzMFazszDvqfj2aESUtCNi.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/6nCUh4ScqnTAv34nNCGDji.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/9gHcUiGF2Kxx5B8Wv2Uxui.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>The Alder Lake desktop PC chips will come with a maximum of eight performance cores and eight efficiency cores with a total of 24 threads (two threads per P-Core, one thread per E-Core). These chips will also top out with up to 30MB of L3 cache.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/Gq2ZmBtqAzVq4Rw77dfyU3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/49X8dZBXhpXts6hsuYbUd3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/vBRoYMcCxsrDqBCsMyLQr3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Alder Lake&apos;s new memory controllers support four different memory types: DDR5-4800 and LP5-5200, along with DDR4-3200 and LP4x-4266. This single design&apos;s broad memory support enables different types of memory configurations for different use-cases. It appears that Intel will split its memory support into DDR4 for lower-end motherboards (B- and H-series motherboards) and mobile systems, while DDR5 will only slot in for higher-end configurations (Z-series motherboards). This makes sense given the expected high pricing for DDR5 memory in the early days of adoption, though it&apos;s notable that Intel hasn&apos;t confirmed its approach yet.<br><br>Alder Lake also supports up to PCIe 5.0 with 64 GB/s of throughput across a x16 lane connection. The desktop PC chips support a x16 PCIe Gen 5 connection with an additional x4 PCIe Gen 4 connection (it is unclear if this x4 connection is used for the <a href="https://www.tomshardware.com/news/chipset-definition,37655.html">chipset</a> or exposed to the user), while lower-power variants support a x12 PCIe Gen 4 config paired with a x16 PCIe Gen 3 connection.<br><br>The collection of P and E cores, caches, and higher-throughput 64 GB/s PCIe 5.0 and DDR5 subsystems requires a robust fabric to ensure low-latency high-throughput connections between the various elements. Alder Lake&apos;s compute fabric ties these elements together with 1000 GB/s of throughput available across the whole cluster of elements, or even to a single core. Intel says this bus features a dynamic bandwidth/latency optimization scheme based on fabric utilization, but it remains unclear how much this differs from a standard ring bus with its traffic routing mechanisms. This system can also shift the L3 cache from an inclusive or non-inclusive policy based upon utilization.<br><br>Additionally, the memory fabric supports up to 204 GB/s of throughput that can be modulated in real time via both bus width and frequency adjustments. This means Alder Lake&apos;s memory subsystem can dynamically adjust between higher- and lower-frequency operation states based upon real-time demand-based heuristics workload analysis, with the intent to optimize for power or performance based on the workload at hand.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="Intel Architecture Day 2021_Pressdeck_Final_EMBARGO-69 copy.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/B3zPaZhQ8Hm6UHQHEdgLbA.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/B3zPaZhQ8Hm6UHQHEdgLbA.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>The first chips based on the design come in three different packages, each for a different segment: The desktop PC chip that will drop into new motherboards with an LGA 1700 <a href="https://www.tomshardware.com/reviews/cpu-socket-definition,5758.html">CPU socket</a> (yes, 115x coolers with converters are compatible), a high-performance BGA Type3 package for mobile applications (this is likely a 12-28W UP3 package, though Intel hasn&apos;t confirmed), and a high-density BGA Type4 HDI package for Ultra Mobile applications (likely a 7-15W UP4 equivalent for ultra-thins).<br><br>We&apos;ve already gleaned plenty of information from official Linux Coreboot patches that outline the various combinations of P- and E-cores, and we&apos;ve also narrowed down Intel&apos;s three product categories in the image above:</p><ul><li>Alder Lake-S: Desktop PCs</li><li>Alder Lake-P: High-performance notebooks</li><li>Alder Lake-M: Low-power devices</li></ul><div ><table><caption>Alder Lake-S*</caption><tbody><tr><td class="firstcol " >Big + Small Cores</td><td  >Cores / Threads</td><td  >GPU</td></tr><tr><td class="firstcol " >8 + 8</td><td  >16 / 24</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >8 + 6</td><td  >14 / 22</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >8 + 4</td><td  >12 / 20</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >8 + 2</td><td  >10 / 18</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >8 + 0</td><td  >8 / 16</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >6 + 8</td><td  >14 / 20</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >6 + 6</td><td  >12 / 18</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >6 + 4</td><td  >10 / 16</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >6 + 2</td><td  >8 / 14</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >6 + 0</td><td  >6 / 12</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >4 + 0</td><td  >4 / 8</td><td  >GT1 - Gen12 32EU</td></tr><tr><td class="firstcol " >2 + 0</td><td  >2 / 4</td><td  >GT1 - Gen12 32EU</td></tr></tbody></table></div><p><em>*Intel has not officially confirmed these configurations. Therefore, not all models may come to market. However, listings assume all models have Hyper-Threading enabled on the large cores.<br><br></em>As we can see above, the flagship desktop PC model would come with eight Hyper-Threading enabled &apos;big&apos; cores and eight single-threaded &apos;small&apos; cores, for a total of 24 threads. So logically, we could expect the 8 + 8 configuration to fall into the Core i9 classification, while 8 + 4 could land as Core i7, and 6 + 8 and 4 + 0 could fall into Core i5 and i3 families, respectively. But, naturally, it&apos;s impossible to know how Intel will carve up its product stack due to the completely new paradigm of the hybrid x86 design.<br><br>Now that we have a much better idea of how the chips are designed at the SoC level, let&apos;s see how Intel makes sure applications land on the correct cores, and then take a dive into the core microarchitectures.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe><p>Intel&apos;s hybrid x86 architecture began with low-power Lakefield processors that didn&apos;t find much success in the market: In fact, Intel has already sent them off to the retirement home. Some of the teething pains with those early hybrid x86 chips boiled down to subpar operating system support – Windows 10X was supposed to arrive with enhanced scheduling to unlock the efficiencies of the hybrid design, but Microsoft canceled the operating system.</p><p>As such, Intel&apos;s expansion of the hybrid architecture to its high-performance products is a risky move, largely because the challenge lies in assuring that the correct type of workloads land on the correct execution cores. It&apos;s easy to see that having a core that excels at high-performance workloads isn&apos;t much help if the high-performance workloads consistently land in the slower cores, and thread scheduling systems based entirely on static rules (priority, foreground, background) tend to be inefficient and create software programming overhead.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="01.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/W9ZwsgcT9bzBcUmXtbFfz9.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/W9ZwsgcT9bzBcUmXtbFfz9.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>That&apos;s where Intel&apos;s Thread Director technology comes in. This hardware-based technology provides enhanced telemetry data to Windows 11 to assure that threads are scheduled to either the P or E cores in an optimized and intelligent manner, potentially easing one of the major pain points for a hybrid architecture in a standard desktop environment. It&apos;s also transparent to software.</p><p>This technology works by feeding the Windows 11 operating system with low-level telemetry data that is collected from within the processor itself, thus informing the scheduler about the state of the core, be it power, thermal or otherwise. (As we&apos;ll cover shortly, Intel has integrated a new power microcontroller in each Gracemont core, a first, that collects similar data on the order of microseconds instead of milliseconds, so it might be part of the new telemetry system.)</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="02.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/KTYFmQinb5xAcBPCEq6jEA.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/KTYFmQinb5xAcBPCEq6jEA.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Additionally, Thread Director can also detect the instruction mix (scalar/vector) used in any given thread at a nanosecond granularity, and then communicate that data to the Windows 11 scheduler so the thread can be steered to the correct execution core, be that a high-performance P-Core or an efficient E-Core. Typically, vector/AI workloads will be prioritized to performance cores while scalar instructions and background tasks are moved to efficiency cores. However, the system is dynamic, so thread placement decisions can vary based on the mix of conditions and workloads present on the processor at any given time.</p><p>Additionally, threads can go through various phases and instruction mixes over their lifetime, so the scheduler constantly re-adjusts to the current situation based on the real-time telemetry data. This is helpful when the number of threads designated for &apos;performance&apos; outnumber the available cores, for instance. In that case, less demanding &apos;performance&apos; threads, such as a program in a spin loop, can be moved off to the efficiency cores while more deserving workloads are assigned to the performance core.</p><p>Previously, the operating system didn&apos;t have access to this type of telemetry data to inform scheduling decisions, instead using simple data like whether the process was a foreground or background task. This enhanced system allows the operating system and processor to work in tandem to assure correct scheduling in real time, thus avoiding intensive software re-coding. This is a promising sign that existing code will run well on the Alder Lake processors.</p><p>If programmers want more granular control, that&apos;s there, too. The new approach also enables programmers to specify that certain threads are used in a certain manner through an expansion of the PowerThrottling API, which allows developers to assign a QoS attribute to their threads. Additionally, a new EcoQos classification tags threads that respond best on the efficiency cores to assure they are prioritized to execute on the E-Cores.<br><br>Microsoft says that the Edge browser and &apos;various&apos; Windows 11 components now take advantage of the EcoQos classification system.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="03.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/Uo3hqK2LYnbNoqN76CYsSA.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/Uo3hqK2LYnbNoqN76CYsSA.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>This looks to be a promising and less-intrusive (at least from a coding standpoint) method of ensuring that the correct threads land on the correct cores, thus delivering optimal performance. That said, we&apos;ll have to see it in action before we can pass judgement on its efficacy – much of its potency will boil down to the latency involved with the process of communicating telemetry data and moving the thread, and intel isn&apos;t sharing those details yet. Additionally, it&apos;s possible that an excess of communication between the Thread Director and the Windows 11 scheduler could create a challenging workload of its own, so finding the right amount of granularity will be key to assuring both timely thread placement and a minimum of system overhead.</p><p>The system is already far in development, and Microsoft says that further enhancements to the engine are already underway and in planning for Windows 11, with more details to be shared at a later date.</p><p>Alder Lake chips will also work fine with a bog-standard Windows 10 operating system – existing thread-scheduling techniques continue to work with the processors, just not as well. While the chips work, you&apos;ll miss out on the enhanced capabilities of Thread Director (that&apos;s Windows 11 only), which will have a varying impact on performance and power consumption based on instruction type and application usage models. In other words, your mileage will vary.</p><h2 id="intel-avx-512-support-culled">Intel AVX-512 Support Culled</h2><p>Finally, it has long been known that the Gracemont cores do not support the AVX-512 instruction set, and speculation has been rife about how the code would work on Alder Lake processors, if at all. Intel&apos;s answer is simple: AVX-512 will not work on either type of core present in Alder Lake. The high-performance cores do feature the Golden Cove architecture that supports AVX-512 natively, but Intel has fused that feature off (yes, the 512-bit FMA is still present and consumes die area) for the consumer chips. In contrast, server chips with Golden Cove have two 512-bit FMAs and fully support AVX-512. Meanwhile, the Gracemont cores are simply not AVX-512 capable, and disabling support allows the Alder Lake chip to have uniform ISA support. </p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe><p>Intel&apos;s mission with the efficiency core (E-Core), which is based off the Atom Gracemont architecture (though Intel has dispensed with the &apos;Atom&apos; branding) was to create a highly scalable architecture optimized for multi-core performance-per-watt. The engineers set an aggressive silicon area target, meaning they aimed to pack as many cores with as much performance as possible into a small footprint, and set out to deliver more IPC than Skylake within a lower power envelope. We&apos;ll jump ahead here and show you Intel&apos;s claimed results, and then show you how Intel got there. As with all vendor-provided benchmarks, view these with the appropriate skepticism.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/pRN8bPHbYF4eAo7t68ufHd.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/Nx3zpuhjaQdscXguoksNSd.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>The latency performance chart, which quantifies single-threaded performance, is first up. First, be aware that Intel tested with the SPECrate2017_int_base test for these results, meaning the test represents performance with integer workloads, not floating point. For the single-threaded test, Intel disabled hyperthreading on an undisclosed Skylake processor (likely first gen) and measured performance against a single Gracemont core, which doesn&apos;t support hyper-threading. That means we&apos;re looking at a pure single-core benchmark for both processors. Gracemont provided 40% (or more) performance at the same power (ISO power) as the Skylake chip, or provided the same level of performance (ISO performance) at less than 40% of the power. That means that the Skylake core consumed 2.5 times more power to give the same level of performance as the Gracemont core.  </p><p>The throughput performance test measures performance spread over multiple threads, with four single-thread Gracemont cores facing off with two threaded Skylake cores (for a total of four threads). Here Gracemont delivers 80% more performance while consuming less power, or the same throughput at 80% less power. That means Skylake needed five times the power for the same performance in threaded work, which is impressive indeed.</p><p>It&apos;s worth nothing that threading tends to only deliver about ~20-30% more performance, so the Skylake chip is at a disadvantage, though it only pays about a 5% penalty in die area to add threading. To even this out, consider that the four Gracemont cores fit into the same footprint as a single Skylake core, meaning that Gracemont not only wins on all counts in these integer workloads, but its area efficiency is vastly superior. Net net, according to Inntel, Gracemont exceeds Skylake&apos;s core performance while consuming less power in a far smaller footprint. Here&apos;s how they did it.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/VPtrG9JfBrfj6v27yQdGA.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/oPxFeRUnW6NZJGmJH5GRP.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3TnKhoVmvyBvYMFnx56sW.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>From the highest of levels, Intel designed Gracemont with a deeper front end with on-demand length decode paired with a wider back end with more execution ports. The design supports vector and AI instructions, like VNNI and AVX-256, but doesn&apos;t support AVX-512. Additionally, Intel aimed for a wide dynamic frequency range to maximize the effective range of the processor.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/sSHWnUpS8v9cfSmwJCCwFA.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/iiKCd7sh8kspkiuwhbjHUA.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Intel increased branch prediction accuracy by switching to a 5,000-entry branch target cache. Additionally, Intel says its new &apos;long&apos; history-based branch prediction system helps to generate accurate instruction pointers, which then allows discovery and correction of instruction cache misses before they become critical to program execution. The front end also has a 64KB instruction cache to keep instructions close, thus saving power. The chips also have Intel&apos;s first on-demand instruction length decoder, which generates pre-decode information that is then stored alongside the instruction cache. This provides a history of previous instructions that allows &apos;familiar&apos; code to bypass the length decoder to save energy.</p><p>The out-of-order decoder has a clustered design with dual three-wide decoders. This allows for decoding up to six instructions per cycle while, according to Intel, maintaining comparable energy efficiency to a narrower design. The unit also has hardware-driven load balancing to ensure parallelism.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/J5mEwXsUKyVPe6f75kJWFG.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/9SBq2UV9Lbjfui759uoeXG.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>The back end has a five-wide allocation and eight-wide retire, along with a 256 entry out-of-order window that helps to promote parallelism. That&apos;s fed to 17 execution ports. Intel says this arrangement delivers more integer IPC than Skylake, but at a fraction of the power.</p><p>There are four general-purpose integer execution ports with dual integer multipliers and dividers that can resolve two branches per cycle. To the far right we can see the three SIMD ALUs with the integer multiplier (IMUL) that&apos;s used for Intel&apos;s VNNI instructions. The two symmetric floating point pipelines can do two independent add or multiply operations, and can also do two FP multiply/add operations per cycle via vector extensions. We can also see the AES and SHA acceleration engines in the same stack.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/ZzouwNKwso4DnEZ8hG8aJN.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/9KLpjBUWNMc3BFohiyTnkN.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Moving down to the memory subsystem, we can see dual load and dual store pipelines that support 32KB read and write bandwidth simultaneously. The L2 cache is shared among all four cores, with 2MB for consumer chips and 4MB for data center models. This feeds the cores with 64 bytes of read bandwidth per cycle at 17 cycles of latency.</p><p>Intel also touts Alder&apos;s modern instruction set with Control-flow Enforcement Technology (CET), VT-rp, support for vector instructions (up to AVX-512), and AVX2 VNNI, which uses FP16 instructions to impart a 2X performance gain in integer AI throughput.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="Intel Architecture Day 2021_Pressdeck_Final_EMBARGO-32 copy.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/d3hcc22pCkgxB2UfyzG3cT.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/d3hcc22pCkgxB2UfyzG3cT.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Gracemont&apos;s focus on area efficiency allows Intel to, for a lack of a better term, spam cores. Intel can essentially just drop in lots of four-core clusters to pack a lot of compute into a very small area and the low switching energy per instruction maximizes power-constrained throughput in heavily-threaded workloads. This is enabled by a reduced operating voltage that not only saves power (voltage is the most important factor here), but also provides headroom for higher frequencies for on-demand peak performance.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/c7yNnKKt6VnPsDQbCGvyuM.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/8XDg3Yq4KJzFMFcnR8xJ8N.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/jejnoNiSSQ8VCtUCTyTBGN.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Intel&apos;s goal with its Performance Core (P-Core), which comes with the Golden Cove microarchitecture, was to create the highest-performance core the company has ever built and deliver a step-function increase in CPU performance. However, the architecture also needed to be scalable with a wide dynamic range so it could scale from laptops to desktops to data centers — Intel uses this same core in its Sapphire Rapids server chips, too, albeit with modifications that tailor it for datacenter workloads.</p><p>For the client market, the company focused on optimizing the core for single-threaded performance and AI workloads. The company also wanted to expand its support for large data sets and large code footprint applications.  </p><p>As we&apos;ve seen in the past, Intel followed the "Wider, Deeper, Smarter" ethos with the Golden Cove design. That includes a deeper out of order scheduler and buffers, more physical registers, a wider allocation window, and more execution ports. Intel paired those enhancements, which we&apos;ll cover below, with smarter branch prediction to better feed the execution engine, thus unlocking more parallelism and performance.</p><p>The company also ingrained a new autonomous power management microcontroller into each core that measures telemetry at microsecond granularity, instead of milliseconds. Intel says this allows them to better optimize power usage based on the actual behavior of an application, thus delivering higher average frequency for any workload. This is Intel&apos;s first per-core integrated power management microcontroller, and it is only present on the Golden Cove cores.</p><p>We surmise that this unit also feeds Intel&apos;s Thread Director tech with telemetry data. The power management controller also allows for faster frequency transitions, though Intel hasn&apos;t said just how fast. Alder Lake still adjusts frequency in 100 MHz steps, though, as opposed to Zen&apos;s 25 MHz granularity.</p><p>Here&apos;s the short list of improvements that we&apos;ll cover below.</p><div ><table><thead><tr><th class="firstcol " >Unit</th><th  >Sunny Cove</th><th  >Performance-core</th></tr></thead><tbody><tr><td class="firstcol " >iTLB 4K pages</td><td  >128</td><td  >256</td></tr><tr><td class="firstcol " >iTLB 2M/4M</td><td  >16</td><td  >32</td></tr><tr><td class="firstcol " >uop Cache</td><td  >2.25K</td><td  >4K</td></tr><tr><td class="firstcol " >uop cache BW</td><td  >6</td><td  >8</td></tr><tr><td class="firstcol " >Decoders</td><td  >4</td><td  >6</td></tr><tr><td class="firstcol " >Allocation</td><td  >5</td><td  >6</td></tr><tr><td class="firstcol " >OoO Window</td><td  >352</td><td  >512</td></tr><tr><td class="firstcol " >Integer ALUs</td><td  >4</td><td  >5</td></tr><tr><td class="firstcol " ># of Loads</td><td  >2×512</td><td  >3×256, 2×512</td></tr><tr><td class="firstcol " >L1 data Cache</td><td  >48KB</td><td  >48KB</td></tr><tr><td class="firstcol " >L1 Fill Buffers</td><td  >12</td><td  >16</td></tr><tr><td class="firstcol " >L1 DTLB</td><td  >64</td><td  >96</td></tr><tr><td class="firstcol " >L2 cache</td><td  >512KB/1.25MB</td><td  >1.25MB / 2MB</td></tr></tbody></table></div><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/pTxe4UvYtqac4JmxL2CoBG.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/3uGvvf63V2vjFWpWcZNNHG.png" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>We&apos;ll jump ahead here and show you Intel&apos;s claimed results, and then show you how Intel got there. Intel claims that Alder Lake&apos;s Golden Cove performance core offers an average of a 19% performance improvement over the Cypress Cove architecture found in Rocket Lake when both chips operate at the same frequency (ISO frequency). Intel derived this average from a wide distribution of workloads that includes SPEC CPU 2017, Sysmark 25, Crossmark, PCMark 10, WebXPRT3, and Geekbench, among other unlisted benchmarks.</p><p>As with all vendor-provided benchmarks, you&apos;ll have to take this with a grain of salt. But this could be promising if Intel can deliver near these levels of performance improvements, assuming it can squeeze high enough clock rates out of the Intel 7 silicon and workloads can be correctly targeted to these performance cores, of course.</p><p>Intel claims this jump is larger than the improvement from Skylake to Sunny Cove. That&apos;s impressive, if true. The second image in the album above comes from our lab results in our CPU Benchmark hierarchy. Intel&apos;s Rocket Lake Core i9-11900K, which has the Cypress Cove architecture that is very similar to Sunny Cove, currently leads the single-threaded performance hierarchy against AMD&apos;s chips. A quick glance at Intel&apos;s previous-gen Core i9-10900K shows that Intel&apos;s jump from Skylake to Sunny Cove represented a large improvement that helped it take the lead from AMD&apos;s Zen 3 architecture. That means Alder Lake&apos;s single-threaded performance could be well-positioned against AMD&apos;s Zen 4 chips if it can pull off a comparable advance.</p><h2 id="front-end">Front End</h2><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="Intel Architecture Day 2021_Pressdeck_Final_EMBARGO-40 copy.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/Pu83jYeFKM8pk9CXT4WjGT.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/Pu83jYeFKM8pk9CXT4WjGT.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Intel improved the micro-op supply from both the decoder and the micro-op cache. That starts by doubling length decode to 32B per cycle and adding two additional decoders (6) to enable 6 decodes per cycle. The micro-op cache also now feeds 8 micro-ops per cycle instead of 6 and can hold 4K micro-ops, up from 2.25K before. This helps to feed the out of order engine quicker and increases the micro-op hit rate.</p><p>To support software with a large code footprint, Intel doubled the number of 4K pages and large pages stored in the iTLB (as listed in the table above) and enhanced code prefetch by increasing from tracking 5K branch targets to 12K branch targets.</p><p>Intel says it improved branch prediction to reduce jump mispredicts and significantly overhauled the Branch Target Buffer (BTB). The BTB serves as a cache for the prefetcher, and Intel more than doubled it to help with large code footprints. Additionally, the BTB now has a machine learning algorithm that allows it to expand or contract capacity based upon usage, thus fine-tuning power and performance.</p><h2 id="out-of-order-engine">Out of Order Engine</h2><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:3000px;"><p class="vanilla-image-block" style="padding-top:56.27%;"><img id="" name="Intel Architecture Day 2021_Pressdeck_Final_EMBARGO-41 copy.jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/FDWroWMbUtA3aJMkR2uLqZ.jpg" mos="" align="middle" fullscreen="1" width="3000" height="1688" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/FDWroWMbUtA3aJMkR2uLqZ.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Intel)</span></figcaption></figure><p>Intel widened the Out of Order (OoO) engine from a 5- to 6-wide allocate unit that then feeds into the scheduler, which now feeds 12 execution ports, as opposed to 10 with Sunny Cove. The engine is also deeper with a 512-entry reorder-buffer, up from 352, and more physical registers.</p><p>Intel also says that it has enabled collapsing dependency chains by executing some simple instructions at the rename/allocation stage to save resources further down the pipeline. This allows other operations to run faster and save power by better utilizing the instruction resources. Intel is playing coy about this new technique, though, and hasn&apos;t answered follow up questions regarding its new technique.</p><h2 id="integer-and-vector-execution-units">Integer and Vector Execution Units</h2><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/V3Kn3pSXpLNhiqJuQQ2Ehe.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/g86qDbtE78EkQNXErzBure.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Intel added a fifth general integer execution port with an ALU and LEA. All five LEAs are single-cycle and can be used for additions and subtractions, or fast multiplications with fixed numbers. On the vector side, Intel infused two more fast adders (FADD) on ports 1 and 5. Intel also bulked up the FMAs with support for FP16 operations with AVX-512 instructions, but that is confined to the server versions of the chip. AVX-512 is disabled for Alder Lake processors.</p><h2 id="l1-and-l2-cache-and-memory-subsystems">L1 and L2 Cache and Memory Subsystems</h2><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/aCSmJ8dEtDXpbtMAWAgZuj.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/QWDxLeQXsRycD6VdBhpq6k.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>The L1 cache is now wider with 3 load ports instead of 2, and deeper with larger Load and Store Buffers. Intel increased the L1 data TLB by 50% and the L1 data cache can fetch 25% more misses in parallel. The L1-D cache also has an enhanced prefetcher that can now service four page table walks instead of two, which is good for workloads with irregular data sets.</p><p>The consumer chips, like Alder Lake, will come with 1.25MB of cache per performance core, while data center chips get 2MB. The lower-capacity cache for client results in improved latency, while the higher-capacity cache for datacenter helps feed chips with higher core counts. Intel says its new prefetch engine observes running programs to identify potential future memory access patterns, and then can prefetch down multiple potential paths to service those potential requests.</p><figure role="gallery"><figure><img src="https://cdn.mos.cms.futurecdn.net/XmraErsmqe8svrjDCm8zS3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/KndirNMGDEwSzidCurKPg3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure><figure><img src="https://cdn.mos.cms.futurecdn.net/mwyGvu5G5mywMLx5hSXrn3.jpg" alt="Intel Architecture" /><figcaption><small role="credit">Intel</small></figcaption></figure></figure><p>Intel&apos;s Advanced Matrix Extension (AMX) technology is disabled in the Golden Cove cores present in Alder Lake but is active for the Sapphire Rapids datacenter processors. AMX is a next-gen AI accelerator that enables hardware-accelerated matrix multiplication operations that significantly enhance AI inference and training performance. Like AVX, AMX incurs a clock frequency penalty. To reduce jitter, Intel has worked to reduce the impact of the AMX license levels on clock rates, largely by adopting a more fine-grained per-core power control scheme. We&apos;ll dive deeper into this technology in our Sapphire Rapids coverage.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe><p>Alder Lake comes with promising advances, matching AMD&apos;s core counts and leapfrogging both AMD and Apple&apos;s M1, at least for now, with support for DDR5 and PCIe 5.0 technology. But Intel&apos;s goal to redefine its desktop PC and notebook lineups <em>is</em> risky — as Raja Koduri aptly describes it, Alder Lake is one of the biggest shifts in x86 architectures in over a decade.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1920px;"><p class="vanilla-image-block" style="padding-top:56.25%;"><img id="" name="Intel-Architecture-Day-All-Slides-(1191).jpg" alt="Intel Architecture" src="https://cdn.mos.cms.futurecdn.net/4snuPHtsMfvaZMvL9QFK7S.jpg" mos="" align="middle" fullscreen="1" width="1920" height="1080" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/4snuPHtsMfvaZMvL9QFK7S.jpg' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Inel)</span></figcaption></figure><p>Alder Lake comes to market at an important time in the company&apos;s history. Potent adversaries challenge Intel on both sides, with AMD&apos;s Ryzen processors steadily chewing away at Intel&apos;s leading position in both desktop PCs and laptops, while <a href="https://www.tomshardware.com/news/Apple-M1-Chip-Everything-We-Know">Apple&apos;s M1</a> laptop processors with their Arm-based design have set a high bar for hybrid designs and have helped propel Arm to its highest desktop PC market share in history.<br><br>In fact, Apple&apos;s M1 has brought a step-function improvement in both performance and power consumption over competing x86 chips, with much of that success coming from Arm&apos;s long-standing support for hybrid architectures and the requisite software optimizations.<br><br>Intel is on a similar trajectory with its collaboration with Microsoft to enable enhanced Windows 11 support for its x86 hybrid chips. In fact, Intel&apos;s Thread Director technology could be one of the most important aspects of the Alder Lake disclosures today. This is the sleeper tech that will determine Alder Lake&apos;s fate.<br><br>Intel fully expects that Alder Lake will be more than the sum of its parts, with its hybrid x86 architecture delivering a non-linear performance increase. Intel has a seemingly great canvas to paint on with its pairing of efficient Gracemont and high-performance Golden Cove cores, but it has to make sure that the paint lands in the right place. Or, in this case, the threads land on the correct cores.<br><br>If the threads land where they should, Intel could have a winner. In lightly threaded work, Gracemont purportedly provided 40% (or more) performance at the same power (ISO power) as the Skylake chip, meaning Skylake consumes 2.5 times more power to give the same level of performance as the Gracemont core. In threaded work, Gracemont delivers 80% more performance while consuming less power, or the same throughput at 80% less power. That means Skylake needs five times the power for the same performance, which is impressive indeed. Spam enough of these small cores into a package and you&apos;ll have a powerful chip that can trade blows with the heavyweights, even on the Arm side, but at equivalent or lower power.<br><br>Things are just as impressive on the performance core side things. Intel claims Golden Cove delivers a 19% increase in IPC over Cypress Cove, which already is plenty impressive in single-threaded work. In fact, Golden Cove&apos;s IPC improvement is larger than the improvement from Skylake to Sunny/Cypress Cove. That&apos;s impressive, if true. Intel already leads in single-core performance, so Alder Lake could be well-positioned against AMD&apos;s Zen 4 chips if it can pull off a comparable advance.<br><br>We won&apos;t have to wait much longer to see how effective Intel&apos;s preparations have been, Alder Lake comes to market in Fall 2021. We&apos;re sure to learn more at the inaugural Intel Innovation event October 27-28.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Gigabyte Outs MU92 Server Motherboards for Xeon W-3300 ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/gigabyte-unveils-mu92-motherboards-for-lga4189-processors</link>
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                            <![CDATA[ Gigabyte unveils MU92 platform for 1S servers. ]]>
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                                                                        <pubDate>Fri, 30 Jul 2021 13:19:23 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 08:40:17 +0000</updated>
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                                                                                                <author><![CDATA[ ashilov@gmail.com (Anton Shilov) ]]></author>                    <dc:creator><![CDATA[ Anton Shilov ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/uMZ5kNphxA2Ut6whdLaSQV.png ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Anton Shilov has been in the PC industry since 1990s playing games, building PCs, and writing stories about pretty much everything that relates to PCs, Macs, smartphones, tablets, and even fab equipment. Over his career, he has worked at a variety of high-ranking websites, including AnandTech, EE Times, TechRadar, X-bit labs, and now Tom&#039;s Hardware. When Anton is not reading or writing about something high-tech, he is probably watching a good movie, playing a video game, or spending time with his family.&lt;/p&gt; ]]></dc:description>
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                                <p><a href="https://www.gigabyte.com/tw/Enterprise/Server-Motherboard/MU92-TU1-rev-1x">Gigabyte this week introduced</a> its new MU92-series motherboards that are designed for Intel&apos;s 3rd Generation Xeon Scalable &apos;Ice Lake-SP&apos; processors with up to 40 cores as well as support Intel&apos;s workstation-optimized Xeon W-3300 CPUs with up to 38 cores and high frequencies. The MU92-series platforms are designed primarily for servers. </p><p>Gigabyte&apos;s MU92-TU motherboard is based on Intel&apos;s C621A chipset and are equipped with one Socket P+ for Intel&apos;s LGA4189 processors as well as 16 slots for DDR4-3200 SDRAM to enable support of up to 4TB of memory using RDIMMs, LRDIMMs or Intel&apos;s Optane Persistent Memory modules.  </p><p>Gigabyte&apos;s MU-92-TU comes in an E-ATX form-factor in a bid to provide additional expandability (and memory capacity) using seven PCIe Gen x16 slots (one works in x16 mode, three can work in x8 or x16 mode, the remaining can only work in x8 mode) for accelerators, high-performance SSDs, and/or network adapters. In addition, the motherboard has one M.2-22110 slot for SSDs with a PCIe 3.0 x4 interface, two SlimSAS connectors supporting 8 SATA ports as well as two native SATA ports. </p><figure class="van-image-figure " data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:900px;"><p class="vanilla-image-block" style="padding-top:89.78%;"><img id="" name="gbt-mu92-1.png" alt="Gigabyte" src="https://cdn.mos.cms.futurecdn.net/k3pGAptjQK3BoeFrViVUNA.png" mos="" align="middle" fullscreen="1" width="900" height="808" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/k3pGAptjQK3BoeFrViVUNA.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=""><span class="credit" itemprop="copyrightHolder">(Image credit: Gigabyte)</span></figcaption></figure><p>Being a server motherboard, Gigabyte&apos;s MU92-TU does not have rich I/O capabilities. It does have two 10GbE connectors controlled by the Intel X710-AT2 chip as well as one GbE port for IPMI remote management enabled by the Aspeed AST2500 BMC. Also, the unit has two USB 3.0 ports, a COM port, and a D-Sub display output. </p><p>As far as software compatibility is concerned, Gigabyte&apos;s MU92-TU is compatible with Microsoft&apos;s Windows Server 2016/2019, Red Hat Enterprise Linux 8.2/8.3 ( x64) or later, SUSE Linux Enterprise Server 12 SP5/15 SP2 ( x64) or later, Ubuntu 20.04/20.04.1 LTS (x64) or later,. VMware ESXi 6.7 Update3 P03/ESXi 7.0 Update2, and Citrix Hypervisor 8.2.0.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1466px;"><p class="vanilla-image-block" style="padding-top:93.66%;"><img id="" name="gbt-mu92-s.png" alt="Gigabyte" src="https://cdn.mos.cms.futurecdn.net/wnU2P6hLZdXiFqq6pHedEA.png" mos="" align="middle" fullscreen="1" width="1466" height="1373" attribution="" endorsement="" class="expandable"><a href='https://cdn.mos.cms.futurecdn.net/wnU2P6hLZdXiFqq6pHedEA.png' target='_blank' class='expand-button icon-expand-image icon' ></a></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Gigabyte)</span></figcaption></figure><p>Gigabyte currently lists <a href="https://www.gigabyte.com/Enterprise/Server-Motherboard/MU92-TU0-rev-1x#Specifications">MU92-TU0</a> and <a href="https://www.gigabyte.com/Enterprise/Server-Motherboard/MU92-TU1-rev-1x#Specifications">MU92-TU1</a> motherboards on its website, so expect them to be available in the coming months. </p><p>While the majority of server workloads are optimized for multi-core/multi-threaded systems for easier scaling, there are also workloads that need both high clocks and high core count. Both Intel and AMD have CPUs that offer a balance between core count and frequency and workstation-optimized Xeon W-3300-series is a good example of such balance. To that end, it makes a perfect sense to release a server motherboard that supports both Intel&apos;s Xeon Scalable and Xeon W processors. </p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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                                                            <title><![CDATA[ Intel in Pole Position, Releases Graphics Driver For Windows 11 ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-graphics-driver-win-11</link>
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                            <![CDATA[ Intel's latest driver for its integrated graphics supports Windows 11, Auto HDR, and F1 2021. ]]>
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                                                                        <pubDate>Thu, 15 Jul 2021 12:09:11 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 09:52:06 +0000</updated>
                                                                                                                                            <category><![CDATA[GPU Drivers]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                    <category><![CDATA[GPUs]]></category>
                                                                                                                    <dc:creator><![CDATA[ Ian Evenden ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/dY5MGBXCT6GV6ARt8oSiSj.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Ian is a UK-based news writer for Tom’s Hardware US. In 1992, he was given a 286-based PC because his parents hoped he’d become a programmer, and was instantly hooked despite the vagaries of MS-DOS. Pretty soon there was a 386 with Windows 3.1, a CD-ROM, and Sound Blaster card under the desk, followed by Pentium II, Athlon, i7 and Threadripper systems, most of which he built himself. After a brief eight-year dalliance with games consoles at Edge magazine, he began contributing to the likes of Maximum PC, PC Gamer, Windows Help and Advice and a few other magazines that have since closed - none of which were directly his fault. His desk today is a riot of PC monitors, Apple products, Raspberry Pi boards, purple unicorns, game controllers and camera lenses. He has no idea about programming.&lt;/p&gt; ]]></dc:description>
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                                                            <media:credit><![CDATA[Codemasters]]></media:credit>
                                                                                                                                                                                                                                    <media:description><![CDATA[The F1 2021 game]]></media:description>                                                            <media:text><![CDATA[The F1 2021 game]]></media:text>
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                                <p>Intel is in pole position, beating Nvidia and AMD to first place by listing support for <a href="https://www.tomshardware.com/news/windows-11-everything-you-need-to-know">Windows 11</a> in the <a href="https://downloadcenter.intel.com/download/30579/Intel-Graphics-Windows-DCH-Drivers">latest graphics driver update,</a> It won&apos;t be long until Nvidia and AMD list also list support, but for now Intel has the lead.</p><figure class="van-image-figure  inline-layout" data-bordeaux-image-check ><div class='image-full-width-wrapper'><div class='image-widthsetter' style="max-width:1280px;"><p class="vanilla-image-block" style="padding-top:56.25%;"><img id="" name="Screenshot 2021-07-15 121845.jpg" alt="User Account Control on Windows 11" src="https://cdn.mos.cms.futurecdn.net/YkdxPUSbEndq7MBGNacYQD.jpg" mos="" align="middle" fullscreen="" width="1280" height="720" attribution="" endorsement="" class=""></p></div></div><figcaption itemprop="caption description" class=" inline-layout"><span class="credit" itemprop="copyrightHolder">(Image credit: Microsoft)</span></figcaption></figure><p>Beating AMD and Nvidia to the fresh green pastures of 11, Intel’s latest driver brings <a href="https://www.tomshardware.com/news/windows-11-brings-auto-hdr-and-direct-storage-to-gamers" target="_blank">Auto HDR</a> support to 10th-gen Intel Core processors with Iris Plus Graphics, or higher, using the new OS. There are also optimizations for F1 2021, and the DirectX 12 versions of Moonlight Blade and Call of Duty Warzone get some love. It also fixes an issue where monitors connected over HDMI 2.0 wouldn’t resume from sleep properly.</p><p>To install the driver, you’ll need at least a 6th-generation Intel CPU (Skylake) with integrated graphics, and be running Windows 10 from 2018 (version 1809) or a more recent update. There&apos;s no mention of Direct Storage yet, though this may not be a feature added through graphics drivers.</p><p>This driver will be great news for anyone who’s installed the <a href="https://www.tomshardware.com/news/windows-11-hands-on" target="_blank">preview build</a> of Windows 11 on a second PC that’s reliant on integrated graphics. AMD and Nvidia will likely be along with their own updates drivers any moment now.</p>
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                                                            <title><![CDATA[ Intel Ice Lake Xeon W to Challenge AMD Threadripper With 38 Cores ]]></title>
                                                                                                                                                                                                <link>https://www.tomshardware.com/news/intel-ice-lake-xeon-w-to-challenge-amd-threadripper-with-38-cores</link>
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                            <![CDATA[ Technology provider Compsource has listed several Intel Ice Lake Xeon W CPUs, pointing to an upcoming core-heavy rival for AMD Ryzen Threadripper. ]]>
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                                                                        <pubDate>Wed, 14 Jul 2021 19:04:44 +0000</pubDate>                                                                                                                                <updated>Thu, 21 Aug 2025 12:42:23 +0000</updated>
                                                                                                                                            <category><![CDATA[CPUs]]></category>
                                                    <category><![CDATA[PC Components]]></category>
                                                                                                                    <dc:creator><![CDATA[ Zhiye Liu ]]></dc:creator>                                                                                    <dc:source><![CDATA[ https://cdn.mos.cms.futurecdn.net/HhmwL5w9ggUtLCPfqGjTi4.jpg ]]></dc:source>
                                                                <dc:description><![CDATA[ &lt;p&gt;Zhiye’s love for PC hardware began when he accidentally set his Pentium P54CS PC on fire, short-circuiting his entire home. From that day on, he has constantly pursued greater hardware knowledge, which ultimately led him from being a power user to a writer at Tom’s Hardware. When Zhiye’s not covering the latest news on CPUs or GPUs, you can find him overclocking RAM to the latest trance hits.&lt;/p&gt; ]]></dc:description>
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                                                                                                                                                                        <media:description><![CDATA[Intel 3rd Gen Intel Xeon Scalable Processor]]></media:description>                                                            <media:text><![CDATA[Intel 3rd Gen Intel Xeon Scalable Processor]]></media:text>
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                                <p>Intel recently launched its <a href="https://www.tomshardware.com/news/intel-ice-lake-xeon-platinum-8380-review-10nm-debuts-for-the-data-center">3rd Generation Xeon Scalable</a> CPU for data centers, which means that the Xeon W lineup for workstations shouldn&apos;t be far behind. Technology provider <a href="https://www.compsource.com/">CompSource</a> has already listed a couple of Intel&apos;s looming Ice Lake Xeon W 10nm chips on its online store, pointing to an upcoming core-heavy rival to AMD Ryzen Threadripper chips. </p><p>According to an alleged <a href="https://twitter.com/9550pro/status/1382966601654276100/photo/2">leaked PowerPoint slide</a>, shared via Twitter in April, Intel&apos;s Xeon W-3300 series is expected to sport up to 38 Sunny Cove <a href="https://www.tomshardware.com/news/cpu-core-definition,37658.html">CPU cores</a>. However, we know that the Ice Lake architecture is capable of up to 40 cores, as seen on the 3rd Generation Xeon Scalable processors. We suspect the chipmaker wants to avoid product cannibalization. </p><h2 id="intel-ice-lake-xeon-w-specifications">Intel Ice Lake Xeon W Specifications</h2><div ><table><thead><tr><th class="firstcol " >Processor</th><th  >Price</th><th  >Cores / Threads</th><th  >Boost Clock (GHz)</th><th  >Cache (MB)</th><th  >Part Number</th></tr></thead><tbody><tr><td class="firstcol " >Threadripper Pro 3995WX</td><td  >$5,489.99</td><td  >64 / 128</td><td  >4.2</td><td  >256</td><td  >100-100000087WOF</td></tr><tr><td class="firstcol " ><strong>Xeon W-3375*</strong></td><td  ><strong>$6,196.32</strong></td><td  ><strong>38 / 76</strong></td><td  ><strong>4.0</strong></td><td  ><strong>57</strong></td><td  ><strong>CD8068904691401</strong></td></tr><tr><td class="firstcol " >Threadripper Pro 3975WX</td><td  >$2,749.99</td><td  >32 / 64</td><td  >4.2</td><td  >128</td><td  >100-100000086WOF</td></tr><tr><td class="firstcol " ><strong>Xeon W-3365*</strong></td><td  ><strong>$5,295.97</strong></td><td  ><strong>?</strong></td><td  ><strong>4.0</strong></td><td  ><strong>48</strong></td><td  ><strong>CD8068904691303</strong></td></tr><tr><td class="firstcol " >Threadripper Pro 3955WX</td><td  >$1,148.99</td><td  >16 / 32</td><td  >4.3</td><td  >64</td><td  >100-100000167WOF</td></tr><tr><td class="firstcol " ><strong>Xeon W-3345*</strong></td><td  ><strong>$2,930.00</strong></td><td  ><strong>?</strong></td><td  ><strong>4.0</strong></td><td  ><strong>36</strong></td><td  ><strong>CD8068904691101</strong></td></tr><tr><td class="firstcol " ><strong>Xeon W-3335*</strong></td><td  ><strong>$1,465.58</strong></td><td  ><strong>?</strong></td><td  ><strong>4.0</strong></td><td  ><strong>24</strong></td><td  ><strong>CD8068904708401</strong></td></tr><tr><td class="firstcol " ><strong>Xeon W-3323*</strong></td><td  ><strong>$1,071.45</strong></td><td  ><strong>?</strong></td><td  ><strong>4.0</strong></td><td  ><strong>21</strong></td><td  ><strong>CD8068904708502</strong></td></tr></tbody></table></div><p><em>*Specifications are unconfirmed.</em></p><p>As spotted via Twitter user <a href="https://twitter.com/momomo_us/status/1415292316466651138">momomo_us</a>, CompSource has listed chips from the Xeon W-3300 lineup, starting with the W-3323 at $1,071.45 and topping out at W-3375 for $6,196.32. In comparison to existing Xeon W-3200 (Cascade Lake) family, we&apos;re looking at a 36% increase in maximum core count plus all the benefits of the new Ice Lake microarchitecture. In addition to maximizing the amount of cores, Ice Lake also pushes the maximum amount of L3 cache up to 57MB, a 48% uplift in comparison to the Xeon W-3200 series.</p><p>Unfortunately, CompSource didn&apos;t reveal the complete specifications for the Xeon W-3300 parts. Given, the 57MB L3 <a href="https://www.tomshardware.com/news/amd-shows-new-3d-v-cache-ryzen-chiplets-up-to-192mb-of-l3-cache-per-chip-15-gaming-improvementhttps://www.tomshardware.com/news/pc-cache-definition,37649.html">cache </a>on the Xeon W-3375, we expect that this is the flagship part and features 38 cores and 76 <a href="https://www.tomshardware.com/reviews/cpu-computing-thread-definition,5765.html">threads</a>.</p><p>CompSource listed the various Xeon W-3300 processors with a maximum boost <a href="https://www.tomshardware.com/news/clock-speed-definition,37657.html">clock speed</a> of 4 GHz, lending credence to specifications from the alleged Intel PowerPoint slide. </p><p>Xeon W-3300 should be more efficient than Xeon W-3200, since the former leverages Intel&apos;s 10nm process node versus the latter&apos;s 14nm process node. Note that Intel is utilizing its first-generation 10nm manufacturing process for the Xeon W-3300 processors, which explains the low operating clocks. Clock speeds should improve with subsequent processors that utilize the <a href="https://www.tomshardware.com/news/intels-path-forward-10nm-superfin-technology-advanced-packaging-roadmap">10nm SuperFin</a> process node.</p><p>There hasn&apos;t been any news on the Ice Lake-X (ICL-X) front, meaning Intel may forsake the high-end desktop (HEDT) community for this generation. Lacking an Ice Lake-X lineup, then the Xeon W-3300 series will likely go head-to-head with AMD&apos;s Ryzen Threadripper (Pro) 3000 processors that wield Zen 2 cores. Xeon W-3300 offers similar features, such as the 64 <a href="https://www.tomshardware.com/reviews/pcie-definition,5754.html">PCIe </a>4.0 lanes on <a href="https://www.tomshardware.com/reviews/amd-threadripper-3990x-review">Ryzen Threadripper</a> and eight-channel support on <a href="https://www.tomshardware.com/news/amd-announces-global-retail-availability-of-threadripper-pro">Ryzen Threadripper Pro</a>.</p><p>Of course, Xeon W-3300 will struggle to be the <a href="https://www.tomshardware.com/reviews/best-cpus,3986.html">best CPU</a> option over Ryzen Threadripper (Pro) when it comes to certain areas. The latter offers up to 64 cores and are cheaper. The process node difference (7nm versus 10nm) also gives AMD&apos;s chips an advantage when it comes to clock speeds. The thing is that AMD may unleash its Ryzen Threadripper 5000 chips with Zen 3 cores very soon, making things even harder for the Xeon W-3300 processors.</p><p>Xeon W-3300 processors will drop into the new LGA4189 <a href="https://www.tomshardware.com/reviews/cpu-socket-definition,5758.html">CPU socket </a>and bring many attractive traits to the table. For starters, the core-heavy chips will support up to 64 PCIe 4.0 lanes. There is also rumored support for up to eight channels of DDR4-3200 <a href="https://www.tomshardware.com/reviews/ecc-memory-ram-glossary-definition,6013.html">ECC memory</a>, opening the door to outfitting a single system with up to 4TB of memory.</p><iframe src="https://content.jwplatform.com/players/zYBgfFoA.html" id="zYBgfFoA" title="Buy the Right CPU" width="1920" height="1080" frameborder="0" scrolling="auto" allowfullscreen></iframe>
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