Think you're pretty snazzy because your integrated graphics core plays mainstream games at 1280x720? We're on to bigger and better things, like modern titles at 1920x1080. Can AMD's Trinity architecture push high-enough frame rates to make this possible?
One year ago, we took a look at three generations of Intel's vPro, charting how its features evolved. Now, we have a new version to explore. Additionally, we're putting Anti-Theft technology to the test, along with the new Small Business Advantage suite.
AMD's desktop APUs, which combine x86 cores and graphics resources, emerged more than a year ago. We take a Llano-based A8-3870 and compare its performance from 2011 to what you get today using new drivers, application versions, and OpenCL acceleration.
Intel recently introduced its Xeon E3-1200 v2 CPUs, based on the Ivy Bridge architecture. Though they're very similar to the third-generation desktop Core chips, ECC memory support, four extra PCIe 3.0 lanes, and attractive pricing grab our attention.
You've already read about APUs, and maybe you're even using them now. But the road to creating APUs was paved with a number of struggles and unsung breakthroughs. This is the story of how hybrid chips came to be at AMD and where they’re going.
We're big fans of remote hardware management and its implications at home, in small businesses, and of course in enterprise environments. Intel recently refreshed its vPro technology, and we have a short preview that precedes our in-depth coverage.
We recently hooked up with overclocking guru Sami Mäkinen to get his take on the best way to overclock AMD's A8-3870K APU. Using his advice, we tweaked five retail -3870Ks and compared their overclocked gaming performance to a discrete Radeon HD 6670.
Now that Intel has launched more than 30 Xeon E5-series CPUs, we felt it necessary to revisit the product family and help you sort out the company's nomenclature. We're even taking the opportunity to list out all of the specifications in one place!
We recently took our first look at Intel's Ivy Bridge architecture. Then, we evaluated its efficiency. Now, we turn to overclocking. Recently, each of Intel's die shrinks has helped increase frequency headroom. This time, however, we ran into some walls.
After recommending Sandy Bridge last year, we weren't particularly impressed by the new Ivy Bridge-based Core i7-3770K as an upgrade. But are Intel's more mainstream third-gen Core i5 processors any more attractive? We grab four models to find out.
AMD steps up to the plate with an all-new processor. Armed with the updated Piledriver CPU core and VLIW4 graphics architecture, the Trinity APU represents an impressive improvement over the Llano generation. But can it stand up to Intel's best efforts?
We've already seen that Ivy Bridge doesn't make much of a splash in the desktop space. But we collected notebooks based on Ivy Bridge, Sandy Bridge, Arrandale, and AMD's mobile Llano, and found that the new architecture's effect on mobility is profound.
Intel's vaunted Sandy Bridge architecture has finally made its way to the company's dual- and quad-socket-capable Xeon processors. We got our hands on a pair of eight-core Xeon E5-2687W CPUs to compare against the older Xeon 5600- and 5500-series chips.
What can you get for $140? How about AMD's top-of-the-line A8-3870K APU with four CPU cores and an integrated Radeon HD 6550D? That's also enough for a Pentium G620 and discrete Radeon HD 6670. We benchmark both to uncover the best budget-oriented option.
Intel's six-core processors are fast, but enthusiasts almost always want to push unlocked multipliers harder. Core i7-3960X can easily exceed 4 GHz, but what happens to power efficiency when clock rates go up? Sandy Bridge-E demonstrates weaknesses there.
We've been waiting on AMD's Financial Analyst Day for more information on how the company plans to approach new and current businesses moving forward. Ahead of the big event, AMD pre-briefed us on the news.