Gamer Installs Crysis 3 On GeForce RTX 3090's VRAM - And It Runs

epobirs said:

Crysis 3 is fairly ancient, coming out in early 2013 when the PS3 and Xbox 360 were still the core consoles in the market. If we want to talk about something modern that will seemingly use all the VRAM it can get, look to the latest release of Flight Simulator, with everything turned up to eleventy. This may be an outlier compared to most recent games but the same can be said for the first major games to demand 8GB, which nobody considers remarkable today.
https://www.tweaktown.com/news/74642/flight-simulator-at-8k-requires-16gb-of-vram-geforce-rtx-3090-needed/index.html

The game is running on the GPU's memory, not the PC's RAM, that is what this is about, not how much vRam the game normally uses. I used to use these ram harvesting TSR's back in the day to skim 250KB of ram off my EGA card to use for DOS text mode. Every KB counted back then.

DZIrl said:

Real benefit of VRAM is in its width, 384 bits compared to standard PC of 64 bit. SSD, NVMe, is just 2 serial channels.

The VRAM's bandwidth is of little importance for RAM-disk purposes since it ends up bottlenecked by the 4.0x16 bus' 32GB/s raw capacity, half of dual-channel DDR4-3200's bandiwdth. Also, NVMe on PCs is usually x4, not x2. Some motherboards do have NVMe lanes shared with SATA ports where using one of those SATA ports reduces NVMe from x4 to x2.

ITX God said:

That's basically the idea with the PS5 SSD. It has a direct connection to the VRAM via the Kraken decryption chip. Future AAA titles will be designed with this architecture in mind.

Not exactly true, both the Sony and the Xbox are using the 4 lanes of PCIe 4.0 built into the Ryzen 3700 chiplet ..... The reason Sony's is faster sans compression is because it uses all 4 lanes and is the exact same speed as my NVMe M.2 drive (5 GB/s) while Microsoft went a different route using only 2 PCIe lanes for the internal SSD (2.5 GB/s) and chose to use the other two for their external NVMe drive meaning their external drive will be just as fast as the internal drive .... 5 GB/s is just a theoretical speed that is seldom if ever reached in practice and only for large files like HD video. Games and most programs on the other hand are made up of many smaller files and won't reach those speeds .... While both company's marketing (AKA Corporate Propaganda) push this theoretical nonsense like it was fact the actual truth of the matter the compression they are using is more for making large game files smaller so you can get more on the drive and again 2 times compression is the theoretical limit and is seldom reached in practice unless the files are simple text files or something like that ..... Another use is for the Series X fast resume, likely they'll image (a form of compression) the game memory onto the SSD and then stream it back into memory when needed and that is where you will see it shine as an image is one large file which is where you start hitting the theoretical top speeds

Will they be fast? Yes especially compared to the nearly obsolete hardware they are replacing but a lot of it is just marketing BS ..... Right now it's completely impractical to do texture streaming like Sony's marketing talks about and still have backwards compatibility to the PS4 or compatibility with any system other than the PS5 ..... Microsoft's implementation will prove to be better because they are making it cross platform so it will eventual work with both the Series X and the PC ...... It's no longer Xbox vs PS ..... It's Xbox AND PC vs PS and those combined markets are bigger than PS alone .... Even Sony is seeing the light which is why they are porting exclusives over to the PC or they'll get left behind because there is no money in selling consoles, the money is in selling the most games

What a cool Idea! When we were still using single core Athalon chips, I used to make ram drives and install unreal tournament to it. Nice to see this has been improved upon.

VRAM is the fastest memory-solution in your system, exceeding the performance of system RAM, so using it as an SSD should yield some amazing loading times for video games.

I'm a bit confused here.... I was under the impression that games don't really benefit from super fast SSDs that much right now - they aren't optimized from it yet. Especially not a game as old as Crysis 3. So the loading times should really be equivalent to any SSD, not really faster than one?

The article is wrong. It doesn't work that way. VRAM may be fast, but its only fast between GPU and VRAM.

The processing is still done by CPU. So what really happens is that the data in VRAM transfers to system RAM via PCIE (31.5GB/s for PCIE 4.0).... Then CPU reads the data from RAM and process it.

Even if you somehow bypass system RAM, you still can only communicate via PCIE.