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Asus Motherboard with 9400 GPU  (Source: NVIDIA)
New GeForce 9400 and 9300 GPUs feature 16 cores

NVIDIA officially announced today that it has new GeForce integrated GPUs that will be available soon on motherboards form the typical NVIDIA partners. The new integrated GPUs include the GeForce 9400 and 9300 and are intended for desktop PCs using Intel CPUs.

NVIDIA says that the new GPUs offer full system I/O and discrete-level performance in a package half the size of previous integrated GPUs. The NVIDIA 9400 and 9300 GPUs have 16 cores and are CUDA capable. NVIDIA even promises that the integrated GPUs are capable of playing the latest top PC games and Blu-ray movies.

Dr. Jon Peddie said in a statement, "These new mGPUs give NVIDIA a big advantage over other integrated graphics chips. By doing so much parallel processing on a single chip, they can accelerate the new visual computing applications people are getting, and at a reasonable price. The GeForce 9400 and 9300 mGPUs set a new standard for what users should expect from today’s more mainstream desktop systems."

The new 9-series motherboard GPUs support NVIDIA PureVideo HD and are capable of offloading all video processing from the CPU to the GPU. The GPUs support advanced audio and video including uncompressed LPMC 7.1, dual-link DVI and HDMI.

Support for NVIDIA's Hybrid SLI technology is included and boost performance up to 70% higher than the motherboard GPU alone. NVIDIA says that motherboards using the new GPU will ship this month from XFX, ASUS, ECS, EVGA, Foxconn, Galaxy, and more.



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RE: Gamers
By MGSsancho on 10/20/2008 7:12:36 PM , Rating: 2
6 layers? 40 layers boards have been made with 10ghz signals for over 13 years already. 25ghz for over 5 years. heat and all the problems you mentioned are not a problem for low end technology like desktop mobos and server mobos. that is not a problem. mass producing (lots of thousands are currently being done im talking about millions of boards) is a little bit more tricky but its still not bad. only complications are really 10ghz+ but more so are fine details (tiny interconnections and traces.) the mobo in your blackberry is 5 years more advanced then a desktop mobo.

it is really about cost. i have no idea what components, testing, packaging, shipping and stuff cost. im only familiar with board manufacturing. but a BS figure from out of thin air, id guess a standard desktop mobo cost less than $10 per board to manufacture. then again ive seen boards a square inch in size been made for prototype testing break the 6 figure mark. but to keep it simple, to add a few layers and keep the thickness the same, i would say tripling the cost to be safe.


RE: Gamers
By theapparition on 10/21/2008 8:08:15 AM , Rating: 2
Going to 8 layers doesn't cost all that much. In fact, I belive some of the nVidia motherboards are already at 8 layers. Going mulit-layer itself is the cost driver, from the cheap doublesided boards. Once you have the prepreg stack, it doesn't make much difference if you're sqeezing together 3 or 4. Only when you get to 16+ layers is there a chance of mis-registration (where the inner layers shift and via's no longer align).
If a 6 layer board is $10, figure an 8 layer one at around $12. But if you're making a million of them........that's 2million dollars you've just lost. Always better to reduce cost as much as possible. Another thing, you don't pay per board, you pay per panel. The more boards you can fit on a panel, the lower each board will cost (aka chips on silion wafers). Shop's that have optimized panel size for motherboards will have a lower price.


"Game reviewers fought each other to write the most glowing coverage possible for the powerhouse Sony, MS systems. Reviewers flipped coins to see who would review the Nintendo Wii. The losers got stuck with the job." -- Andy Marken











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