Architecture
Nvidia described the Fermi (microarchitecture), Fermi microarchitecture as the next major step in its line of GPUs following the Tesla (microarchitecture), Tesla microarchitecture used since the GeForce 8 Series, G80. The GF100, the first Fermi-architecture product, is large: 512 stream processing, stream processors, in sixteen groups of 32, and 3.0 billion transistors, manufactured by TSMC in a 40 nm process. It is Nvidia's first chip to support Open gl#OpenGL 4.0, OpenGL 4.0 and Direct3D 11. No products with a fully enabled GF100 GPU were ever sold. The GTX 480 had one streaming multiprocessor disabled. The GTX 470 had two streaming multiprocessors and one memory controller disabled. The GTX 465 had five streaming multiprocessors and two memory controllers disabled. Consumer GeForce cards came with 256MB attached to each of the enabled GDDR5 memory controllers, for a total of 1.5, 1.25 or 1.0GB; the Tesla C2050 had 512MB on each of six controllers, and the Tesla C2070 had 1024MB per controller. Both the Tesla cards had fourteen active groups of stream processors. The chips found in the high performance Nvidia Tesla, Tesla branding feature memory with optional Error detection and correction#Error-correcting code, ECC and the ability to perform one double-precision floating-point operation per cycle per core; the consumer GeForce cards are artificially driver restricted to one DP operation per four cycles. With these features, combined with support for Visual Studio and C++, Nvidia targeted professional and commercial markets, as well as use in Supercomputer, high performance computing. Fermi is named after Italian physicist Enrico Fermi.Current limitations and trade-offs
The quantity of on-board SRAM per ALU actually decreased proportionally compared to the previous G200 generation, despite the increase of the L2 cache from 256kB per 240 Arithmetic logic unit, ALUs to 768kB per 512 ALUs, since Fermi has only 32768 registers per 32 ALUs (vs. 16384 per 8 ALUs), only 48kB of shared memory per 32 ALUs (vs. 16kB per 8 ALUs), and only 16kB of cache per 32 ALUs (vs. 8kB constant cache per 8 ALUs + 24kB texture cache per 24 ALUs). Parameters such as the number of registers can be found in the CUDA Compute Capability Comparison Table in the reference manual.History
On September 30, 2009, Nvidia released a white paper describing the architecture: the chip features 16 'Streaming Multiprocessors' each with 32 'CUDA Cores' capable of one single-precision operation per cycle or one double-precision operation every other cycle, a 40-bit virtual address space which allows the host's memory to be mapped into the chip's address space, meaning that there is only one kind of pointer and making C++ support significantly easier, and a 384-bit wide GDDR5 memory interface. As with the GeForce 8 Series, G80 and GeForce 200 Series, GT200, threads are scheduled in 'warps', sets of 32 threads each running on a single shader core. While the GT200 had 16 KB 'shared memory' associated with each shader cluster, and required data to be read through the texturing units if a cache was needed, GF100 has 64 KB of memory associated with each cluster, which can be used either as a 48 KB cache plus 16 KB of shared memory, or as a 16 KB cache plus 48 KB of shared memory, along with a 768 KB L2 cache shared by all 16 clusters. The white paper describes the chip much more as a general purpose processor for workloads encompassing tens of thousands of threads - reminiscent of the Tera MTA architecture, though without that machine's support for very efficient random memory access - than as a graphics processor. Many users reported high temperatures and power consumption while receiving correspondingly poor performance improves in the GeForce 400 series Fermi GPUs when compared to rival competitor AMD, AMD's Radeon HD 5000 Series - leading AMD to create and release a promotional video "The Misunderstanding" to poke fun at the issue. In the video, a police unit is seen commencing a police raid, raid on a house with a large thermal profile, indicating a grow operation. However, upon entering the home it is apparent that the source of the high temperature is a Fermi GPU. It became a common joke that one could fried egg, fry an egg on a Fermi GPU at full load.Products
* 1 Unified shader model, SPs - Shader Processors - Unified Shaders: Texture mapping units: Render output units * 2 Each Streaming Multiprocessor (SM) in the GPU of GF100 architecture contains 32 SPs and 4 SFUs. Each Streaming Multiprocessor (SM) in the GPU of GF104/106/108 architecture contains 48 SPs and 8 SFUs. Each SP can fulfil 2 single precision fused multiply–add (Fused multiply–add, FMA) operations per cycle. Each SFU can fulfil four SF operations per cycle. One FMA operation counts for two floating point operations. So the theoretical single precision peak performance, with shader count [''n''] and shader frequency [''f'', GHz], can be estimated by the following, ''FLOPSsp'' ≈ f × n × 2 (FMA). Total Processing Power: for GF100 ''FLOPSsp'' ≈ f × m ×(32 SPs × 2(FMA) + 4 × 4 SFUs) and for GF104/106/108 ''FLOPSsp'' ≈ f × m × (48 SPs × 2(FMA) + 4 × 8 SFUs) or for GF100 ''FLOPSsp'' ≈ f × n × 2.5 and for GF104/106/108 ''FLOPSsp'' ≈ f × n × 8 / 3. SP - Shader Processor (Unified Shader, CUDA Core), SFU - Special Function Unit, SM - Streaming Multiprocessor. * 3 Each SM in the GF100 contains 4 texture filtering units for every texture address unit. The complete GF100 die contains 64 texture address units and 256 texture filtering unitsNVIDIA's GeForce GTX 480 and GTX 470: 6 Months Late, Was It Worth the Wait?Chipset table
Discontinued support
Nvidia announced that after Release 390 drivers, it will no longer release 32-bit drivers for 32-bit operating systems. Nvidia announced in April 2018 that Fermi will move to legacy driver support status and be maintained until January 2019.See also
* GeForce 200 series * GeForce 500 series * GeForce 600 series * GeForce 700 series * GeForce 800M series * GeForce 900 series * Nvidia Quadro * Nvidia TeslaNotes
*References
External links