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1. #AMD FIRESTREAM 9370 BENCHMARK DRIVER#
2. #AMD FIRESTREAM 9370 BENCHMARK SOFTWARE#
3. #AMD FIRESTREAM 9370 BENCHMARK SERIES#

#AMD FIRESTREAM 9370 BENCHMARK SOFTWARE#

RapidMind also provided stream processing software that worked with ATI and NVIDIA, as well as Cell processors. The FireStream was claimed to be 20 times faster in typical applications than regular CPUs after running PeakStream's software. One of the supporting firms was PeakStream (acquired by Google in June 2007), who was first to provide an open beta version of software to support CTM and AMD FireStream as well as x86 and Cell (Cell Broadband Engine) processors. The AMD FireStream was launched with a wide range of software platform support.

#AMD FIRESTREAM 9370 BENCHMARK DRIVER#

#AMD FIRESTREAM 9370 BENCHMARK SERIES#

The Northern and Southern Islands generations were skipped, and in 2012, AMD announced that the new FirePro W (workstation) and S (server) series based on the new Graphics Core Next architecture would take the place of FireStream cards. This generation was also the only one to feature fully passive cooling, and active cooling was unavailable. This generation again doubled the performance relative to the previous, to 2 teraflops in the 9350 and 2.6 teraflops in the 9370, and was the first built from the ground up for OpenCL. In 2010 the final generation of FireStreams came out, the 93 cards, based on the Cypress chip featured in the HD 5800. A faster sibling, the 9270, was released shortly after, for $1999. The third-generation quickly followed in 2008 with dramatic performance improvements from the RV770 core the 9250 had nearly double the performance of the 9170, and became the first single-chip teraflop processor, despite dropping the price to under $1000. Plans included the development of a stream processor on an MXM module by 2008, for laptop computing, but was never released. One model was released, the 9170, for the initial price of $1999. Asynchronous DMA also improved performance by allowing a larger memory pool without the CPU's help. The brand became AMD FireStream with the second generation of stream processors in 2007, based on the RV650 chip with new unified shaders and double precision support. The first product was released in late 2006, rebranded as AMD Stream Processor after the merger with AMD. began using the X1900 for general computation, using a pre-release of version 6.5 of the ATI Catalyst driver, and reported 20-40x improvement in GPU over CPU. The core itself was mostly unchanged, except for doubling the onboard memory and bandwidth, similar to the FireGL V7350 new driver and software support made up most of the difference. With the development of the high-performance X1900 XFX nearly finished, ATI based its first Stream Processor design on it, announcing it as the upcoming ATI FireSTREAM together with the new Close to Metal API at SIGGRAPH 2006. GPGPUs were projected to have immediate performance gains of a factor of 10 or more, over compared to contemporary multi-socket CPU-only calculation. The interest led ATI (and Nvidia) to create GPGPU products - able to calculate general purpose mathematical formulas in a massively parallel way - to process heavy calculations traditionally done on CPUs and specialized floating-point math co-processors. Each pixel and vertex shader, or unified shader in later models, can perform arbitrary floating-point calculations.įollowing the release of the Radeon R520 and GeForce G70 GPU cores with programmable shaders, the large floating-point throughput drew attention from academic and commercial groups, experimenting with using then for non-graphics work. The line was partnered with new APIs to provide higher performance than existing OpenGL and Direct3D shader APIs could provide, beginning with Close to Metal, followed by OpenCL and the Stream Computing SDK, and eventually integrated into the APP SDK.įor highly parallel floating point math workloads, the cards can speed up large computations by more than 10 times the earliest and one of the most visible users of the GPGPU, obtained 20-40 times the CPU performance.

All support 32-bit single-precision floating point, and all but the first release support 64-bit double-precision. Like the FireGL/FirePro line, they were given more memory and memory bandwidth, but the FireStream cards do not necessarily have video output ports. The FireStream line is a series of add-on expansion cards released from 2006 to 2010, based on standard Radeon GPUs but designed to serve as a general-purpose co-processor, rather than rendering and outputting 3D graphics.