Stream computing application and solution providers includeĬAPS entreprise, Mercury Computer Systems, RapidMind, RogueWave and Solution providers to ensure customers can achieve optimum performance Neural models, applicable to finance, image processing and otherĪMD is also working closely with world class application and Currently, Neurala reports that it isĪchieving 10-200x speedups over the CPU alone on biologically inspired Uniquely well-suited to developing these architectures."ĪMD customers, including ACCIT, Centre de Physique de Particulesĭe Marseille, Neurala and Telanetix are using the AMD Stream SDK andĬurrent AMD FireStream, ATI FireGL or ATI Radeon boards to achieveĭramatic performance gains on critical algorithms in HPC, workstationĪnd consumer applications. High-performance discrete GPUs and x86-compatible CPUs, AMD is In emerging system architectures," said Jon Peddie, president, Jon Today we are truly seeing a fundamental shift "Stream computing is increasingly important for mainstream andĬonsumer applications and is no longer limited to just the academic orĮngineering industries. Past few years with Fortune 1000 companies, leading softwareĭevelopers and academic institutions utilizing stream technology toĪchieve tremendous performance gains across a variety of applications. The growth of the stream computing market has accelerated over the With open industry standards as they emerge." Intends to ensure that the AMD Stream SDK rapidly evolves to comply Is a step in the right direction and we fully support this effort. General manager, Graphics Product Group, AMD. Mainstream applications," said Rick Bergman, senior vice president and "An open industry standard programming specification will helpĭrive broad-based support for stream computing technology in Specification can help provide developers with an easy path to Working with proposed specifications like OpenCL. This working group's goals includeĭeveloping industry standards for data parallel programming and In keeping with its open systems philosophy, AMD has also joined Instruction set architecture and the AMD Stream SDK's Brook+įront-end is available as open source code. AMD offers published interfacesįor its high-level language API, intermediate language, and AMD takes an open-systems approach to its streamĬomputing development environment to ensure that developers can accessĪnd build on the tools at any level. With its AMD Stream SDK, designed to help developers createĪccelerated applications for AMD FireStream, ATI FireGL(TM) and ATI Well as most desktop systems, workstations, and larger servers and itįeatures 1GB of GDDR3 memory, enabling developers to handle large,ĭriving broad consumer adoption with open systemsĪMD enables development of the FireStream family of processors The AMDįireStream 9250's compact size makes it ideal for small 1U servers as Implementation delivering more than 200 gigaflops, building on theĬapabilities of the earlier AMD FireStream(TM) 9170, the industry'sįirst GP-GPU with double-precision floating point support. Second-generation double-precision floating point hardware The AMD FireStream 9250 stream processor includes a Those creating application-specific systems to enhance and maintain Of flexible GPU technology rather than custom accelerators assists For example, developersĪre reporting up to a 55x performance increase on financial analysisĬodes as compared to processing on the CPU alone, which supports theirĮfforts to make better and faster decisions.(1) Additionally, the use Performance per watt efficiency with up to eight gigaflops per watt.Ĭustomers can leverage AMD's latest FireStream offering to runĬritical workloads such as financial analysis or seismic processingĭramatically faster than with CPU alone, helping them to address moreĬomplex problems and achieve faster results. Slot, for unmatched density and with power consumption of less thanġ50 watts, the AMD FireStream 9250 delivers an unprecedented rate of Graphics Product Group, AMD FireStream 9250 breaks the one teraflopīarrier for single precision performance. Leveraging the GPU design expertise of AMD's Today introduced its next-generation stream processor, the AMDįireStream(TM) 9250, specifically designed to accelerate criticalĪlgorithms in high-performance computing (HPC), mainstream andĬonsumer applications. Next-generation AMD FireStream(TM) 9250 Processor Accelerates Scientific and Engineering Calculations, Efficiently Delivering Supercomputer Performance at up to Eight Gigaflops-Per-WattĪt the International Supercomputing Conference, AMD (NYSE:AMD)
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