AMD 100-505563 プリント
AMD FireStream 9250
Second generation
Stream Computing GPU from AMD
Highest performance
GPU compute engine available today
©2008 Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo, AMD Opteron, and combinations thereof are trademarks
of Advanced Micro Devices, Inc. Other names are for informational purposes only and may be trademarks of their respective owners.
of Advanced Micro Devices, Inc. Other names are for informational purposes only and may be trademarks of their respective owners.
AMD Stream SDK leverages open source technology and
software technology partners to provide a robust, open,
multi-layer development environment on 32/64 bit Linux and
32/64 bit Windows.
Developers can begin with Brook+, an AMD-enhanced and
supported implementation of Brook, the popular open-source
C-level language and compiler. Math functions can be
implemented using a new release of AMD Core Math Library for
the GPU (ACML-GPU). Tools like GPU Shader Analyzer and
AMD Code Analyst help identify and correct performance issues.
AMD’s Compute Abstraction Layer (CAL) provides low level
access to the GPU for development and performance tuning.
AMD’s open systems approach allows developers access to all
key APIs and specifications, enabling performance tuning at the
lowest level and development of third party tools.
AMD Stream SDK supports 32/64-bit RHEL 5.1 and 32/64-bit
SUSE 10 SP1 as well as 32/64-bit Windows XP.
software technology partners to provide a robust, open,
multi-layer development environment on 32/64 bit Linux and
32/64 bit Windows.
Developers can begin with Brook+, an AMD-enhanced and
supported implementation of Brook, the popular open-source
C-level language and compiler. Math functions can be
implemented using a new release of AMD Core Math Library for
the GPU (ACML-GPU). Tools like GPU Shader Analyzer and
AMD Code Analyst help identify and correct performance issues.
AMD’s Compute Abstraction Layer (CAL) provides low level
access to the GPU for development and performance tuning.
AMD’s open systems approach allows developers access to all
key APIs and specifications, enabling performance tuning at the
lowest level and development of third party tools.
AMD Stream SDK supports 32/64-bit RHEL 5.1 and 32/64-bit
SUSE 10 SP1 as well as 32/64-bit Windows XP.
AMD Stream SDK
An open systems approach
Financial Analytics
Increase Black-Scholes speed-to-results through the highly parallel
architecture of the Stream process
Energy, Oil and Gas
Seismic analysis on larger or more granular geographies to quickly
identify regions of high discovery probability
Life Sciences
Protein folding, sequencing and alignment investigations, combinatorial
chemistry, Hidden Markov Models and more are ideal problems for
the highly parallel Stream Computing architecture
Computer Aided Engineering (CFD, FEA, etc.)
Faster results with existing model DoF or higher number of variables
(finer mesh) within existing calculation time frames
Consumer
High definition video and gaming benefit from the integration of
GPU and CPU from AMD
Industries and Applications
*Single precision
Imagery courtesy of ScienceGL
Imagery courtesy of ScienceGL
BREAKING THE 1 TERAFLOP BARRIER
AMD System Solutions
HP DL385 SERVER
HP reliability and AMD Opteron
™
processor
performance combine in a 2U server for
simplified management and powerful computing.
HP xw8600 WORKSTATION
Delivering extreme performance for massive
compute and visual capacity.
• Double precision floating point in hardware
• 1GB GDDR3 memory
• Compact single slot form factor
• Under 150 watts
• 1GB GDDR3 memory
• Compact single slot form factor
• Under 150 watts