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Khronos Demonstrates OpenCL Momentum at SC09

OpenCL Conformance Tests Now Available With Conformant Products Shipping;Working Group Membership Expands to Thirty-Three High-Performance Computing,Gaming, Middleware, System and Silicon Vendors.

PORTLAND, Ore. -- The Khronos™ Group, an industry consortium with more than 100 members working together to create open standards for authoring, accelerating and accessing visual computing, today announced strong industry support and a wide range of shipping products utilizing OpenCL™ at SC09 (an international conference for high-performance computing). A number of demonstrations and tutorials from Khronos Group members highlighting the power and scalability of OpenCL will also be a major part of SC09.

OpenCL is the open, royalty-free standard for general-purpose parallel programming across CPUs, GPUs and other processors. OpenCL provides software developers portable and efficient access to the full power of a wide range of systems including high-performance compute servers, desktop computer systems and handheld devices. The OpenCL 1.0 specification and more details are available at www.khronos.org/opencl/.

OpenCL Conformant Products Shipping

Khronos released a conformance suite for the OpenCL 1.0 specification in May 2009 that exhaustively tests both the functionality and numerical accuracy of OpenCL implementations before they are licensed to use the OpenCL trademark. A number of shipping products from working group members have successfully passed OpenCL conformance including products from AMD, Apple and NVIDIA. The current list of conformant products can be found at: http://www.khronos.org/adopters/conformant-products/#topencl

“By enabling cross-platform development for heterogeneous architectures, OpenCL is helping to bring GPU compute capability to mainstream applications,” said Patricia Harrell, director of stream computing at AMD. ”AMD fully supports the advantages of industry standard development through its ATI Stream SDK v2.0, an OpenCL 1.0 compliant solution for both ATI GPUs and x86 CPUs.”

“NVIDIA cares deeply about ensuring that OpenCL developers have the tools they need to easily develop and deploy mainstream applications on more than 150 million NVIDIA OpenCL 1.0-capable GPUs,” said Sanford Russell, general manager, GPU Computing software at NVIDIA. “Our latest R195 driver provides the industry’s most complete support for OpenCL 1.0 with NVIDIA’s OpenCL Visual Profiler and new OpenCL extensions including double precision, ICD and imaging. We are very excited about the increased momentum that OpenCL is creating behind GPU Computing.”

OpenCL Working Group Experiences Significant Membership Growth

The membership of the Khronos OpenCL working group has grown steadily since the release of the OpenCL 1.0 specification, with a rich diversity of companies helping to evolve and support the specification. Membership in the OpenCL working group now includes thirty-three market leaders: Activision Blizzard, AMD, Apple, ARM, Broadcom, Codeplay, Electronic Arts, Ericsson, Freescale, Fujitsu, GE, Graphic Remedy, HI, IBM, Intel, Imagination Technologies, Los Alamos National Laboratory, Motorola, Movidia, Nokia, NVIDIA, Petapath, Presagis, QNX, Qualcomm, S3, Samsung, STMicroelectronics, Takumi, Texas Instruments Incorporated (TI), Toshiba, Vivante and ZiiLABS (formerly 3DLABS).

“Codeplay is very excited about OpenCL because it enables us to adapt our development tools to allow developers to accelerate their C++ software on any device that supports OpenCL,” said Andrew Richards, CEO of Codeplay. “By providing a standard acceleration API, OpenCL enables software developers to invest in GPGPU with confidence that their investment is future-proof.”

“IBM is encouraged by the rapid acceptance of support of the Khronos Group’s OpenCL 1.0 specification, and is pleased to announce the availability of the OpenCL Development Kit for Linux on Power on AlphaWorks,” said Chris Maher, vice president HPC Development at IBM. “IBM recognizes the significance of a portable, high performance, heterogeneous programming language and with this technology preview will enable programmers to easily explore these new programming paradigms on Power and Cell/B.E. Processors.”

“We’ve been working with several of our key licensees and application middleware partners studying advanced usage of our GP-GPU technology,” said Tony King-Smith, Imagination Technologies. “Results so far show that POWERVR SGX graphics cores already in volume production achieve significantly better performance for some algorithms than traditional CPUs clocked 5 times faster when using GLSL under OpenGL ES. Thanks to our highly efficient, scalable unified shader architecture, we can see ways to achieve far more performance using OpenCL with our latest SGX Series5XT cores. We are getting strong feedback from both semiconductor and OEM partners that they wish to use OpenCL as the means of unlocking GP-GPU capabilities in a wide range of applications in mobile, automotive and home entertainment, and Imagination is committed to providing fully compliant OpenCL API support across a significant number of our POWERVR SGX IP cores.”

“Our development experience at Los Alamos National Laboratory with adapting codes to the Roadrunner supercomputing architecture exposed several areas where there were no obvious tools or techniques that would allow us to maintain portability across the variety of platforms that we must routinely support to fulfill the Laboratory’s stewardship mission,” said Ben Bergen, Evolving Applications and Architectures Team, Los Alamos National Laboratory. “Initial proof-of-concept experiments with the OpenCL framework make us optimistic that OpenCL can address many of the challenges that we will be facing as the HPC landscape evolves into the future.”

“TI applauds these OpenCL milestones, as they reiterate the opportunities this heterogeneous standard brings to multiple markets,” said Ameet Suri, marketing manager, OMAP product line, wireless business unit, TI. “OpenCL’s portable, cross platform and high-performance framework pairs with TI’s OMAP applications processors to create a new world of mobile user experiences, and ensures that developers have full access to the parallel and heterogeneous compute capabilities like multiple CPU, GPU, DSP and other imaging accelerators provided by the underlying OMAP platform that will shape the future.”

“Many of our licensees are looking to maximize the potential of embedded GPUs for demanding computing tasks that will differentiate their SoC solutions,” said Wei-Jin Dai, president and CEO of Vivante Corporation. “Vivante is providing native support for OpenCL as a driver for unlocking the power of our GPUs as a compute element in a wide variety of embedded applications.”

OpenCL Sessions at SC09:

The Khronos Group is pleased to participate at SC09 in trade show booth #242 and at multiple OpenCL sessions:

Tutorial: OpenCL - A Standard Platform for Programming Heterogeneous Parallel Computers
Date: Monday, 16 November 2009, 1:30PM - 5:00PM
Speakers: Tim Mattson - Intel, Ian Buck - NVIDIA, Mike Houston and Ben Gaster - AMD

BOF (Birds of a Feather): Can OpenCL Save HPC?
Date: Wednesday, 18 November 2009 5:30PM - 7:00PM
Speakers: Tim Mattson - Intel, Ben Gaster - AMD, John Stone - University of Illinois at Urbana-Champaign and Marcus Daniels - Los Alamos National Laboratory
Moderator: Ben Bergen, Computational Physics, Los Alamos National Laboratory

More details of OpenCL sessions at SC09 can be found at:
http://www.khronos.org/news/events/detail/opencl_sc09/

Visitors to the Khronos booth or the OpenCL sessions at SC09 will be offered a free laminated OpenCL Quick Reference card that covers all important aspects of the OpenCL API. The OpenCL Quick Reference Card is also available online at: http://www.khronos.org/files/opencl-quick-reference-card.pdf.

About OpenCL

OpenCL defines a high-performance, portable parallel programming abstraction to accelerate a wide range of applications, including consumer, media, scientific and HPC solutions. By creating an efficient, close-to-the-metal programming interface, OpenCL is the foundation layer of a parallel computing ecosystem of platform-independent tools, middleware and applications. OpenCL consists of an API for coordinating parallel computation across heterogeneous processors and a cross-platform kernel programming language with a well-specified computation environment.

About The Khronos Group

The Khronos Group is an industry consortium creating open standards for authoring, accelerating and accessing visual computing. Khronos standards include OpenGL®, OpenGL® ES, WebGL™, OpenCL™, OpenMAX™, OpenVG™, OpenSL ES™, OpenKODE™, OpenWF™ and COLLADA™. All Khronos members are able to contribute to the development of Khronos specifications, are empowered to vote at various stages before public deployment and are able to accelerate the delivery of their cutting-edge media platforms and applications through early access to specification drafts and conformance tests. More information is available at www.khronos.org.

Khronos, WebGL, OpenKODE, OpenVG, OpenMAX and OpenWF are trademarks of the Khronos Group Inc. OpenCL is a trademark of Apple Inc., COLLADA is a trademark of Sony Computer Entertainment Inc. and OpenGL is a registered trademark of Silicon Graphics Inc. used under license by Khronos. All other product names, trademarks, and/or company names are used solely for identification and belong to their respective owners.

1 comment:

  1. Parallel computing is a form of computation in which many calculations are carried out simultaneously, operating on the principle that large problems can often be divided into smaller ones, which are then solved concurrently. There are several different forms of parallel computing: bit-level, instruction level, data, and task parallelism.

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