CUDA: Scalable parallel programming for high-performance scientific computing

2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro Pub Date : 2008-05-14 DOI:10.1109/ISBI.2008.4541126
D. Luebke
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引用次数: 205

Abstract

Graphics processing units (GPUs) originally designed for computer video cards have emerged as the most powerful chip in a high-performance workstation. Unlike multicore CPU architectures, which currently ship with two or four cores, GPU architectures are "manycore" with hundreds of cores capable of running thousands of threads in parallel. NVIDIA's CUDA is a co-evolved hardware-software architecture that enables high-performance computing developers to harness the tremendous computational power and memory bandwidth of the GPU in a familiar programming environment - the C programming language. We describe the CUDA programming model and motivate its use in the biomedical imaging community.
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CUDA:用于高性能科学计算的可扩展并行编程
最初为计算机显卡设计的图形处理单元(gpu)已经成为高性能工作站中最强大的芯片。与多核CPU架构不同的是,目前的多核CPU架构只有两个或四个核心,而GPU架构是“多核”的,拥有数百个核心,能够并行运行数千个线程。NVIDIA的CUDA是一种共同发展的硬件软件架构,使高性能计算开发人员能够在熟悉的编程环境(C编程语言)中利用GPU的巨大计算能力和内存带宽。我们描述了CUDA编程模型,并激励其在生物医学成像社区的使用。
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2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro
2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro
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