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Generating optimal CUDA sparse matrix-vector product implementations for evolving GPU hardware

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El Zein, Ahmed
Rendell, Alistair

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John Wiley & Sons Inc

Abstract

The CUDA model for graphics processing units (GPUs) presents the programmer with a plethora of different programming options. These includes different memory types, different memory access methods and different data types. Identifying which options to use and when is a non-trivial exercise. This paper explores the effect of these different options on the performance of a routine that evaluates sparse matrix-vector products (SpMV) across three different generations of NVIDIA GPU hardware. A process for analysing performance and selecting the subset of implementations that perform best is proposed. The potential for mapping sparse matrix attributes to optimal CUDA SpMV implementations is discussed.

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Concurrency and Computation: Practice and Experience

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Restricted until

2037-12-31