Tetsuya Odajima scite author profile

A GPU is a promising device for further increasing computing performance in high performance computing field. Currently, many programming langauges are proposed for the GPU offloaded from the host, as well as CUDA. However, parallel programming with a multinode GPU cluster, where each node has one or more GPUs, is a hard work. Users have to describe multi-level parallelism, both between nodes and within the GPU using MPI and a GPGPU language like CUDA. In this paper, we will propose a parallel programming language targeting multi-node GPU clusters. We extend XcalableMP, a parallel PGAS (Partitioned Global Address Space) programming language for PC clusters, to provide a productive parallel programming model for multi-node GPU clusters. Our performance evaluation with the N-body problem demonstrated that not only does our model achieve scalable performance, but it also increases productivity since it only requires small modifications to the serial code.

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GPU/CPU Work Sharing with Parallel Language XcalableMP-dev for Parallelized Accelerated Computing

Odajima

Boku

Hanawa

et al. 2012

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Tetsuya Odajima

Co-Design for A64FX Manycore Processor and ”Fugaku”

Preliminary Performance Evaluation of the Fujitsu A64FX Using HPC Applications

Evaluation of Power Management Control on the Supercomputer Fugaku

An Extension of XcalableMP PGAS Lanaguage for Multi-node GPU Clusters

GPU/CPU Work Sharing with Parallel Language XcalableMP-dev for Parallelized Accelerated Computing

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