High-performance computing strategies for seismic-imaging software on the cluster and cloud-computing environments期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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High-performance computing strategies for seismic-imaging software on the cluster and cloud-computing environments

Authors:	Nicholas T Okita Alexandre W Camargo Jos Ribeiro Tiago A Coimbra Caian Benedicto Jorge H Faccipieri

Institution:	Nicholas T. Okita,Alexandre W. Camargo,José Ribeiro,Tiago A. Coimbra,Caian Benedicto,Jorge H. Faccipieri

Abstract:	Modern subsurface imaging techniques allow obtaining high-quality images but with high computational costs. Nonetheless, depending on the amount of data, their execution is limited by memory in the current generation's hardware. However, with the advancement of new hardware and cloud-based solutions, these problems are mitigated but still with the risk of work loss and instability. To mitigate the execution problems in memory-limited and fail-prone environments, we propose two high-performance computing techniques. The first is based on independent checkpointing alongside a fault-tolerant framework to store an execution state and recover from that state in case of failures. Besides, for memory-limited graphics processing units, we present a technique to reduce the amount of memory requirement that we call the hybrid strategy. The experiments showed that the independent checkpointing alongside the fault-tolerant framework is able to mitigate the performance penalty of node failures, with the independent checkpointing technique being more relevant when multiple nodes are terminated. Furthermore, the hybrid strategy technique has shown the possibility of execution of larger models that could make the graphics processing unit run out of memory otherwise. Finally, our implementation is scalable, allowing a significant improvement in performance when adding new nodes. In conclusion, our techniques can be used to deliver fast, high-fidelity subsurface imaging in unstable and memory-limited environments, such as the cloud.

Keywords:	Reverse time migration High-performance computing Cloud computing Computing aspects Imaging

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