Towards Improving Reverse Time Migration Performance by High-speed Lossy Compression

2023 IEEE/ACM 23rd International Symposium on Cluster, Cloud and Internet Computing (CCGrid) Pub Date : 2023-05-01 DOI:10.1109/CCGrid57682.2023.00066

Yafan Huang, Kai Zhao, S. Di, Guanpeng Li, M. Dmitriev, T. Tonellot, F. Cappello

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引用次数: 1

Abstract

Seismic imaging is an exploration method for estimating the seismic characteristics of the earth's sub-surface for geologists and geophysicists. Reverse time migration (RTM) is a critical method in seismic imaging analysis. It can produce huge volumes of data that need to be stored for later use during its execution. The traditional solution transfers the vast amount of data to peripheral devices and loads them back to memory whenever needed, which may cause a substantial burden to I/O and storage space. As such, an efficient data compressor turns out to be a very critical solution. In order to get the best overall RTM analysis performance, we develop a novel hybrid lossy compression method (called HyZ), which is not only fairly fast in both compression and decompression but also has a good compression ratio with satisfactory reconstructed data quality for post hoc analysis. We evaluate several state-of-the-art error-controlled lossy compression algorithms (including HyZ, BR, SZx, SZ, SZ-Interp, ZFP, etc.) in a supercomputer. Experiments show that HyZ not only significantly improves the overall performance for RTM by 6.29∼6.60× but also obtains fairly good qualities for both RTM single snapshots and the final stacking image.

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利用高速有损压缩提高逆时迁移性能的研究

地震成像是地质学家和地球物理学家估计地下地震特征的一种勘探方法。逆时偏移(RTM)是地震成像分析中的一种重要方法。它可以产生大量的数据，这些数据需要在执行期间存储起来供以后使用。传统的解决方案将大量数据传输到外围设备，并在需要时将其加载回内存，这可能会对I/O和存储空间造成很大的负担。因此，高效的数据压缩器是一个非常关键的解决方案。为了获得最佳的RTM综合分析性能，我们开发了一种新的混合有损压缩方法(HyZ)，该方法不仅压缩和解压缩速度都相当快，而且具有良好的压缩比和令人满意的事后分析重构数据质量。我们在超级计算机上评估了几种最先进的错误控制有损压缩算法(包括HyZ, BR, SZx, SZ, SZ- interp, ZFP等)。实验表明，HyZ不仅将RTM的整体性能显著提高了6.29 ~ 6.60倍，而且在RTM单快照和最终叠加图像上都获得了相当好的质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 IEEE/ACM 23rd International Symposium on Cluster, Cloud and Internet Computing (CCGrid)

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