摘要
当前单个勘探项目的数据量已经超过100TB,PB级规模的项目已经可以预见。为适应地震数据快速增长的趋势以及超大规模异构集群的体系结构特点,提出了多维度成像空间分解算法。根据大规模集群系统有多个并行层次的特征,首先沿炮检距方向分解成像空间,然后再沿Inline方向继续切分,直到成像空间小于计算节点物理内存,最后在二维地表上以面元为单位分解成像空间。该并行算法降低了任务间的耦合性,便于映射到异构集群系统的多个并行层次上,也利于异构处理器间的异步执行。相对于同时期的高性能CPU处理器,GPU版本获得了4.8倍的加速,MIC版本获得了2倍的加速,给出了两类协处理在性能、能耗和可编程性方面的对比分析。在Tianhe-1 1024节点规模下处理实际的地震数据,获得了接近线性的加速比曲线。
The size of seismic data from a single survey for the moment has reach to 100 TB,and may exceed 1 PB in the near future.To support increasingly huge survey data sizes and processing complexity,we propose a practical approach to largescale parallel processing of 3D prestack Kirchhoff time migration(PSTM)with multi-dimension imaging space decomposition on heterogeneous computing systems.The parallel algorithm is based on three-level decomposition of the imaging space.Firstly,the imaging space is partitioned by offsets.Each node runs just one process,and all processes are divided into several distinct groups.The imaging work of common-offset space is assigned to a group,and the common-offset input traces are dynamically distributed to the processes of the group.Once all input traces are migrated,the local imaging sections of all the processes in a group are added to form the final common-offset image.In a node,the common-offset imaging section is further partitioned equally by CMP.If the size of a common-offset imaging section exceeds the total physical memory on the compute node,the whole imaging space should be firstly partitioned along in-line direction so that each commonoffset imaging space can fit in memory.The algorithm greatly reduces the dependencies among tasks.The task partitions can be easily mapped to multiple heterogeneous processors and execute asynchronously.Compared to the production CPU version of PSTM,its GPU version achieves up to 4.8 speed times and MIC version achieves up to 2 speed times.Comparative analysis of GPU and MIC is also given on power consumption,performance,and programmablity.The PSTM implementation can obtain close to linear speedup when it processes real data on the Tianhe-1 supercomputer.
出处
《石油地球物理勘探》
EI
CSCD
北大核心
2016年第5期1040-1048,840,共9页
Oil Geophysical Prospecting
基金
国家重大科技专项(2011ZX05019)资助
作者简介
北京市西城区新康街5号中国石油东方地球物理公司,100088。Email:zhao.ch@cnpc.com.cn.赵长海高级工程师,1979年生;2009年毕业于北京航空航天大学软件与理论专业,获工学博士学位;现在中国石油东方地球物理公司从事高性能计算方面的研发工作。
