通过MPI-IO进行不连续I/O访问

CCGrid 2003. 3rd IEEE/ACM International Symposium on Cluster Computing and the Grid, 2003. Proceedings. Pub Date : 2003-05-12 DOI:10.1109/CCGRID.2003.1199358

A. Ching, A. Choudhary, Kenin Coloma, W. Liao, R. Ross, W. Gropp

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引用次数: 83

摘要

I/O性能仍然是当今并行计算系统的一个弱点。虽然这个弱点部分归因于其他系统组件的快速发展，但程序员可用的I/O接口和文件系统支持的I/O方法传统上不能有效地匹配科学应用程序执行的I/O操作类型，特别是不连续访问。MPI-IO接口允许对科学应用程序所需的I/O模式进行丰富的描述，而像ROMIO这样的实现已经利用了这种能力，但仍然受到底层文件系统方法的限制。并行虚拟文件系统(PVFS)最近实现了一种非连续数据访问方法——列表I/O。我们在ROMIO MPI-IO实现中实现了对该接口的支持。通过一组非连续I/O测试，我们将ROMIO列表I/O与当前的ROMIO非连续访问方法进行了比较，发现列表I/O接口在许多非连续情况下提供了性能优势。

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Noncontiguous I/O accesses through MPI-IO

I/O performance remains a weakness of parallel computing systems today. While this weakness is partly attributed to rapid advances in other system components, I/O interfaces available to programmers and the I/O methods supported by file systems have traditionally not matched efficiently with the types of I/O operations that scientific applications perform, particularly noncontiguous accesses. The MPI-IO interface allows for rich descriptions of the I/O patterns desired for scientific applications and implementations such as ROMIO have taken advantage of this ability while remaining limited by underlying file system methods. A method of noncontiguous data access, list I/O, was recently implemented in the Parallel Virtual File System (PVFS). We implement support for this interface in the ROMIO MPI-IO implementation. Through a suite of noncontiguous I/O tests we compared ROMIO list I/O to current methods of ROMIO noncontiguous access and found that the list I/O interface provides performance benefits in many noncontiguous cases.

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CCGrid 2003. 3rd IEEE/ACM International Symposium on Cluster Computing and the Grid, 2003. Proceedings.

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