Interprocedural Compilation of Irregular Applications for Distributed Memory Machines

G. Agrawal, J. Saltz
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引用次数: 37

Abstract

Data parallel languages like High Performance Fortran (HPF) are emerging as the architecture independent mode of programming distributed memory parallel machines. In this paper, we present the interprocedural optimizations required for compiling applications having irregular data access patterns, when coded in such data parallel languages. We have developed an Interprocedural Partial Redundancy Elimination (IPRE) algorithm for optimized placement of runtime preprocessing routine and collective communication routines inserted for managing communication in such codes. We also present two new interprocedural optimizations, placement of scatter routines and use of coalescing and incremental routines. We then describe how program slicing can be used for further applying IPRE in more complex scenarios. We have done a preliminary implementation of the schemes presented here using the Fortran D compilation system as the necessary infrastructure. We present experimental results from two codes compiled using our system to demonstrate the efficacy of the presented schemes.
分布式内存机中不规则应用程序的程序间编译
数据并行语言如高性能Fortran (High Performance Fortran, HPF)正逐渐成为分布式内存并行机的独立架构编程模式。在本文中,我们提出了编译具有不规则数据访问模式的应用程序所需的过程间优化,当用这种数据并行语言编码时。我们开发了一种过程间部分冗余消除(IPRE)算法,用于优化运行时预处理例程和为管理此类代码中的通信而插入的集体通信例程的放置。我们还提出了两种新的程序间优化,分散例程的放置和合并和增量例程的使用。然后,我们描述了如何将程序切片用于在更复杂的场景中进一步应用IPRE。我们已经使用Fortran D编译系统作为必要的基础设施,对这里提出的方案进行了初步实现。我们给出了用我们的系统编译的两个代码的实验结果,以证明所提出的方案的有效性。
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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