Uppsala University Department of Information Technology

Technical Report 2004-048

Algorithmic Optimizations of a Conjugate Gradient Solver on Shared Memory Architectures

Henrik Löf and Jarmo Rantakokko

October 2004


OpenMP is an architecture-independent language for programming in the shared memory model. OpenMP is designed to be simple and powerful in terms of programming abstractions. Unfortunately, the architecture-independent abstractions sometimes come with the price of low parallel performance. This is especially true for applications with unstructured data access pattern running on distributed shared memory systems (DSM). Here proper data distribution and algorithmic optimizations play a vital role for performance. In this article we have investigated ways of improving the performance of an industrial class conjugate gradient (CG) solver, implemented in OpenMP running on two types of shared memory systems.

We have evaluated bandwidth minimization, graph partitioning and reformulations of the original algorithm reducing global barriers. By a detailed analysis of barrier time and memory system performance we found that bandwidth minimization is the most important optimization reducing both L2 misses and remote memory accesses. On an uniform memory system we get perfect scaling. On a NUMA system the performance is significantly improved with the algorithmic optimizations leaving the system dependent global reduction operations as a bottleneck.

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