Algorithm 898

Author:

Albrecht Martin1,Bard Gregory2,Hart William3

Affiliation:

1. Royal Holloway, University of London, United Kingdom

2. Fordham University, Bronx, NY

3. University of Warwick, United Kingdom

Abstract

We describe an efficient implementation of a hierarchy of algorithms for multiplication of dense matrices over the field with two elements (F 2 ). In particular we present our implementation—in the M4RI library—of Strassen-Winograd matrix multiplication and the “Method of the Four Russians for Multiplication” (M4RM) and compare it against other available implementations. Good performance is demonstrated on AMD's Opteron processor and particulary good performance on Intel's Core 2 uo processor. The open-source M4RI library is available as a stand-alone package as well as part of the Sage mathematics system. In machine terms, addition in F 2 is logical-XOR, and multiplication is logical-AND, thus a machine word of 64 bits allows one to operate on 64 elements of F 2 in parallel: at most one CPU cycle for 64 parallel additions or multiplications. As such, element-wise operations over F 2 are relatively cheap. In fact, in this paper, we conclude that the actual bottlenecks are memory reads and writes and issues of data locality. We present our empirical findings in relation to minimizing these and give an analysis thereof.

Funder

Engineering and Physical Sciences Research Council

Publisher

Association for Computing Machinery (ACM)

Subject

Applied Mathematics,Software

Reference17 articles.

1. On economical construction of the transitive closure of a directed graph;Arlazarov V.;Dokl. Akad. Nauk.,1970

2. Bard G. 2008. Matrix inversion (or LUP-factorization) via the Method of Four Russians in &thetas;(n3/log n) time. In Submission. Bard G. 2008. Matrix inversion (or LUP-factorization) via the Method of Four Russians in &thetas;(n 3 /log n) time. In Submission.

3. The Magma Algebra System I: The User Language

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