Speeding up Domain Wall Fermion Algorithms using QCDLAB
Abstract
Simulating lattice QCD with chiral fermions and indeed using Domain Wall Fermions continues to be challenging project however large are concurrent computers. One obvious bottleneck is the slow pace of prototyping using the low level coding which prevails in most, if not all, lattice projects. Recently, we came up with a new proposal, namely QCDLAB, a high level language interface, which we believe will boost our endeavours to rapidly code lattice prototype applications in lattice QCD using MATLAB/OCTAVE language and environment. The first version of the software, QCDLAB 1.0 offers the general framework on how to achieve this goal by simulating set of the lattice Schwinger model {\tt http://phys.fshn.edu.al/qcdlab.html}. In this talk we introduce QCDLAB 1.1, which extends QCDLAB 1.0 capabilities for real world lattice computations with Wilson and Domain Wall fermions.
Keywords
Cite
@article{arxiv.hep-lat/0703021,
title = {Speeding up Domain Wall Fermion Algorithms using QCDLAB},
author = {Artan Borici},
journal= {arXiv preprint arXiv:hep-lat/0703021},
year = {2007}
}
Comments
Invited talk given at the 'Domain Wall Fermions at Ten Years', Brookhaven National Laboratory, 15-17 March 2007