Accelerating Dynamical-Fermion Computations Using the Rational Hybrid Monte Carlo Algorithm with Multiple Pseudofermion Fields
- 31 January 2007
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 98 (5) , 051601
- https://doi.org/10.1103/physrevlett.98.051601
Abstract
There has been much recent progress in the understanding and reduction of the computational cost of the hybrid Monte Carlo algorithm for lattice QCD as the quark mass parameter is reduced. In this letter we present a new solution to this problem, where we represent the fermionic determinant using pseudofermion fields, each with an th root kernel. We implement this within the framework of the rational hybrid Monte Carlo algorithm. We compare this algorithm with other recent methods in this area and find it is competitive with them.
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This publication has 18 references indexed in Scilit:
- HMC algorithm with multiple time scale integration and mass preconditioningComputer Physics Communications, 2005
- The RHMC algorithm for 2 flavours of dynamical staggered fermionsNuclear Physics B - Proceedings Supplements, 2004
- Speeding up lattice QCD simulations with clover-improved Wilson fermionsNuclear Physics B, 2003
- Evaluating the fermionic determinant of dynamical configurationsPhysical Review D, 2002
- Speeding up the hybrid Monte Carlo algorithm for dynamical fermionsPhysics Letters B, 2001
- Instability in the molecular dynamics step of a hybrid Monte Carlo algorithm in dynamical fermion lattice QCD simulationsPhysical Review D, 2000
- Speeding up finite step-size updating of full QCD on the latticePhysical Review D, 1999
- MANY MASSES ON ONE STROKE: ECONOMIC COMPUTATION OF QUARK PROPAGATORSInternational Journal of Modern Physics C, 1995
- Hamiltonian evolution for the hybrid Monte Carlo algorithmNuclear Physics B, 1992
- Hybrid Monte CarloPhysics Letters B, 1987