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Multi-mass solvers for lattice QCD on GPUs

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arxiv 1103.5103 v1 pith:6JM3BN7H submitted 2011-03-26 hep-lat

Multi-mass solvers for lattice QCD on GPUs

classification hep-lat
keywords gpuslatticeinvertermemorymulti-massmulti-shiftsingle-masssolved
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Graphical Processing Units (GPUs) are more and more frequently used for lattice QCD calculations. Lattice studies often require computing the quark propagators for several masses. These systems can be solved using multi-shift inverters but these algorithms are memory intensive which limits the size of the problem that can be solved using GPUs. In this paper, we show how to efficiently use a memory-lean single-mass inverter to solve multi-mass problems. We focus on the BiCGstab algorithm for Wilson fermions and show that the single-mass inverter not only requires less memory but also outperforms the multi-shift variant by a factor of two.

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