C. Rebbi scite author profile

Modern graphics hardware is designed for highly parallel numerical tasks and promises significant cost and performance benefits for many scientific applications. One such application is lattice quantum chromodynamics (lattice QCD), where the main computational challenge is to efficiently solve the discretized Dirac equation in the presence of an SU(3) gauge field. Using NVIDIA's CUDA platform we have implemented a Wilson-Dirac sparse matrix-vector product that performs at up to 40, 135 and 212 Gflops for double, single and half precision respectively on NVIDIA's GeForce GTX 280 GPU. We have developed a new mixed precision approach for Krylov solvers using reliable updates which allows for full double precision accuracy while using only single or half precision arithmetic for the bulk of the computation. The resulting BiCGstab and CG solvers run in excess of 100 Gflops and, in terms of iterations until convergence, perform better than the usual defect-correction approach for mixed precision.

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Interaction energy of superconducting vortices

Jacobs

1979

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C. Rebbi

Solitons with fermion number ½

Vacuum Periodicity in a Yang-Mills Quantum Theory

Quantum dynamics of a massless relativistic string

Solving lattice QCD systems of equations using mixed precision solvers on GPUs

Interaction energy of superconducting vortices

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