Parallel computing with graphics processing units for high-speed Monte Carlo simulation of photon migration
E Alerstam, T Svensson… - Journal of biomedical …, 2008 - spiedigitallibrary.org
Journal of biomedical optics, 2008•spiedigitallibrary.org
General-purpose computing on graphics processing units (GPGPU) is shown to dramatically
increase the speed of Monte Carlo simulations of photon migration. In a standard simulation
of time-resolved photon migration in a semi-infinite geometry, the proposed methodology
executed on a low-cost graphics processing unit (GPU) is a factor 1000 faster than
simulation performed on a single standard processor. In addition, we address important
technical aspects of GPU-based simulations of photon migration. The technique is expected …
increase the speed of Monte Carlo simulations of photon migration. In a standard simulation
of time-resolved photon migration in a semi-infinite geometry, the proposed methodology
executed on a low-cost graphics processing unit (GPU) is a factor 1000 faster than
simulation performed on a single standard processor. In addition, we address important
technical aspects of GPU-based simulations of photon migration. The technique is expected …
General-purpose computing on graphics processing units (GPGPU) is shown to dramatically increase the speed of Monte Carlo simulations of photon migration. In a standard simulation of time-resolved photon migration in a semi-infinite geometry, the proposed methodology executed on a low-cost graphics processing unit (GPU) is a factor 1000 faster than simulation performed on a single standard processor. In addition, we address important technical aspects of GPU-based simulations of photon migration. The technique is expected to become a standard method in Monte Carlo simulations of photon migration.