Add to ORKGMonte Carlo simulations of the transport of protons in human tissue have been deployed on graphics processing units (GPUs) with impressive results. To provide a more complete treatment of non-elastic nuclear interactions in these simulations, we developed a fast intranuclear cascade-evaporation simulation for the GPU. This can be used to model non-elastic proton collisions on any therapeutically relevant nuclei at incident energies between 20 and 250 MeV. Predictions are in good agreement with Geant4.9.6p2. It takes approximately 2 s to calculate 1 × 106 200 MeV proton-16O interactions on a NVIDIA GTX680 GPU. A speed-up factor of ∼20 relative to one Intel i7-3820 core processor thread was achieved
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
Graphics Processing Units (GPU) are high performance co-processors intended, originally, to improve...
International audienceThe particle-in-cell (PIC) algorithm for the simulation of charged-particle ki...
Parallel architectures like graphical processor units (GPU) with high computational power allow dose...
Purpose In proton therapy, range uncertainties jeopardize treatment quality. Monte Carlo (MC) simula...
Purpose: Accuracy in proton therapy treatment planning can be improved using Monte Carlo (MC) simula...
Monte Carlo simulation is ideally suited for solving Boltzmann neutron transport equation in inhomog...
PurposeTrack structure simulation codes can accurately reproduce the stochastic nature of particle–m...
PurposeTrack structure simulation codes can accurately reproduce the stochastic nature of particle–m...
International audiencePurposeTrack structure simulation codes can accurately reproduce the stochasti...
International audiencePurposeTrack structure simulation codes can accurately reproduce the stochasti...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Purpose: Recent studies have demonstrated the capability of graphics processing units (GPUs) to comp...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
Graphics Processing Units (GPU) are high performance co-processors intended, originally, to improve...
International audienceThe particle-in-cell (PIC) algorithm for the simulation of charged-particle ki...
Parallel architectures like graphical processor units (GPU) with high computational power allow dose...
Purpose In proton therapy, range uncertainties jeopardize treatment quality. Monte Carlo (MC) simula...
Purpose: Accuracy in proton therapy treatment planning can be improved using Monte Carlo (MC) simula...
Monte Carlo simulation is ideally suited for solving Boltzmann neutron transport equation in inhomog...
PurposeTrack structure simulation codes can accurately reproduce the stochastic nature of particle–m...
PurposeTrack structure simulation codes can accurately reproduce the stochastic nature of particle–m...
International audiencePurposeTrack structure simulation codes can accurately reproduce the stochasti...
International audiencePurposeTrack structure simulation codes can accurately reproduce the stochasti...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Purpose: Recent studies have demonstrated the capability of graphics processing units (GPUs) to comp...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
Graphics Processing Units (GPU) are high performance co-processors intended, originally, to improve...
International audienceThe particle-in-cell (PIC) algorithm for the simulation of charged-particle ki...