A highly optimized Monte Carlo (MC) code package for simulating light transport is developed on the latest graphics processing unit (GPU) built for general-purpose computing from NVIDIA - the Fermi GPU. In biomedical optics, the MC method is the gold standard approach for simulating light transport in biological tissue, both due to its accuracy and its flexibility in modelling realistic, heterogeneous tissue geometry in 3-D. However, the widespread use of MC simulations in inverse problems, such as treatment planning for PDT, is limited by their long computation time. Despite its parallel nature, optimizing MC code on the GPU has been shown to be a challenge, particularly when the sharing of simulation result matrices among many parallel th...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
Monte Carlo (MC) simulations are widely used in the field of medical biophysics, particularly for mo...
The simulation of light propagation through tissue is important for medical applications like diffus...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modeling of light propagation through turbid (highly-scattering) media such as living tissue is impo...
General-purpose computing on graphics processing units (GPGPU) is shown to dramatically increase the...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modern graphics processing units, GPUs, present an immense resource of computational power, that how...
Many medical applications use light for diagnostics and treatment purposes, and they require modelin...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
EGSnrc is a well-known Monte Carlo simulation package for coupled electron– photon transport that is...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
Monte Carlo (MC) simulations are widely used in the field of medical biophysics, particularly for mo...
The simulation of light propagation through tissue is important for medical applications like diffus...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modeling of light propagation through turbid (highly-scattering) media such as living tissue is impo...
General-purpose computing on graphics processing units (GPGPU) is shown to dramatically increase the...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
Modern graphics processing units, GPUs, present an immense resource of computational power, that how...
Many medical applications use light for diagnostics and treatment purposes, and they require modelin...
Monte Carlo simulation (MCS) plays a key role in medical applications, especially for emission tomog...
EGSnrc is a well-known Monte Carlo simulation package for coupled electron– photon transport that is...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...
A distributed Monte Carlo simulation which models the propagation of light through tissue has been d...