Abstract We solve the Maxwell-Bloch equations of resonant nonlinear optics using GPUs and compare the computation times with traditional single-and multithreaded programs. A detailed benchmarking of programs as a function of various parameters shows how the massive parallelism built into GPUs becomes more and more advantageous as the physical problem becomes more and more demanding. For the case of multimode light propagating through an inhomogeneously broadened medium of many-level quantum systems, the program executing on GPUs can be over 20 times faster than that executing on all cores of a modern CPU. The methods presented can be applied in a wide area of atomic physics where the time evolution of atomic ensembles is to be computed
A highly optimized Monte Carlo (MC) code package for simulating light transport is developed on the ...
© 2014 IEEE. The diffraction problem on a thin conducting screen in a rectangular waveguide is consi...
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...
International audienceA new approach is developed for fast solution of complex dynamic problems in n...
We show how to accelerate the numerical solution of the Boltzmann equation for a binary gas mixture ...
We solve the ghost-gluon system of Yang-Mills theory using Graphics Processing Units (GPUs). Working...
The Maxwell-Bloch equations are a valuable tool to model light-matter interaction, where the applica...
Modern graphical processing units (GPUs) have recently become a pervasive technology able to rapidly...
In recent years, graphical processing units (GPUs) have generated a lot of excitement in computation...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
Modern graphics processing units, GPUs, present an immense resource of computational power, that how...
An effective technology for parallel computing is the application of graphical processing units (GPU...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
We present an open-source software package, TRAVOLTA (Terrific Refinements to Accelerate, Validate, ...
We demonstrate GPU-accelerated modelling of ultrafast optical parametric oscillators (OPOs) via the ...
A highly optimized Monte Carlo (MC) code package for simulating light transport is developed on the ...
© 2014 IEEE. The diffraction problem on a thin conducting screen in a rectangular waveguide is consi...
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...
International audienceA new approach is developed for fast solution of complex dynamic problems in n...
We show how to accelerate the numerical solution of the Boltzmann equation for a binary gas mixture ...
We solve the ghost-gluon system of Yang-Mills theory using Graphics Processing Units (GPUs). Working...
The Maxwell-Bloch equations are a valuable tool to model light-matter interaction, where the applica...
Modern graphical processing units (GPUs) have recently become a pervasive technology able to rapidly...
In recent years, graphical processing units (GPUs) have generated a lot of excitement in computation...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
Modern graphics processing units, GPUs, present an immense resource of computational power, that how...
An effective technology for parallel computing is the application of graphical processing units (GPU...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
We present an open-source software package, TRAVOLTA (Terrific Refinements to Accelerate, Validate, ...
We demonstrate GPU-accelerated modelling of ultrafast optical parametric oscillators (OPOs) via the ...
A highly optimized Monte Carlo (MC) code package for simulating light transport is developed on the ...
© 2014 IEEE. The diffraction problem on a thin conducting screen in a rectangular waveguide is consi...
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...