The focus of the current research is to develop a numerical framework on the Graphic Processing Units (GPU) capable of modeling chemically reacting flow. The framework incorporates a high-order finite volume method coupled with an implicit solver for the chemical kinetics. Both the fluid solver and the kinetics solver are designed to take advantage of the GPU architecture to achieve high performance. The structure of the numerical framework is shown, detailing different aspects of the optimization implemented on the solver. The mathematical formulation of the core algorithms is presented along with a series of standard test cases, including both nonreactive and reactive flows, in order to validate the capability of the numerical solver. The...
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
This paper presents a Graphics Processing Unit (GPU) acceleration of an iteration-based discrete vel...
The theoretical background for the finite element computer program, MPSalsa Version 1.5, is presente...
The focus of the current research is to develop a numerical framework on the Graphic Processing Unit...
Talk given in the Boulder Fluid and Thermal Sciences Seminar Series, University of Colorado, Boulder...
Combustion simulations with finite-rate chemistry rely on accurate and efficient methods for solving...
The chemical kinetics ODEs arising from operator-split reactive-flow simulations were solved on GPUs...
This work details efforts to reduce the cost of using detailed chemical kinetic modeling in realisti...
Graphics processing units (GPUs) are attractive for high-performance computing due to their massivel...
In reacting flow simulations, considerable computational effort is spent on updating the change of c...
Numerical schemes for reacting flows typically invoke the method of fractional steps in order to iso...
Graphic processing units (GPUs) are powerful graphics engines featuring high levels of parallelism a...
Talk given at the Institute for Computational Engineering and Sciences, University of Texas at Austi...
The numerical study of reactive flows subjected to supersonic conditions is accelerated by the co-de...
The theoretical background for the finite element computer program, MPSalsa, is presented in detail....
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
This paper presents a Graphics Processing Unit (GPU) acceleration of an iteration-based discrete vel...
The theoretical background for the finite element computer program, MPSalsa Version 1.5, is presente...
The focus of the current research is to develop a numerical framework on the Graphic Processing Unit...
Talk given in the Boulder Fluid and Thermal Sciences Seminar Series, University of Colorado, Boulder...
Combustion simulations with finite-rate chemistry rely on accurate and efficient methods for solving...
The chemical kinetics ODEs arising from operator-split reactive-flow simulations were solved on GPUs...
This work details efforts to reduce the cost of using detailed chemical kinetic modeling in realisti...
Graphics processing units (GPUs) are attractive for high-performance computing due to their massivel...
In reacting flow simulations, considerable computational effort is spent on updating the change of c...
Numerical schemes for reacting flows typically invoke the method of fractional steps in order to iso...
Graphic processing units (GPUs) are powerful graphics engines featuring high levels of parallelism a...
Talk given at the Institute for Computational Engineering and Sciences, University of Texas at Austi...
The numerical study of reactive flows subjected to supersonic conditions is accelerated by the co-de...
The theoretical background for the finite element computer program, MPSalsa, is presented in detail....
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
This paper presents a Graphics Processing Unit (GPU) acceleration of an iteration-based discrete vel...
The theoretical background for the finite element computer program, MPSalsa Version 1.5, is presente...