The goal of the extreme scale plasma turbulence studies described in this paper is to expedite the delivery of reliable predictions on confinement physics in large magnetic fusion systems by using world-class supercomputers to carry out simulations with unprecedented resolution and temporal duration. This has involved architecture-dependent optimizations of performance scaling and addressing code portability and energy issues, with the metrics for multi-platform comparisons being 'time-to-solution' and 'energy-to-solution'. Realistic results addressing how confinement losses caused by plasma turbulence scale from present-day devices to the much larger $25 billion international ITER fusion facility have been enabled by innovative advances in...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
International audienceGyrokinetic simulations lead to huge computational needs. Up to now, the Semi-...
The goal of the extreme scale plasma turbulence studies described in this paper is to expedite the d...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
The gyrokinetic toroidal code at Princeton (GTC-P) is a highly scalable and portable particle-in-cel...
The Gyrokinetic Toroidal Code (GTC) is a global, three-dimensional particle-in-cell application deve...
Multiscale simulation involving slow transport and fast turbulent timescales is one amongst three ke...
ABSTRACT: Magnetic fusion is a long-term solution for producing electrical power for the world, and ...
a national consortium of efforts to create predictive nu-merical simulations of fluid plasma turbule...
The Gyrokinetic Toroidal code (GTC) (version 2) is a 3D particle-in-cell application developed at th...
The gyrokinetic Particle-in-Cell (PIC) method is a critical computational tool enabling petascale fu...
We present novel optimizations of the fusion plasmas simulation code, GTC on Tianhe-2 supercomputer....
After a decade where high-end computing was dominated by the rapid pace of improvements to CPU frequ...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
International audienceGyrokinetic simulations lead to huge computational needs. Up to now, the Semi-...
The goal of the extreme scale plasma turbulence studies described in this paper is to expedite the d...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
The gyrokinetic toroidal code at Princeton (GTC-P) is a highly scalable and portable particle-in-cel...
The Gyrokinetic Toroidal Code (GTC) is a global, three-dimensional particle-in-cell application deve...
Multiscale simulation involving slow transport and fast turbulent timescales is one amongst three ke...
ABSTRACT: Magnetic fusion is a long-term solution for producing electrical power for the world, and ...
a national consortium of efforts to create predictive nu-merical simulations of fluid plasma turbule...
The Gyrokinetic Toroidal code (GTC) (version 2) is a 3D particle-in-cell application developed at th...
The gyrokinetic Particle-in-Cell (PIC) method is a critical computational tool enabling petascale fu...
We present novel optimizations of the fusion plasmas simulation code, GTC on Tianhe-2 supercomputer....
After a decade where high-end computing was dominated by the rapid pace of improvements to CPU frequ...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
International audienceGyrokinetic simulations lead to huge computational needs. Up to now, the Semi-...