We have developed a threaded parallel data streaming approach using Globus to transfer multi-terabyte simulation data from a remote supercomputer to the scientist’s home analysis/visualization cluster, as the simulation executes, with negligible overhead. Data transfer experiments show that this concurrent data transfer approach is more favorable compared with writing to local disk and then transferring this data to be post-processed. The present approach is conducive to using the grid to pipeline the simulation with post-processing and visualization. We have applied this method to the Gyrokinetic Toroidal Code (GTC), a 3-dimensional particle-in-cell code used to study micro-turbulence in magnetic confinement fusion from first principles pl...
The Gyrokinetic Toroidal code (GTC) (version 2) is a 3D particle-in-cell application developed at th...
This project focused on the use of Logistical Networking technology to address the challenges involv...
Abstract. In this work, we discuss the porting to the GPU platform of the latest production version ...
We have developed a threaded parallel data streaming approach using Globus to transfer multi-terabyt...
The Gyrokinetic Toroidal Code (GTC) is a global, three-dimensional particle-in-cell application deve...
We present multicore parallelization strategies for the particle-to-grid interpolation step in the G...
We present multicore parallelization strategies for the particle-to-grid interpolation step in the G...
The gyrokinetic toroidal code at Princeton (GTC-P) is a highly scalable and portable particle-in-cel...
The Gyrokinetic Toroidal Code (GTC) uses the particle-in-cell method to efficiently simulate plasma ...
Multiscale simulation involving slow transport and fast turbulent timescales is one amongst three ke...
One of the important phenomena in magnetically-confined fusion plasma is plasma turbulence, which ca...
Gyrokinetic codes in plasma physics need outstanding computational resources to solve increasingly c...
The gyrokinetic Particle-in-Cell (PIC) method is a critical computational tool enabling petascale fu...
GENE solves the five-dimensional gyrokinetic equations to simulate the development and evolution of ...
We developed a data parallel code written in High Performance Fortran for simulating magnetized flui...
The Gyrokinetic Toroidal code (GTC) (version 2) is a 3D particle-in-cell application developed at th...
This project focused on the use of Logistical Networking technology to address the challenges involv...
Abstract. In this work, we discuss the porting to the GPU platform of the latest production version ...
We have developed a threaded parallel data streaming approach using Globus to transfer multi-terabyt...
The Gyrokinetic Toroidal Code (GTC) is a global, three-dimensional particle-in-cell application deve...
We present multicore parallelization strategies for the particle-to-grid interpolation step in the G...
We present multicore parallelization strategies for the particle-to-grid interpolation step in the G...
The gyrokinetic toroidal code at Princeton (GTC-P) is a highly scalable and portable particle-in-cel...
The Gyrokinetic Toroidal Code (GTC) uses the particle-in-cell method to efficiently simulate plasma ...
Multiscale simulation involving slow transport and fast turbulent timescales is one amongst three ke...
One of the important phenomena in magnetically-confined fusion plasma is plasma turbulence, which ca...
Gyrokinetic codes in plasma physics need outstanding computational resources to solve increasingly c...
The gyrokinetic Particle-in-Cell (PIC) method is a critical computational tool enabling petascale fu...
GENE solves the five-dimensional gyrokinetic equations to simulate the development and evolution of ...
We developed a data parallel code written in High Performance Fortran for simulating magnetized flui...
The Gyrokinetic Toroidal code (GTC) (version 2) is a 3D particle-in-cell application developed at th...
This project focused on the use of Logistical Networking technology to address the challenges involv...
Abstract. In this work, we discuss the porting to the GPU platform of the latest production version ...