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GTC ON-DEMAND

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Abstract:

High Performance Computing (HPC) has been a cornerstone of scientific discovery from Dr. Ken Wilson's Nobel Prize in Physics in 1982 to the breaking of the Capsid Code for the HIV virus his past year. EXAscale Computing, which follows the progression from TERAscale and PETAscale marks the next milestone in the evolution of HPC that will allow the scientific community to continue its dynamic pace of discovery and innovation. 

High Performance Computing (HPC) has been a cornerstone of scientific discovery from Dr. Ken Wilson's Nobel Prize in Physics in 1982 to the breaking of the Capsid Code for the HIV virus his past year. EXAscale Computing, which follows the progression from TERAscale and PETAscale marks the next milestone in the evolution of HPC that will allow the scientific community to continue its dynamic pace of discovery and innovation. 

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Topics:
HPC and Supercomputing
Type:
Panel
Event:
SIGGRAPH Asia
Year:
2016
Session ID:
SC6113
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Abstract:

Exascale computing holds the promise of addressing key challenges in basic research and national security but will require advances across the entire High Performance Computing ecosystem. Co-design of applications, software technologies, and underlying hardware will be critical to this endeavor. We'll highlight a few of the applications targeted to make this transition to exascale and our efforts to co-design key components of the software stack address fundamental challenges in software productivity and performance portability. In addition to efforts in traditional scientific simulation, the increasing importance of data intensive computing across these applications will be highlighted alongside our efforts focussed on core components of a converged HPC ecosystem to enable them. 

Exascale computing holds the promise of addressing key challenges in basic research and national security but will require advances across the entire High Performance Computing ecosystem. Co-design of applications, software technologies, and underlying hardware will be critical to this endeavor. We'll highlight a few of the applications targeted to make this transition to exascale and our efforts to co-design key components of the software stack address fundamental challenges in software productivity and performance portability. In addition to efforts in traditional scientific simulation, the increasing importance of data intensive computing across these applications will be highlighted alongside our efforts focussed on core components of a converged HPC ecosystem to enable them. 

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Topics:
HPC and Supercomputing
Type:
Talk
Event:
Supercomputing
Year:
2016
Session ID:
SC6110
Streaming:
Download:
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Abstract:

Exascale computing holds the promise of addressing key challenges in basic research and national security but will require advances across the entire High Performance Computing ecosystem. Co-design of applications, software technologies, and underlying hardware will be critical to this endeavor. We'll highlight a few of the applications targeted to make this transition to exascale and our efforts to co-design key components of the software stack address fundamental challenges in software productivity and performance portability. In addition to efforts in traditional scientific simulation, the increasing importance of data intensive computing across these applications will be highlighted alongside our efforts focussed on core components of a converged HPC ecosystem to enable them.

Exascale computing holds the promise of addressing key challenges in basic research and national security but will require advances across the entire High Performance Computing ecosystem. Co-design of applications, software technologies, and underlying hardware will be critical to this endeavor. We'll highlight a few of the applications targeted to make this transition to exascale and our efforts to co-design key components of the software stack address fundamental challenges in software productivity and performance portability. In addition to efforts in traditional scientific simulation, the increasing importance of data intensive computing across these applications will be highlighted alongside our efforts focussed on core components of a converged HPC ecosystem to enable them.

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Topics:
HPC and AI
Type:
Talk
Event:
GTC Washington D.C.
Year:
2016
Session ID:
DCS16159
Streaming:
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