One of the emerging challenges to designing HPC systems is understanding and projecting the requirements of exascale applications. In order to determine the performance consequences of different hardware designs, analytic models are essential because they can provide fast feedback to the co-design centers and chip designers without costly simulations. However, current attempts to analytically model program performance typically rely on the user manually specifying a performance model. We introduce the ExaSAT framework that automates the extraction of parameterized performance models directly from source code using compiler analysis. The parameterized analytic model enables quantitative evaluation of a broad range of hardware design trade-of...
Many libraries in the HPC field encapsulate sophisticated algorithms with clear theoretical scalabil...
Macro-scale simulation has been advanced as one tool for application - architecture co-design to exp...
Programming upcoming exascale computing systems is expected to be a major challenge. New programming...
One of the emerging challenges to designing HPC systems is understanding and projecting the requirem...
The design of hardware for next-generation exascale computing systems will require a deep understand...
Many existing applications suffer from inherent scalability limitations that will prevent them from ...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Performance measurement and analysis of parallel applications is often challenging, despite many exc...
Nowadays, the whole HPC community is looking forward to the exascale era, with computer and system a...
On the road to Exascale computing, both performance and power areas are meant to be tackled at diffe...
Tuning the performance of applications requires understanding the interactions between code and targ...
Programming models bridge the gap between the underlying hardware architecture and the supporting la...
International audienceProgramming upcoming exascale computing systems is expected to be a major chal...
the development and implementation of efficient computer codes for exascale supercomputers will cruc...
LAGADAPATI, MAHESH. Benchmark Generation and Simulation at Extreme Scale. (Under the direction of Fr...
Many libraries in the HPC field encapsulate sophisticated algorithms with clear theoretical scalabil...
Macro-scale simulation has been advanced as one tool for application - architecture co-design to exp...
Programming upcoming exascale computing systems is expected to be a major challenge. New programming...
One of the emerging challenges to designing HPC systems is understanding and projecting the requirem...
The design of hardware for next-generation exascale computing systems will require a deep understand...
Many existing applications suffer from inherent scalability limitations that will prevent them from ...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Performance measurement and analysis of parallel applications is often challenging, despite many exc...
Nowadays, the whole HPC community is looking forward to the exascale era, with computer and system a...
On the road to Exascale computing, both performance and power areas are meant to be tackled at diffe...
Tuning the performance of applications requires understanding the interactions between code and targ...
Programming models bridge the gap between the underlying hardware architecture and the supporting la...
International audienceProgramming upcoming exascale computing systems is expected to be a major chal...
the development and implementation of efficient computer codes for exascale supercomputers will cruc...
LAGADAPATI, MAHESH. Benchmark Generation and Simulation at Extreme Scale. (Under the direction of Fr...
Many libraries in the HPC field encapsulate sophisticated algorithms with clear theoretical scalabil...
Macro-scale simulation has been advanced as one tool for application - architecture co-design to exp...
Programming upcoming exascale computing systems is expected to be a major challenge. New programming...