Exploring hardware overprovisioning in power-constrained, high performance computing

Tapasya Patki 1
David K. Lowenthal 1
Barry Rountree 2
Martin Schulz 2
Bronis R. De Supinski 2
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Publication typeProceedings Article
Publication date2013-06-10
Association for Computing Machinery (ACM)
Abstract
Most recent research in power-aware supercomputing has focused on making individual nodes more efficient and measuring the results in terms of flops per watt. While this work is vital in order to reach exascale computing at 20 megawatts, there has been a dearth of work that explores efficiency at the whole system level. Traditional approaches in supercomputer design use worst-case power provisioning: the total power allocated to the system is determined by the maximum power draw possible per node. In a world where power is plentiful and nodes are scarce, this solution is optimal. However, as power becomes the limiting factor in supercomputer design, worst-case provisioning becomes a drag on performance.
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