High–performance computing is and has always been performance–oriented.<br>However, a consequence of the push towards maximum performance is<br>increased energy consumption, especially in datacenters and<br>supercomputing centers. Moreover, as peak performance is rarely<br>attained, some of this energy consumption results in little or no<br>performance gain. In addition, large energy consumption costs<br>datacenters and supercomputing centers a significant amount of<br>money and wastes natural resources.<br>The main goal of this workshop is to provide a timely forum for the<br>exchange and dissemination of new ideas, techniques, and research in<br>high–performance, power–aware computing (HPPAC). HPPAC will present<br>research that reduces (1) power consumption, (2) energy consumption,<br>or (3) heat generation with little or no performance penalty in<br>high–performance computing systems. In effect, the workshop aims to<br>move towards "greener" solutions for datacenters and supercomputing<br>centers. Examples include Green Destiny (2001), The Green Grid (2007),<br>The Green500 List (2007), and the INRIA Green–Net Initiative (2008).<br>Topics of interest include but are not limited to the following.<br>. Novel power–aware architectures for HPC<br>. Power–aware middleware for HPC<br>. Power–aware runtime systems for HPC<br>. Reduced power/energy/heat algorithms & applications<br>. Power– or cooling–constrained systems, software stacks, or application<br>. Surveys or studies of power/energy/heat usage of HPC applications and systems<br>
Abbrevation
HPPAC
City
Hyderabad
Country
India
Deadline Paper
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Abstract