Evaluating Performance and Energy on ARM-based Clusters for High Performance Computing

The High-Performance Computing (HPC) community aimed for many years at increasing performance regardless to energy consumption. However, energy is limiting the scalability of next generation supercomputers. Current HPC systems already cost huge amounts of power, in the order of a few Mega Watts (MW)...

Full description

Saved in:
Bibliographic Details
Main Authors: Padoin, E. L., de Oliveira, Daniel A. G., Velho, P., Navaux, P. O. A.
Format: Conference Proceeding
Language:English
Subjects:
ARM processors
ARM-based cluster
Benchmark testing
Clocks
Computer architecture
developer boards
Energy consumption
energy efficiency
Performance evaluation
Power demand
Program processors
Online Access:Request full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The High-Performance Computing (HPC) community aimed for many years at increasing performance regardless to energy consumption. However, energy is limiting the scalability of next generation supercomputers. Current HPC systems already cost huge amounts of power, in the order of a few Mega Watts (MW). The future HPC systems intend to achieve 10 to 100 times more performance, but the accepted energy to power those machines must remain below 20 MW. Therefore, the scientific community is investigating ways to improve energy efficiency. This paper presents a study of the execution time, power consumption, maximum power and energy efficiency using developer boards with ARM processors. Our objective is to verify the feasibility of clusters using processors that target low power consumption. As a sub product of our research we built an unconventional cluster of Panda Boards each one featuring two ARM Cortex A9 cores. We believe that these unconventional solutions bring an alternative base to build HPC clusters that respect the limits of electric energy.
ISSN:0190-3918
2332-5690
DOI:10.1109/ICPPW.2012.21