Power Characterisation for Fine-Grain Reconfigurable Fabrics | Zendy

Tobias Becker | Zendy; Peter Jamieson | Zendy; Wayne Luk | Zendy; Peter Y. K. Cheung | Zendy; Tero Rissa | Zendy

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Power Characterisation for Fine-Grain Reconfigurable Fabrics

Author(s) -

Tobias Becker,

Peter Jamieson,

Wayne Luk,

Peter Y. K. Cheung,

Tero Rissa

Publication year - 2010

Publication title -

international journal of reconfigurable computing

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.236

H-Index - 16

eISSN - 1687-7209

pISSN - 1687-7195

DOI - 10.1155/2010/787405

Subject(s) - field programmable gate array , benchmarking , computer science , power consumption , suite , virtex , process (computing) , power (physics) , embedded system , operating system , physics , archaeology , marketing , quantum mechanics , business , history

This paper proposes a benchmarking methodology for characterising the power consumption of the fine-grain fabric in reconfigurable architectures. This methodology is part of the GroundHog 2009 power benchmarking suite. It covers active and inactive power as well as advanced low-power modes. A method based on random number generators is adopted for comparing activity modes. We illustrate our approach using five field-programmable gate arrays (FPGAs) that span a range of process technologies: Xilinx Virtex-II Pro, Spartan-3E, Spartan-3AN, Virtex-5, and Silicon Blue iCE65. We find that, despite improvements through process technology and low-power modes, current devices need further improvements to be sufficiently power efficient for mobile applications. The Silicon Blue device demonstrates that performance can be traded off to achieve lower leakage

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