ScalCore: Designing a core for voltage scalability | IEEE Conference Publication | IEEE Xplore

ScalCore: Designing a core for voltage scalability


Abstract:

Upcoming multicores need to provide increasingly stringent energy-efficient execution modes. Currently, energy efficiency is attained by lowering the voltage (Vdd) throug...Show More

Abstract:

Upcoming multicores need to provide increasingly stringent energy-efficient execution modes. Currently, energy efficiency is attained by lowering the voltage (Vdd) through DVFS. However, the effectiveness of DVFS is limited: designing cores for low Vdd results in energy inefficiency at nominal Vdd. Our goal is to design a core for Voltage Scalability, i.e., one that can work in high-performance mode (HPMode) at nominal Vdd, and in a very energy-efficient mode (EEMode) at low Vdd. We call this core ScalCore. To operate energy-efficiently in EEMode, ScalCore introduces two ideas. First, since logic and storage structures scale differently with Vdd, ScalCore applies two low Vdds to the pipeline: one to the logic stages (Vlogic) and a higher one to storage-intensive stages. Secondly, ScalCore further increases the low Vdd of the storage-intensive stages (Vop), so that they are substantially faster than the logic ones. Then, it exploits the speed differential by either fusing storage-intensive pipeline stages or increasing the size of storage structures in the pipeline. Our simulations of 16 cores show that a design with ScalCores in EEMode is much more energy-efficient than one with conventional cores and aggressive DVFS: for approximately the same power, ScalCores reduce the average execution time of programs by 31%, the energy (E) consumed by 48%, and the ED product by 60%. In addition, dynamically switching between EEMode and HPMode based on program phases is very effective: it reduces the average execution time and ED product by a further 28% and 15%, respectively.
Date of Conference: 12-16 March 2016
Date Added to IEEE Xplore: 04 April 2016
Electronic ISBN:978-1-4673-9211-2
Electronic ISSN: 2378-203X
Conference Location: Barcelona, Spain

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