Energy efficient MIMO processing: A case study of opportunistic run-time approximations

David Novo; Nazanin Farahpour; Paolo Ienne; Ubaid Ahmad; Francky Catthoor

doi:10.7873/DATE2014.220

Energy efficient MIMO processing: A case study of opportunistic run-time approximations

David Novo
, Nazanin Farahpour
, Paolo Ienne
, Ubaid Ahmad
, Francky Catthoor

Emirates ICT Innovation Center

EPFL CDM MTEI RAO
IMEC

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

Worst-case design is one of the keys to practical engineering: create solutions that can withstand the most adverse possible conditions. Yet, the ever-growing need for higher energy efficiency suggest a grim outlook for worst-case design in the future. In this paper, we propose opportunistic runtime approximations to enable a continuous adaptation of the processing precision (operator type and bitwidth) to the actual execution context without modifying the algorithm functionality. We show that by relaxing the processing precision whenever possible, a VLSI implementation of an advanced wireless receiver algorithm based on opportunistic run-time approximations can save about 40% of the energy consumed by an optimized static implementation. These energy savings are achieved at the expense of a slight increase in overall chip area.

Original language	British English
Title of host publication	Proceedings - Design, Automation and Test in Europe, DATE 2014
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Print)	9783981537024
DOIs	https://doi.org/10.7873/DATE2014.220
State	Published - 2014
Event	17th Design, Automation and Test in Europe, DATE 2014 - Dresden, Germany Duration: 24 Mar 2014 → 28 Mar 2014

Publication series

Name	Proceedings -Design, Automation and Test in Europe, DATE
ISSN (Print)	1530-1591

Conference

Conference	17th Design, Automation and Test in Europe, DATE 2014
Country/Territory	Germany
City	Dresden
Period	24/03/14 → 28/03/14

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

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Novo, D., Farahpour, N., Ienne, P., Ahmad, U., & Catthoor, F. (2014). Energy efficient MIMO processing: A case study of opportunistic run-time approximations. In Proceedings - Design, Automation and Test in Europe, DATE 2014 Article 6800421 (Proceedings -Design, Automation and Test in Europe, DATE). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.7873/DATE2014.220

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title = "Energy efficient MIMO processing: A case study of opportunistic run-time approximations",

abstract = "Worst-case design is one of the keys to practical engineering: create solutions that can withstand the most adverse possible conditions. Yet, the ever-growing need for higher energy efficiency suggest a grim outlook for worst-case design in the future. In this paper, we propose opportunistic runtime approximations to enable a continuous adaptation of the processing precision (operator type and bitwidth) to the actual execution context without modifying the algorithm functionality. We show that by relaxing the processing precision whenever possible, a VLSI implementation of an advanced wireless receiver algorithm based on opportunistic run-time approximations can save about 40\% of the energy consumed by an optimized static implementation. These energy savings are achieved at the expense of a slight increase in overall chip area.",

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Novo, D, Farahpour, N, Ienne, P, Ahmad, U & Catthoor, F 2014, Energy efficient MIMO processing: A case study of opportunistic run-time approximations. in Proceedings - Design, Automation and Test in Europe, DATE 2014., 6800421, Proceedings -Design, Automation and Test in Europe, DATE, Institute of Electrical and Electronics Engineers Inc., 17th Design, Automation and Test in Europe, DATE 2014, Dresden, Germany, 24/03/14. https://doi.org/10.7873/DATE2014.220

Energy efficient MIMO processing: A case study of opportunistic run-time approximations. / Novo, David; Farahpour, Nazanin; Ienne, Paolo et al.
Proceedings - Design, Automation and Test in Europe, DATE 2014. Institute of Electrical and Electronics Engineers Inc., 2014. 6800421 (Proceedings -Design, Automation and Test in Europe, DATE).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Catthoor, Francky

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N2 - Worst-case design is one of the keys to practical engineering: create solutions that can withstand the most adverse possible conditions. Yet, the ever-growing need for higher energy efficiency suggest a grim outlook for worst-case design in the future. In this paper, we propose opportunistic runtime approximations to enable a continuous adaptation of the processing precision (operator type and bitwidth) to the actual execution context without modifying the algorithm functionality. We show that by relaxing the processing precision whenever possible, a VLSI implementation of an advanced wireless receiver algorithm based on opportunistic run-time approximations can save about 40% of the energy consumed by an optimized static implementation. These energy savings are achieved at the expense of a slight increase in overall chip area.

AB - Worst-case design is one of the keys to practical engineering: create solutions that can withstand the most adverse possible conditions. Yet, the ever-growing need for higher energy efficiency suggest a grim outlook for worst-case design in the future. In this paper, we propose opportunistic runtime approximations to enable a continuous adaptation of the processing precision (operator type and bitwidth) to the actual execution context without modifying the algorithm functionality. We show that by relaxing the processing precision whenever possible, a VLSI implementation of an advanced wireless receiver algorithm based on opportunistic run-time approximations can save about 40% of the energy consumed by an optimized static implementation. These energy savings are achieved at the expense of a slight increase in overall chip area.

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PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 24 March 2014 through 28 March 2014

ER -

Energy efficient MIMO processing: A case study of opportunistic run-time approximations

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