Can Approximate Computing Reduce Power Consumption on FPGAs?

Echavarria Gutiérrez JA, Schütz K, Becher A, Wildermann S, Teich J (2018)


Publication Language: English

Publication Type: Conference contribution, Original article

Publication year: 2018

Conference Proceedings Title: Proceedings of IEEE International Conference on Electronics Circuits and Systems

Event location: Bordeaux FR

DOI: 10.1109/icecs.2018.8618062

Abstract

Approximate computing allows to tackling conflicting objectives, such as power and accuracy of computations. In this paper, we first describe how knowledge of stimuli's specific features can help in quantifying and improving power savings by means of approximate computing. We investigate FPGA implementations of several approximate circuits and compare their power consumption with non-approximating versions. In particular, we study approximate arithmetics and a clock-gate based technique called memoization. Moreover, we compare the accuracy of estimation techniques for power consumption evaluation versus real measurements under controlled environments. We also experimentally quantify the relationship between switching activity and power consumption. Two important results are concluded from our investigations: (1) Approximate arithmetics do not necessarily consume less power than conventional circuits, whereas memoization techniques can, in fact, reduce power consumption. (2) Simulation-based power evaluation for approximate FPGA implementations can reach fidelity values up to about 89% in input-dependent power characteristics. Yet, to evaluate absolute savings, measurements are required.

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How to cite

APA:

Echavarria Gutiérrez, J.A., Schütz, K., Becher, A., Wildermann, S., & Teich, J. (2018). Can Approximate Computing Reduce Power Consumption on FPGAs? In Proceedings of IEEE International Conference on Electronics Circuits and Systems. Bordeaux, FR.

MLA:

Echavarria Gutiérrez, Jorge Alfonso, et al. "Can Approximate Computing Reduce Power Consumption on FPGAs?" Proceedings of the 25th IEEE International Conference on Electronics Circuits and Systems, Bordeaux 2018.

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