This paper presents a solution to the problem of reducing the power dissipated by a digital system containing an intellectual proprietary core processor which repeatedly executes a special-purpose program. The proposed method relies on a novel, application-dependent low-power address bus encoding scheme. The analysis of the execution traces of a given program allows an accurate computation of the correlations that may exist between blocks of bits in consecutive patterns; this information can be successfully exploited to determine an encoding which sensibly reduces the bus transition activity. Experimental results, obtained on a set of special-purpose applications, are very satisfactory; reductions of the bus activity up to 64.8% (41.8% on average) have been achieved over the original address streams. In addition, data concerning the quality and the performance of the automatically synthesized encoding/decoding circuits, as well as the results obtained for a realistic core-based design, indicate the practical usefulness of the proposed power optimization strategy.

Power Optimization of Core-Based Systems By Address Bus Encoding / Benini, L.; DE MICHELI, G.; Macii, Enrico; Poncino, Massimo; Quer, Stefano. - In: IEEE TRANSACTIONS ON VERY LARGE SCALE INTEGRATION (VLSI) SYSTEMS. - ISSN 1063-8210. - VLSI-6:(1998), pp. 554-562. [10.1109/92.736127]

Power Optimization of Core-Based Systems By Address Bus Encoding

MACII, Enrico;PONCINO, MASSIMO;QUER, Stefano
1998

Abstract

This paper presents a solution to the problem of reducing the power dissipated by a digital system containing an intellectual proprietary core processor which repeatedly executes a special-purpose program. The proposed method relies on a novel, application-dependent low-power address bus encoding scheme. The analysis of the execution traces of a given program allows an accurate computation of the correlations that may exist between blocks of bits in consecutive patterns; this information can be successfully exploited to determine an encoding which sensibly reduces the bus transition activity. Experimental results, obtained on a set of special-purpose applications, are very satisfactory; reductions of the bus activity up to 64.8% (41.8% on average) have been achieved over the original address streams. In addition, data concerning the quality and the performance of the automatically synthesized encoding/decoding circuits, as well as the results obtained for a realistic core-based design, indicate the practical usefulness of the proposed power optimization strategy.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/1402043
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