Power-aware scheduling of data-flow hardware circuits with symbolic control

Power-aware scheduling of data-flow hardware circuits with symbolic control

We devise a tool-supported framework for achieving power-efficiency of data-flowhardware circuits. Our approach relies on formal control techniques, where the goal is to compute a strategy that can be used to drive a given model so that it satisfies a set of control objectives. More specifically, we...

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Veröffentlicht in:Archives of control sciences 2021-01, Vol.31 (2), p.431-446
Hauptverfasser: Özbaltan, Mete, Berthier, Nicolas
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Circuit design
Circuits
Control algorithms
digital synchronous circuits
Efficiency
Hardware description languages
Logic
Objectives
Optimization
power efficiency
Scheduling
symbolic discrete controller synthesis
Valuation
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Beschreibung
Zusammenfassung:We devise a tool-supported framework for achieving power-efficiency of data-flowhardware circuits. Our approach relies on formal control techniques, where the goal is to compute a strategy that can be used to drive a given model so that it satisfies a set of control objectives. More specifically, we give an algorithm that derives abstract behavioral models directly in a symbolic form from original designs described at Register-transfer Level using a Hardware Description Language, and for formulating suitable scheduling constraints and power-efficiency objectives. We show how a resulting strategy can be translated into a piece of synchronous circuit that, when paired with the original design, ensures the aforementioned objectives. We illustrate and validate our approach experimentally using various hardware designs and objectives.
ISSN:1230-2384
2300-2611
DOI:10.24425/acs.2021.137426