A MULTI-OBJECTIVE PERSPECTIVE FOR OPERATOR SCHEDULING USING FINEGRAINED DVS ARCHITECTURES
Rajdeep Mukherjee, Priyankar Ghosh, Pallab Dasgupta and Ajit Pal
Department of Computer Science and Engineering Indian Institute of Technology Kharagpur
ABSTRACT :
The stringent power budget of fine grained power managed digital integrated circuits have driven chip designers to optimize power at the cost of area and delay, which were the traditional cost criteria for circuit optimization. The emerging scenario motivates us to revisit the classical operator scheduling problem under the availability of DVFS enabled functional units that can trade-off cycles with power. We study the design space defined due to this trade-off and present a branch-and-bound(B/B) algorithm to explore this state space and report the pareto-optimal front with respect to area and power. The scheduling also aims at maximum resource sharing and is able to attain sufficient area and power gains for complex benchmarks when timing constraints are relaxed by sufficient amount. Experimental results show that the algorithm that operates without any user constraint(area/power) is able to solve the problem for mostavailable benchmarks, and the use of power budget or area budget constraints leads to significant performance gain.
KEYWORDS:
Scheduling, Pareto-optimal, Fine-grained DVS, Branch-and- Bound
Original Source Link : http://aircconline.com/vlsics/V4N1/4113vlsics09.pdf
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