We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Simultaneous Clock Skew Scheduling and Power-Gated Module Selection for Standby Leakage Minimization.
- Authors
SHIH-HSU HUANG; CHUN-HUA CHENG; DA-CHEN TZENG
- Abstract
Leakage current minimization is an important topic for event driven applications that spend most of their times in standby mode. Power gating technique is one of the most effective ways to reduce the standby leakage current. However, when power gating technique is applied to a functional unit, there exists a delay-power tradeoff, which can be characterized with the widths of sleep transistors. In this paper, we point out that: under the same target clock period, there are many feasible clock skew schedules; since different clock skew schedules impose different timing constraints to functional units, different clock skew schedules may lead to different standby leakage currents. Based on that observation, we present an MILP (mixed integer linear programming) approach to formally formulate the problem of simultaneous application of optimal clock skew scheduling and power-gated module selection (i.e., sleep transistor width selection) in high-level synthesis stage. Experimental data show that: compared with the existing design flow, our standby leakage current reduction achieves 29.3%.
- Subjects
COMPUTER scheduling; REAL-time clocks (Computers); GATE array circuits; ELECTRIC leakage; COMPUTER power supply
- Publication
Journal of Information Science & Engineering, 2009, Vol 25, Issue 6, p1707
- ISSN
1016-2364
- Publication type
Article