부산대학교 도서관

To minimize energy consumption by voltage scaling in design of heterogeneous real-time embedded systems, it is necessary to perform two distinct tasks: task scheduling (TS) and voltage selection (VS). Techniques proposed to date either are fast but yield inefficient results, or output efficient solutions after many slow iterations. As a core problem to solve in the inner loop of a system-level optimization cycle, it is critical that the algorithm be fast while producing high quality results. This paper presents a new technique called Evolutionary Relative Slack Distribution Voltage Scheduling (ERSD-VS) that achieves both speed and efficiency. It addresses priority adjustment and slack distribution issues with low cost heuristics. Experimental results from running publicly available testbenches show up to 42% energy saving compared to a published technique called EVEN-VS. It also shows up to 70 times speed improvement compared to an efficient technique called EE-GLSA.