Title :
Configurable On-Line Global Energy Optimization in Multi-Core Embedded Systems Using Principles of Analog Computation
Author :
Zeynep Toprak Deniz ; Leblebici, Yusuf ; Vittoz, Eric
Author_Institution :
Ecole Polytechnique Federale de Lausanne
Abstract :
This work presents the design of an on-line energy optimizer unit, which is capable of dynamically adjusting power supply voltages and operating frequencies of multiple processing elements (PE), tailored to the instantaneous workload information and is fully adaptive to variations in process and temperature. The circuit design borrows some of the basic principles of analog computation to continuously optimize the system-wide energy dissipation of multiple cores. The analogy between the energy minimization problem under timing constraints in a general task graph and the power minimization problem under Kirchhoffs current law (KCL) constraints in an equivalent resistive network is exploited
Keywords :
analogue circuits; circuit optimisation; embedded systems; energy management systems; system-on-chip; analog computation; configurable on-line global energy optimization; dynamic voltage and frequency scaling; energy management; multicore embedded systems; multiple processing elements; system-on-chip; Analog computers; Design optimization; Embedded computing; Embedded system; Frequency; Kirchhoff´s Law; Minimization; Power supplies; Temperature; Voltage; Dynamic Voltage and Frequency Scaling; On-line energy optimization; System-on-Chip; energy management;
Conference_Titel :
Very Large Scale Integration, 2006 IFIP International Conference on
Conference_Location :
Nice
Print_ISBN :
3-901882-19-7
DOI :
10.1109/VLSISOC.2006.313265
