000148670 001__ 148670
000148670 005__ 20180317092411.0
000148670 020__ $$a978-0-7695-4076-4
000148670 0247_ $$2doi$$a10.1109/ISVLSI.2010.39
000148670 037__ $$aCONF
000148670 245__ $$aAdaptive Task Migration Policies for Thermal control in MPSoCs
000148670 269__ $$a2010
000148670 260__ $$aNew York$$bIEEE Computer Society $$c2010
000148670 336__ $$aConference Papers
000148670 520__ $$aIn deep submicron circuits, high temperatures have created critical issues in reliability, timing, performance, coolings costs and leakage power. Task migration techniques have been proposed to manage efficiently the thermal distribution in multi-processor systems but at the cost of important performance penalties. While traditional techniques have focused on reducing the average temperature of the chip, they have not considered the effect that temperature gradients have in system reliability. In this work, we explore the benefits of thermal-aware task migration techniques for embedded multi-processor systems. We propose several policies that are able to reduce the average temperature of the chip and the thermal gradients with a negligible performance overhead. With our techniques, hot spots and temperature gradients are decreased up to 30% with respect to state-of-the-art thermal management approaches
000148670 6531_ $$aembedded systems, temperature, task migration, thermal-aware design
000148670 700__ $$aCuesta, David
000148670 700__ $$aRodrigo, Ayala
000148670 700__ $$aLuis, José
000148670 700__ $$aPerez, Hidalgo
000148670 700__ $$aIgnacio, Jose
000148670 700__ $$0240268$$aAtienza Alonso, David$$g169199
000148670 700__ $$aAcquaviva, Andrea
000148670 700__ $$aMacii, Enrico
000148670 7112_ $$aIEEE 2010 Annual Symposium on VLSI$$cLixouri Kefalonia, Greece$$dJuly 5-7, 2010
000148670 773__ $$j1$$k1$$q110-115$$tProceedings of the IEEE 2010 Annual Symposium on VLSI
000148670 8564_ $$s1030048$$uhttps://infoscience.epfl.ch/record/148670/files/ISVLSI2010-05571796.pdf$$zn/a
000148670 909CO $$ooai:infoscience.tind.io:148670$$pSTI$$pconf
000148670 909C0 $$0252050$$pESL$$xU11977
000148670 917Z8 $$x169199
000148670 917Z8 $$x169199
000148670 937__ $$aEPFL-CONF-148670
000148670 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000148670 980__ $$aCONF