000200458 001__ 200458
000200458 005__ 20190316235946.0
000200458 020__ $$a978-1-4799-6278-5/14
000200458 037__ $$aCONF
000200458 245__ $$aPowerCool: Simulation of Integrated Microfluidic Power Generation in Bright Silicon MPSoCs
000200458 269__ $$a2014
000200458 260__ $$bIEEE/ACM Press$$c2014$$aNew York
000200458 336__ $$aConference Papers
000200458 520__ $$aIntegrated microfluidic power generation and power delivery promises to be a disruptive packaging technology with the potential to combat dark silicon. It essentially consists of integrated microchannel-based electrochemical “flow cells” in a 2D/3D multiprocessor system-on-chip (MPSoC), that generate electricity to power up the entire or part of the chip, while also simultaneously acting as a high-efficiency microfluidic heat sink. Further development of this technology requires efficient modeling tools that would assess the efficacy of such solutions and help perform early-stage design space exploration. In this paper, we propose a compact mathematical model, called Power- Cool, that performs electro-chemical modeling and simulation of integrated microfluidic power generation in MPSoCs. The accuracy of the model has been validated against fine-grained multiphysics simulations of flow cells in the COMSOL software that is unsuitable for EDA because of large simulation times. PowerCool model is demonstrated to be up to 425x times faster than COMSOL simulations while incurring a worst-case error of only 5%. Furthermore, the PowerCool model has been used to study and assess the efficacy of this technology for a test MPSoC.
000200458 6531_ $$aMPSoC
000200458 6531_ $$aPower Generation
000200458 6531_ $$aPowerCool
000200458 6531_ $$aMicrofluidic
000200458 6531_ $$aSystem Optimization
000200458 6531_ $$aComputing Engineering
000200458 700__ $$0242433$$g190916$$aSridhar, Arvind
000200458 700__ $$aSabry, Mohamed M.
000200458 700__ $$aRuch, Patrick
000200458 700__ $$g169199$$aAtienza Alonso, David$$0240268
000200458 700__ $$aMichel, Bruno
000200458 7112_ $$dNovember 2-6, 2014$$cSan Jose, CA, USA$$aIEEE/ACM 2014 International Conference on Computer Aided-Design (ICCAD)
000200458 773__ $$j1$$tProceedings of the IEEE/ACM 2014 International Conference on Computer Aided-Design (ICCAD)$$k1$$q527-534
000200458 8564_ $$uhttps://infoscience.epfl.ch/record/200458/files/ICCAD2014-07B_1.PDF$$zPublisher's version$$s1844551$$yPublisher's version
000200458 909C0 $$xU11977$$0252050$$pESL
000200458 909CO $$ooai:infoscience.tind.io:200458$$qGLOBAL_SET$$pconf$$pSTI
000200458 917Z8 $$x169199
000200458 917Z8 $$x169199
000200458 937__ $$aEPFL-CONF-200458
000200458 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000200458 980__ $$aCONF