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200 10$aAdaptive cooling of integrated circuits using digital microfluidics /$fPhilip Y. Paik, Krishnendu Chakrabarty, Vamsee K. Pamula
210  1$aNorwood, Massachusetts :$cArtech House,$d©2007.
210  2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2007]
215   $a1 online resource (203 p.)
225 1 $aArtech House integrated microsystems series
300   $aDescription based upon print version of record.
311   $a1-59693-138-8 
320   $aIncludes bibliographical references and index.
327   $aAdaptive Cooling of Integrated Circuits Using Digital Microfluidics; Contents 5; Preface 11; Chapter 1 Thermal Management of Integrated Circuits 15; Chapter 2 Cooling Devices for Integrated Circuits 33; Chapter 3 Adaptive Hot-Spot Cooling Principles and Design 49; Chapter 4 Technology Development 77; Chapter 5 Thermal Effects of Digital Microfluidic Devices 105; Chapter 6 Flow-Through-Based Adaptive Cooling 117; Chapter 7 Programmable Thermal Switch-Based Adaptive Cooling 145; Chapter 8 Concluding Remarks 161; Appendix A Image Analysis Software Using MATLAB 167.
330   $aThanks to increasing power consumption and component density, localized?hot spots? are becoming a serious challenge in IC (integrated circuit) chip design? so serious, in fact, that Intel recently had to yank a circuit because it was literally burning. For IC engineers grappling with high power dissipation and thermal issues, new droplet-based cooling techniques using digital microfluidics technology could provide the solution. This definitive guide paves the way, with design and implementation methodologies and prototypes for utilizing this groundbreaking technology. After reviewing cooling.
410  0$aArtech House integrated microsystems series.
606   $aIntegrated circuits$xCooling
606   $aIntegrated circuits$xDesign and construction
606   $aMicrofluidics
608   $aElectronic books.
615  0$aIntegrated circuits$xCooling.
615  0$aIntegrated circuits$xDesign and construction.
615  0$aMicrofluidics.
676   $a620.106
676   $a621.3815
700   $aPaik$b Philip Y.$0891519
701   $aChakrabarty$b Krishnendu$0720740
701   $aPamula$b Vamsee K$0891520
801  0$bCaBNVSL
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200 1 $aNew Trends and Results in Mathematical Description of Fluid Flows$fMiroslav Bulí?ek, Eduard Feireisl, Milan Pokorný editors
210   $aCham$cBirkhäuser$d2018
215   $axi, 181 p.$cill.$d24 cm
410  1$1001VAN00124887$12001 $aNe?as Center Series$1210  $aCham$cBirkhäuser$d2018-
500  1$3VAN00236394$aNew Trends and Results in Mathematical Description of Fluid Flows$91563675
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606   $a35L02$xFirst-order hyperbolic equations [MSC 2020]$3VANC033825$2MF
606   $a35Qxx$xPartial differential equations of mathematical physics and other areas of application [MSC 2020]$3VANC022881$2MF
606   $a76B03$xExistence, uniqueness, and regularity theory for incompressible inviscid fluids [MSC 2020]$3VANC029307$2MF
606   $a76D03$xExistence, uniqueness, and regularity theory for incompressible viscous fluids [MSC 2020]$3VANC023153$2MF
606   $a76M10$xFinite element methods applied to problems in fluid mechanics [MSC 2020]$3VANC023084$2MF
606   $a76N10$xExistence, uniqueness, and regularity theory for compressible fluids and gas dynamics [MSC 2020]$3VANC023349$2MF
606   $a76T10$xLiquid-gas two-phase flows, bubbly flows [MSC 2020]$3VANC031157$2MF
610   $aCompactness of solutions$9KW:K
610   $aCompressible transport equation$9KW:K
610   $aDiffuse and sharp interface$9KW:K
610   $aDissipative solutions$9KW:K
610   $aEuler equations$9KW:K
610   $aMartingale solutions$9KW:K
610   $aMeasure-valued solutions$9KW:K
610   $aPartial Differential Equations$9KW:K
610   $aStochastic navier-stokes equations$9KW:K
610   $aTwo-phase flow$9KW:K
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702  1$aFeireisl$bEduard$3VANV088165
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