Numerical comparison of dual-network, REV-scale, and pore-resolved models shows homogenization-based effective parameters best match reference results for local thermal non-equilibrium when interfacial resistance is high.
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3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
Review summarizing innovations in phase-change memory energy efficiency via material scaling and thermal confinement, with discussion of attojoule-scale theoretical limits constrained by parasitics.
The paper reviews multiscale thermal modeling techniques for 3D ICs, unifying scales from device to system while stressing thermal boundary resistance and validation needs.
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Local Thermal Non-Equilibrium Models in Porous Media: A Comparative Study of Conduction Effects
Numerical comparison of dual-network, REV-scale, and pore-resolved models shows homogenization-based effective parameters best match reference results for local thermal non-equilibrium when interfacial resistance is high.
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Energy and Scaling Limits of Phase-Change Memory
Review summarizing innovations in phase-change memory energy efficiency via material scaling and thermal confinement, with discussion of attojoule-scale theoretical limits constrained by parasitics.
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A Review of Multiscale Thermal Modeling in Heterogeneous 3D ICs
The paper reviews multiscale thermal modeling techniques for 3D ICs, unifying scales from device to system while stressing thermal boundary resistance and validation needs.