Illinois ECE 598EP Hot Chips: Atoms to Heat Sinks
| Lecture Number/Topic | Online Lecture | Video | Lecture Notes | Supplemental Material | Suggested Exercises |
|---|---|---|---|---|---|
| Illinois ECE 598EP Lecture 1 - Hot Chips: Atoms to Heat Sinks Introduction Content: The Big Picture Another CPU without a Heat Sink Thermal Management Methods Impact on People and Environment Packaging cost IBM S/390 refrigeration and … |
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| Illinois ECE 598EP Lecture 3.1 - Hot Chips: Electrons and Phonons Electrons and Phonons |
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| Illinois ECE 598EP Lecture 3.2 - Hot Chips: Electrons and Phonons Electrons and Phonons |
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| Illinois ECE 598EP Lecture 3.3 - Hot Chips: Electrons and Phonons Electrons and Phonons Topics: Energy Stored in These Vibrations The Einstein Model Einstein Low-T and High-T Behavior The Debye Model Peter Debye (1884-1966) Website Reminder The … |
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| Illinois ECE 598EP Lecture 12 - Hot Chips: Boundary Resistance and Thermometry Boundary Resistance and Thermometry Topics: Summary of Boundary Resistance Acoustic vs. Diffuse Mismatch Model Band to Band Tunneling Conduction Thermionic and Field Emission(3D) Photon … |
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| Illinois ECE 598EP Lecture 13 - Hot Chips: Conductance Quantization Conductance Quantization Topics: Ideal Electrical Resistance in 1-D Charge and Energy Current Flow in 1-D Conductance as Transmission Conductance of 1-D quantum wire Quasi 1-D Channel in … |
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| Illinois ECE 598EP Lecture 14 - Hot Chips: Power Dissipation in Semiconductors Power Dissipation in Semiconductors Topics: Simple Power Dissipation Models Revisit Simple Landauer Resistor Continuum view of Heat Generation Details of Joule Heating in Silicon Self … |
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