| Illinois ECE 598EP Lecture 1 - Hot Chips: Atoms to Heat Sinks |
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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 |
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Electrons and Phonons
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| Illinois ECE 598EP Lecture 3.2 - Hot Chips: Electrons and Phonons |
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Electrons and Phonons
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| Illinois ECE 598EP Lecture 3.3 - Hot Chips: Electrons and Phonons |
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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 8 - Hot Chips: Thermal Conductivity of Solids |
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Thermal Conductivity of Solids
Topics:
Kinetic Theory of Energy Transport
Simple Kinetic Theory Assumptions
Phonon MFP and Scattering Time
Silicon Film Thermal Conductivity
Silicon...
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| Illinois ECE 598EP Lecture 12 - Hot Chips: Boundary Resistance and Thermometry |
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Boundary Resistance and Thermometry
Topics:
Summary of Boundary Resistance
Acoustic vs. Diffuse Mismatch Model
Band to Band Tunneling Conduction
Thermionic and Field Emission(3D)
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| Illinois ECE 598EP Lecture 13 - Hot Chips: Conductance Quantization |
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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...
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| Illinois ECE 598EP Lecture 14 - Hot Chips: Power Dissipation in Semiconductors |
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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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