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Engineering
Computer Engineering
VLSI Design
1. Introduction to VLSI
2. Fundamentals of MOS Transistors
3. CMOS Logic and Circuit Design
4. The VLSI Design Process
5. Physical Design
6. Verification and Testing
7. Timing and Power Analysis
8. Memory Design
9. System-on-Chip Design
10. Signal Integrity and Interconnect
11. Advanced VLSI Topics
10.
Signal Integrity and Interconnect
10.1.
Interconnect Modeling
10.1.1.
RC Models
10.1.2.
RLC Models
10.1.3.
Transmission Line Models
10.2.
Signal Integrity Effects
10.2.1.
Crosstalk
10.2.1.1.
Capacitive Coupling
10.2.1.2.
Inductive Coupling
10.2.1.3.
Crosstalk Mitigation
10.2.2.
Reflection
10.2.3.
Ringing
10.2.4.
Ground Bounce
10.3.
Power Integrity
10.3.1.
Power Supply Noise
10.3.2.
IR Drop
10.3.2.1.
Static IR Drop
10.3.2.2.
Dynamic IR Drop
10.3.3.
Power Delivery Network Design
10.3.4.
Decoupling Capacitors
10.4.
Electromigration
10.4.1.
Electromigration Mechanisms
10.4.2.
Current Density Limits
10.4.3.
Electromigration Prevention
10.5.
Thermal Effects
10.5.1.
Self-Heating
10.5.2.
Thermal Coupling
10.5.3.
Thermal Management
10.6.
High-Speed Design Considerations
10.6.1.
Transmission Line Effects
10.6.2.
Termination Strategies
10.6.3.
Differential Signaling
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9. System-on-Chip Design
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11. Advanced VLSI Topics