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This book describes methods for distributing power in high speed, high complexity integrated circuits with power levels exceeding many tens of watts and power supplies below a volt. It provides a broad and cohesive treatment of power distribution systems and related design problems, including both circuit network models and design techniques for on-chip decoupling capacitors, providing insight and intuition into the behavior and design of on-chip power distribution systems. Organized into subareas to provide a more intuitive flow to the reader, this second edition adds more than a hundred…mehr
This book describes methods for distributing power in high speed, high complexity integrated circuits with power levels exceeding many tens of watts and power supplies below a volt. It provides a broad and cohesive treatment of power distribution systems and related design problems, including both circuit network models and design techniques for on-chip decoupling capacitors, providing insight and intuition into the behavior and design of on-chip power distribution systems.
Organized into subareas to provide a more intuitive flow to the reader, this second edition adds more than a hundred pages of new content, including inductance models for interdigitated structures, design strategies for multi-layer power grids, advanced methods for efficient power grid design and analysis, and methodologies for simultaneously placing on-chip multiple power supplies and decoupling capacitors. The emphasis of this additional material is on managing the complexity of on-chip power distribution networks.
Introduction.- Inductive Properties of Electric Circuits.- Properties of On-Chip Inductive Current Loops.- Electromigration.- Scaling Trends of On-Chip Power Distribution Noise.- High Performance Power Distribution Systems.- On-Chip Power Distribution Networks.- Computer-Aided Design and Analysis.- Closed Form Expressions for Fast IR Drop Analysis.- Inductive Properties of On-Chip Power Distribution Grids.- Variation of Grid Inductance with Frequency.- Inductance/Area/Resistance Tradeoffs Inductance Model of Interdigitated Power and Ground Distribution Networks.- On-chip Power Noise Reduction Techniques in High Performance ICs.- Impedance/Noise Issues in On-Chip Power Distribution Networks.- Impedance Characteristics of Multi-Layer Grids.- Multi-Layer Interdigitated Power Distribution Networks.- Multiple On-Chip Power Supply Systems.- On-Chip Power Distribution Grids with Multiple Supply Voltages.- Background for Decoupling Capacitance.- Decoupling Capacitors for Multi-Voltage Power
Distribution Systems.- Effective Radii of On-Chip Decoupling Capacitors.- Efficient Placement of Distributed On-Chip Decoupling Capacitors.- Simultaneous Co-Design of Distributed On-Chip Power Supplies and Decoupling Capacitors.- Conclusions.
Introduction.- Inductive Properties of Electric Circuits.- Properties of On-Chip Inductive Current Loops.- Electromigration.- Scaling Trends of On-Chip Power Distribution Noise.- High Performance Power Distribution Systems.- On-Chip Power Distribution Networks.- Computer-Aided Design and Analysis.- Closed Form Expressions for Fast IR Drop Analysis.- Inductive Properties of On-Chip Power Distribution Grids.- Variation of Grid Inductance with Frequency.- Inductance/Area/Resistance Tradeoffs Inductance Model of Interdigitated Power and Ground Distribution Networks.- On-chip Power Noise Reduction Techniques in High Performance ICs.- Impedance/Noise Issues in On-Chip Power Distribution Networks.- Impedance Characteristics of Multi-Layer Grids.- Multi-Layer Interdigitated Power Distribution Networks.- Multiple On-Chip Power Supply Systems.- On-Chip Power Distribution Grids with Multiple Supply Voltages.- Background for Decoupling Capacitance.- Decoupling Capacitors for Multi-Voltage Power
Distribution Systems.- Effective Radii of On-Chip Decoupling Capacitors.- Efficient Placement of Distributed On-Chip Decoupling Capacitors.- Simultaneous Co-Design of Distributed On-Chip Power Supplies and Decoupling Capacitors.- Conclusions.
Introduction.- Inductive Properties of Electric Circuits.- Properties of On-Chip Inductive Current Loops.- Electromigration.- Scaling Trends of On-Chip Power Distribution Noise.- High Performance Power Distribution Systems.- On-Chip Power Distribution Networks.- Computer-Aided Design and Analysis.- Closed Form Expressions for Fast IR Drop Analysis.- Inductive Properties of On-Chip Power Distribution Grids.- Variation of Grid Inductance with Frequency.- Inductance/Area/Resistance Tradeoffs Inductance Model of Interdigitated Power and Ground Distribution Networks.- On-chip Power Noise Reduction Techniques in High Performance ICs.- Impedance/Noise Issues in On-Chip Power Distribution Networks.- Impedance Characteristics of Multi-Layer Grids.- Multi-Layer Interdigitated Power Distribution Networks.- Multiple On-Chip Power Supply Systems.- On-Chip Power Distribution Grids with Multiple Supply Voltages.- Background for Decoupling Capacitance.- Decoupling Capacitors for Multi-Voltage Power
Distribution Systems.- Effective Radii of On-Chip Decoupling Capacitors.- Efficient Placement of Distributed On-Chip Decoupling Capacitors.- Simultaneous Co-Design of Distributed On-Chip Power Supplies and Decoupling Capacitors.- Conclusions.
Introduction.- Inductive Properties of Electric Circuits.- Properties of On-Chip Inductive Current Loops.- Electromigration.- Scaling Trends of On-Chip Power Distribution Noise.- High Performance Power Distribution Systems.- On-Chip Power Distribution Networks.- Computer-Aided Design and Analysis.- Closed Form Expressions for Fast IR Drop Analysis.- Inductive Properties of On-Chip Power Distribution Grids.- Variation of Grid Inductance with Frequency.- Inductance/Area/Resistance Tradeoffs Inductance Model of Interdigitated Power and Ground Distribution Networks.- On-chip Power Noise Reduction Techniques in High Performance ICs.- Impedance/Noise Issues in On-Chip Power Distribution Networks.- Impedance Characteristics of Multi-Layer Grids.- Multi-Layer Interdigitated Power Distribution Networks.- Multiple On-Chip Power Supply Systems.- On-Chip Power Distribution Grids with Multiple Supply Voltages.- Background for Decoupling Capacitance.- Decoupling Capacitors for Multi-Voltage Power
Distribution Systems.- Effective Radii of On-Chip Decoupling Capacitors.- Efficient Placement of Distributed On-Chip Decoupling Capacitors.- Simultaneous Co-Design of Distributed On-Chip Power Supplies and Decoupling Capacitors.- Conclusions.
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