Low-power CMOS design / edited by Anantha Chandrakasan, Robert Brodersen.
Contributor(s): Brodersen, Robert W | Chandrakasan, Anantha P | John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: BookPublisher: New York : IEEE Press, c1998Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [1998]Description: 1 PDF (xii, 629 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470545058.Subject(s): Metal oxide semiconductors, Complementary -- Computer-aided design | Low voltage integrated circuits -- Computer-aided design | Digital integrated circuits -- Computer-aided design | Algorithm design and analysis | Amplitude modulation | Arrays | Artificial neural networks | Batteries | Boolean functions | Boron | CMOS integrated circuits | CMOS technology | Capacitance | Clocks | Computational modeling | Computers | Conferences | Converters | DRAM chips | Decoding | Delay | Digital circuits | Driver circuits | Energy dissipation | Energy measurement | Equations | FETs | Fluctuations | Generators | Graphics | Impact ionization | Impedance matching | Indexes | Inductors | Integrated circuit modeling | Inverters | Latches | Leakage current | Libraries | Logic gates | MOSFET circuits | MOSFETs | Microelectronics | Physics | Pipeline processing | Power demand | Power dissipation | Power supplies | Power transistors | Presses | Proposals | Protocols | Random access memory | Random variables | Receivers | Rectifiers | Reduced instruction set computing | Registers | Silicon | Stochastic processes | Streaming media | Substrates | Subthreshold current | Switches | Switching circuits | System-on-a-chip | Threshold voltage | Transistors | Ultra large scale integration | Voltage control | Voltage measurement | Zero voltage switchingGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.381/044 Online resources: Abstract with links to resource Also available in print."A selected reprint volume."
Includes bibliographical references and indexes.
Preface -- OVERVIEW -- Low Power Microelectronics: Retrospect and Prospect (J. Meindl) -- Micropower IC (E. Vittoz) -- Low-Power CMOS Digital Design (A. Chandrakasan, et al.) -- CMOS Scaling for High Performance and Low-Power -- The Next Ten Years (B. Davari, et al.) -- LOW VOLTAGE TECHNOLOGIES AND CIRCUITS -- Low-Voltage Technologies and Circuits (T. Kuroda & T. Sakurai) -- Threshold Voltage Scaling and Control -- Ion-Implanted Complementary MOS Transistors in Low-Voltage Circuits (R. Swanson & J. Meindl) -- Trading Speed for Low Power by Choice of Supply and Threshold Voltages (D. Liu & C. Svensson) -- Limitation of CMOS Supply-Voltage Scaling by MOSFET Threshold-Voltage Variation (S. Sun & P. Tsui) -- Multiple Threshold CMOS (MTCMOS) -- 1-V Power Supply High-Speed Digital Circuit Technology with Multithreshold Voltage CMOS (S. Mutoh, et al.) -- A 1-V Multi-Threshold Voltage CMOS DSP with an Efficient Power Management Technique for Mobile Phone Application (S. Mutoh, et al.) -- Substrate Bias Controlled Variable Threshold CMOS -- 50% Active-Power Saving Without Speed Degradation Using Standby Power Reduction (SPR) Circuit (K. Seta, et al.) -- A 0.9V, 150MHz 10mW 4mm2, 2-D Discrete Cosine Transform Core Processor with Variable Threshold-Voltage (VT) Scheme (T. Kuroda, et al.) -- Silicon-on-Insulator Based Technologies -- SOI CMOS for Low Power Systems (D. Antoniadis) -- Back Gated CMOS on SOIAS for Dynamic Threshold Voltage Control (I. Yang, et al.) -- Design of Low Power CMOS/SOI Devices and Circuits for Memory and Signal Processing Applications (L. Thon & G. Shahidi) -- A Dynamic Threshold Voltage MOSFET (DTMOS) for Very Low Voltage Operation (F. Assaderaghi, et al.) -- A 0.5V SIMOX-MTCMOS Circuit with 200ps Logic Gate (T. Douseki, et al.) -- EFFICIENT DC-DC CONVERSION AND ADAPTIVE POWER SUPPLY SYSTEMS -- Efficient Low Voltage DC-DC Converter Design -- A Low-Voltage CMOS DC-DC Converter for a Portable Battery-Operated System (A. Stratakos, et al.) -- Ultra Low-Power Control Circuits for PWM Converters (A. Dancy & A. Chandrakasan).
Adaptive Power Supply Systems -- A Voltage Reduction Technique for Battery Operated Systems (V. von Kaenel, et al.) -- Automatic Adjustment of Threshold and Supply Voltage for Minimum Power Consumption in CMOS Digital Circuits (V. von Kaenel, et al.) -- Low-Power Operation Using Self-Timed Circuits and Adaptive Scaling of the Supply Voltage (L. Nielsen, et al.) -- A Low-Power Switching Power Supply for Self-Clocked Systems (G. Wei & M. Horowitz) -- Variable-Voltage Digital-Signal Processing (V. Gutnik & A. Chandrakasan) -- Scheduling for Reduced CPU Energy (M. Weiser, et al.) -- CIRCUIT AND LOGIC STYLES -- Conventional Circuit and Logic Styles -- Silicon-Gate CMOS Frequency Divider for the Electronic Wrist Watch (E. Vittoz, et al.) -- CODYMOS Frequency Dividers Achieve Low Power Consumption and High Frequency (H. Oguey & E. Vittoz) -- Short-Circuit Dissipation of Static CMOS Circuitry and Its Impact on the Design of Buffer Circuits (H. Veendrick) -- A 3.8ns CMOS 16x16 Multiplier Using Complementary Pass Transistor Logic (K. Yano, et al.) -- A High-Speed, Low-Power, Swing Restored Pass-Transistor Logic Based Multiply and Accumulate Circuit for Multimedia Applications (A. Parameswar, et al.) -- Static Power Driven Voltage Scaling and Delay Driven Buffer Sizing in Mixed Swing QuadRail for Sub-IV I/O Swings (R. Krishnamurthy, et al.) -- The Power Consumption of CMOS Adders and Multiliers (T. Callaway & E. Swartzlander, Jr.) -- Delay Balanced Multipliers for Low Power/Low Voltage DSP Core (T. Sakuta, et al.) -- Asynchronous Does Not Imply Low Power, But, ... (K. Van Berkel, et al.) -- Latches and Flip-Flops for Low-Power Systems (C. Svensson & J. Yuan) -- Adiabatic Logic Circuits -- Zig-Zag Path to Understanding (R. Landauer) -- A Low-Power Multiphase Circuit Technique (B. Watkins) -- Asymptotically Zero Energy Split-Level Charge Recovery Logic (S. Younis & T. Knight) -- Low Power Ditigal Systems Based on Adiabatic Switching Principles (W. Athas, et al.) -- Adiabatic Dynamic Logic (A. Dickinson & J. Denker).
DRIVING INTERCONNECT -- Sub-1-V Swin Internal Bus Architecture for Future Low-Power ULSIs (Y. Nakagome, et al.) -- Data-Dependent Logic Swing Internal Bus Architecture for Ultra Low-Power LSIs (M. Hiraki, et al.) -- An Asymptotically Zero Power Charge-Recycling Bus Architecture for Battery-Operated Ultra-High Data Rate ULSIs (H. Yamauchi, et al.) -- Bus-Invert Coding for Low Power I/O (M. Stan & W. Burleson) -- A Sub-CV2 Pad Driver with 10 ns Transition Time (L. Svensson, et al.) -- MEMORY CIRCUITS -- Reviews and Prospects of Low-Power Memory Circuits (K. Itoh) -- DRAM -- Trends in Low-Power RAM Circuit Technologies (K. Itoh, et al.) -- Standby/Active Mode Logic for Sub-1V Operating ULSI Memory (D. Takashima, et al.) -- A Charge Recycle Refresh for Gb-scale DRAM's in File Application (T. Kawahara, et al.) -- SRAM -- A 1-V 1-Mb SRAM for Portable Equipment (H. Morimura & N. Shibata) -- A Single Bitline Cross-Point Cell Activation (SCPA) Architecture for Ultra-Low-Power SRAMs (M. Ukita, et al.) -- Techniques to Reduce Power in Fast Wide Memories (B. Amrutur & M. Horowitz) -- A 2-ns, 5-mW, Synchronous-Powered Static-Circuit Associative TLB (H. Higuchi, et al.) -- Driving Source-Line (DSL) Cell Architecture for Sub-1-V High Speed Low Power Applications (H. Mizuno & T Nagano) -- PORTABLE TERMINAL ELECTRONICS -- General Purpose Processor Design -- Energy Dissipation in General Purpose Microprocessors (R. Gonzalez & M. Horowitz) -- Energy Efficient CMOS Microprocessor Design (T. Burd & R. Brodersen) -- A 160MHz 32b 0.5W CMOS RISC Microprocessor (J. Montanaro, et al.) -- A 320MHz, 1.5mW @ 1.35V CMOS PLL for Microprocessor Clock Generation (V. Von Kaenel, et al.) -- Dedicated and Programmable Digital Signal Processors -- A Low-Power Chipset for a Portable Multimedia I/O Terminal (A. Chandrakasan, et al.) -- A Portable Real-Time Video Decoder for Wireless Communication (T. Meng, et al.) -- Low Power Design of Memory Intensive Functions (D. Lidsky & J. Rabaey) -- A 16b Low-Power Digital Signal Processor (K. Ueda, et al.).
A 1.8V 36mW DSP for the Half-Rate Speech CODEC (T. Shiraishi, et al.) -- Design of a 1-V Programmable DSP for Wireless Communication (P. Landman, et al.) -- Stage-Skip Pipeline: A Low Power Processor Architecture Using a Decoded Instruction Buffer (M. Hiraki, et al.) -- COMPUTER AIDED DESIGN TOOLS -- Power Analysis Techniques -- Transition Density: A New Measure of Activity in Digital Circuits (E. Najm) -- Estimation of Average Switching Activity in Combinational and Sequential Circuits (A. Ghosh, et al.) -- Power Estimation for Sequential Logic Circuits (C. Tsui, et al.) -- A Monte Carlo Approach for Power Estimation (R. Burch, et al.) -- Stratified Random Sampling for Power Estimation (C.-S. Ding, et al.) -- A Survey of High-Level Power Estimation Techniques (P. Landman) -- Activity-Sensitive Architectural Power Analysis (P. Landman & J. Rabaey) -- Power Analysis of Embedded Software: A First Step Towards Software Power Minimization (V. Tiwari, et al.) -- Power Optimization Techniques -- Technology Mapping for Low Power (V. Tiwari, et al.) -- POSE: Power Optimization and Synthesis Environment (S. Iman & M. Pedram) -- Transformation and Synthesis of FSMs fo Low-Power Gated-Clock Implementation (L. Benini & G. De Micheli) -- Precomputation-Based Sequential Logic Optimization for Low Power (M. Alidina, et al.) -- Glitch Analysis and Reduction in Register Transfer Level Power Optimization (A. Raghunathan, et al.) -- Exploiting Locality for Low-Power Design (R. Mehra, et al.) -- HYPER-LP: A System for Power Minimization Using Architectural Transformations (A. Chandrakasan, et al.) -- Variable Voltage Scheduling (S. Raje & M. Sarrafzadeh) -- System)-Level Transformations for Low Power Data Transfer and Storage (F. Catthoor, et al.) -- Author Index -- Index.
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