Low-Power Digital VLSI Design: Circuits and Systems addresses both process technologies and device modeling. Power dissipation in CMOS circuits, several practical circuit examples, and low-power techniques are discussed. Low-voltage issues for digital CMOS and BiCMOS circuits are emphasized. The book also provides an extensive study of advanced CMOS subsystem design. A low-power design methodology is presented with various power minimization techniques at the circuit, logic, architecture and algorithm levels. Features: Low-voltage CMOS device modeling, technology files, design rules Switching activity concept, low-power guidelines to engineering practice Pass-transistor logic families Power dissipation of I/O circuits Multi- and low-VT CMOS logic, static power reduction circuit techniques State of the art design of low-voltage BiCMOS and CMOS circuits Low-power techniques in CMOS SRAMS and DRAMS Low-power on-chip voltage down converter design Numerous advanced CMOS subsystems (e.g. adders, multipliers, data path, memories, regular structures, phase-locked loops) with several design options trading power, delay and area Low-power design methodology, power estimation techniques Power reduction techniques at the logic, architecture and algorithm levels More than 190 circuits explained at the transistor level.

Digital BiCMOS Integrated Circuit Design is the first book devoted entirely to the analysis and design of digital BiCMOS integrated circuits. BiCMOS Integrated Circuit Design also reviews CMOS and CML integrated circuit design. The application of BiCMOS in the design of digital subsystems, e.g. adders, multipliers, RAMs and PLAs is addressed. The book also introduces the reader to IC process technology: CMOS, bipolar and BiCMOS. The modeling of both the bipolar and MOS devices are covered. Many process/device/circuit design issues are discussed. Digital BiCMOS Integrated Circuit Design can be used by engineers, researchers, graduate and senior undergraduate students working in the area of digital integrated circuits, digital circuits and system design, BiCMOS process and device modeling.

Digital BiCMOS Integrated Circuit Design is the first book devoted entirely to the analysis and design of digital BiCMOS integrated circuits. BiCMOS Integrated Circuit Design also reviews CMOS and CML integrated circuit design. The application of BiCMOS in the design of digital subsystems, e.g. adders, multipliers, RAMs and PLAs is addressed. The book also introduces the reader to IC process technology: CMOS, bipolar and BiCMOS. The modeling of both the bipolar and MOS devices are covered. Many process/device/circuit design issues are discussed. Digital BiCMOS Integrated Circuit Design can be used by engineers, researchers, graduate and senior undergraduate students working in the area of digital integrated circuits, digital circuits and system design, BiCMOS process and device modeling.

Low-Power Digital VLSI Design: Circuits and Systems addresses both process technologies and device modeling. Power dissipation in CMOS circuits, several practical circuit examples, and low-power techniques are discussed. Low-voltage issues for digital CMOS and BiCMOS circuits are emphasized. The book also provides an extensive study of advanced CMOS subsystem design. A low-power design methodology is presented with various power minimization techniques at the circuit, logic, architecture and algorithm levels. Features: * Low-voltage CMOS device modeling, technology files, design rules * Switching activity concept, low-power guidelines to engineering practice * Pass-transistor logic families * Power dissipation of I/O circuits * Multi- and low-VT CMOS logic, static power reduction circuit techniques * State of the art design of low-voltage BiCMOS and CMOS circuits * Low-power techniques in CMOS SRAMS and DRAMS * Low-power on-chip voltage down converter design * Numerous advanced CMOS subsystems (e.g. adders, multipliers, data path, memories, regular structures, phase-locked loops) with several design options trading power, delay and area * Low-power design methodology, power estimation techniques * Power reduction techniques at the logic, architecture and algorithm levels * More than 190 circuits explained at the transistor level.