We present in this thesis several algorithms and designs, and their IC implementation of low-voltage, low-power CMOS arithmetic circuits for energy efficient VLSI applications. The design methodologies span from circuit level, architecture level to algorithm level.MASTER OF ENGINEERING (EEE
This book focuses on increasing the energy-efficiency of electronic devices so that portable applica...
Increasing demand for portable electronics for computing and communication, as well as other applica...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...
Due to reasons of both portability and reliability of portable and non-portable electronic products,...
As battery operated devices prevail, power consumption in digital signal processor has emerged as an...
Motivated by emerging battery operated applications that demand intensive computation in portable en...
Abstract—Motivated by emerging battery-operated applica-tions that demand intensive computation in p...
This thesis proposes several designs for low-power low-voltage digital CMOS multipliers for two's co...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
This dissertation mainly studies the design of a 16-bit low-power multiplier. Based on the widesprea...
Abstract—In this paper, we present Energy efficient CMOS full adder, which is one of the basic build...
The emphasis in VLSI design has shifted from high speed to low power due to the proliferation of por...
The growing market of mobile, battery-powered electronic systems (e.g., cellular phones, personal di...
Analog IC Techniques lor Low-Voltage Low Power Electronics addresses many very important, but recent...
This book focuses on increasing the energy-efficiency of electronic devices so that portable applica...
Increasing demand for portable electronics for computing and communication, as well as other applica...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...
Due to reasons of both portability and reliability of portable and non-portable electronic products,...
As battery operated devices prevail, power consumption in digital signal processor has emerged as an...
Motivated by emerging battery operated applications that demand intensive computation in portable en...
Abstract—Motivated by emerging battery-operated applica-tions that demand intensive computation in p...
This thesis proposes several designs for low-power low-voltage digital CMOS multipliers for two's co...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
This dissertation mainly studies the design of a 16-bit low-power multiplier. Based on the widesprea...
Abstract—In this paper, we present Energy efficient CMOS full adder, which is one of the basic build...
The emphasis in VLSI design has shifted from high speed to low power due to the proliferation of por...
The growing market of mobile, battery-powered electronic systems (e.g., cellular phones, personal di...
Analog IC Techniques lor Low-Voltage Low Power Electronics addresses many very important, but recent...
This book focuses on increasing the energy-efficiency of electronic devices so that portable applica...
Increasing demand for portable electronics for computing and communication, as well as other applica...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...