Aggressive voltage scaling to 1V and below through technology, circuit, and architecture optimization has been proven to be the key to ultra low-power design. The key technology trends for low-voltage operation are pre-sented including low-threshold devices, multiple-thresh-old devices, and SOI and bulk CMOS based variable threshold devices. The requirements on CAD tools that allow designers to choose and optimize various technol-ogy, circuit, and system parameters are also discussed. 1
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
This paper focuses on system-level design methods for low energy consumption in architectures emplo...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
One of the most effective ways to design low power circuits is to use low power supply voltages. If ...
Motivated by emerging battery operated applications that demand intensive computation in portable en...
Low power has emerged as a principal theme in today’s electronics industry. The need for low power h...
Abstract—Motivated by emerging battery-operated applica-tions that demand intensive computation in p...
This book focuses on increasing the energy-efficiency of electronic devices so that portable applica...
Over the last years, the Internet of Things (IoT), wireless sensor networks and the emergence of oth...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
The emerging nanoscale technologies inherently offer transistors working with low voltage levels and...
Ultra-low voltage digital circuit design is an active research area, especially for portable applica...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
This paper discusses the motivation, opportunities, and problems associated with implementing digita...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
This paper focuses on system-level design methods for low energy consumption in architectures emplo...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
One of the most effective ways to design low power circuits is to use low power supply voltages. If ...
Motivated by emerging battery operated applications that demand intensive computation in portable en...
Low power has emerged as a principal theme in today’s electronics industry. The need for low power h...
Abstract—Motivated by emerging battery-operated applica-tions that demand intensive computation in p...
This book focuses on increasing the energy-efficiency of electronic devices so that portable applica...
Over the last years, the Internet of Things (IoT), wireless sensor networks and the emergence of oth...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
The emerging nanoscale technologies inherently offer transistors working with low voltage levels and...
Ultra-low voltage digital circuit design is an active research area, especially for portable applica...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
This paper discusses the motivation, opportunities, and problems associated with implementing digita...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
This paper focuses on system-level design methods for low energy consumption in architectures emplo...