This paper discusses the motivation, opportunities, and problems associated with implementing digital logic at very low voltages, including the challenge of making use of the available real estate in 3D multichip modules, energy requirements of very large neural networks, energy optimization metrics and their impact on system design, modeling problems, circuit design constraints, possible fabrication process modifications to improve performance, and barriers to practical implementation
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
This dissertation is organized as a collection of papers, where each paper represents original resea...
This paper discusses the motivation, opportunities, and problems associated with implementing digita...
Over the past decade, low power, energy efficient VLSI design has been the focal point of active res...
This paper gives an overview of the research being conducted at Stanford University's Space, Telecom...
The current focus of NASA's space flight programs reflects a new thrust towards smaller, less costly...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Voltage scaling is one of the most effective and straightforward means for CMOS digital circuit’s en...
Increasing number of energy-limited applications continue to drive the demand for designing systems ...
Over the last decade, ultra-low-power (ULP) design of integrated circuits has become a vibrant resea...
Many IoT applications such as implantable biomedical devices, sensor nodes in the internet of things...
The advances of the complementary metal-oxide-semiconductor (CMOS) technology manufacturing and desi...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
This dissertation is organized as a collection of papers, where each paper represents original resea...
This paper discusses the motivation, opportunities, and problems associated with implementing digita...
Over the past decade, low power, energy efficient VLSI design has been the focal point of active res...
This paper gives an overview of the research being conducted at Stanford University's Space, Telecom...
The current focus of NASA's space flight programs reflects a new thrust towards smaller, less costly...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
An increasing amount of 'smart' electronic devices is filling our everyday lives and the environment...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Voltage scaling is one of the most effective and straightforward means for CMOS digital circuit’s en...
Increasing number of energy-limited applications continue to drive the demand for designing systems ...
Over the last decade, ultra-low-power (ULP) design of integrated circuits has become a vibrant resea...
Many IoT applications such as implantable biomedical devices, sensor nodes in the internet of things...
The advances of the complementary metal-oxide-semiconductor (CMOS) technology manufacturing and desi...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
This dissertation is organized as a collection of papers, where each paper represents original resea...