This paper proposes compact adders that are based on non-binary redundant number systems and single-electron (SE) devices. The adders use the number of single electrons to represent discrete multiple-valued logic state and manipulate single electrons to perform arithmetic operations. These adders have fast speed and are referred as fast adders. We develop a family of SE transfer circuits based on MOSFET-based SE turnstile. The fast adder circuit can be easily designed by directly mapping the graphical counter tree diagram (CTD) representation of the addition algorithm to SE devices and circuits. We propose two design approaches to implement fast adders using SE transfer circuits the threshold approach and the periodic approach. The periodic...
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Includes bibliographical references (pages [96]-97)This thesis presents a method to use complementar...
Arithmetic units and logic circuits are critical components of any VLSI system. Thus realizing effic...
This paper proposes novel fast addition and multiplication circuits that are based on non-binary red...
This paper proposes smart universal multiple-valued (MV) logic gates by transferring single electron...
In this dissertation we investigate the implementation of computer arithmetic operations with Single...
In this thesis we investigate the implementation of arithmetic operations in Single Electron Tunneli...
For the next generation VLSI circuits with high density, the most efficient device that can be used ...
Ternary logic has the lowest cost of complexity, here, we demonstrate a CMOS hardware implementation...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Single-Electron-Technology (SET) is one of the future technologies distinguished by its small and lo...
Abstract: A fast low-power 1-bit full adder circuit suitable for nano-scale CMOS implementation is p...
Arithmetic operations are widely used and play important role in various digital systems such as com...
Introduce new developments in single-electron logic technology and review a few clever applications ...
With the latter part of the last century in mind, it is not hard to imagine that in the foreseeable ...
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Includes bibliographical references (pages [96]-97)This thesis presents a method to use complementar...
Arithmetic units and logic circuits are critical components of any VLSI system. Thus realizing effic...
This paper proposes novel fast addition and multiplication circuits that are based on non-binary red...
This paper proposes smart universal multiple-valued (MV) logic gates by transferring single electron...
In this dissertation we investigate the implementation of computer arithmetic operations with Single...
In this thesis we investigate the implementation of arithmetic operations in Single Electron Tunneli...
For the next generation VLSI circuits with high density, the most efficient device that can be used ...
Ternary logic has the lowest cost of complexity, here, we demonstrate a CMOS hardware implementation...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Single-Electron-Technology (SET) is one of the future technologies distinguished by its small and lo...
Abstract: A fast low-power 1-bit full adder circuit suitable for nano-scale CMOS implementation is p...
Arithmetic operations are widely used and play important role in various digital systems such as com...
Introduce new developments in single-electron logic technology and review a few clever applications ...
With the latter part of the last century in mind, it is not hard to imagine that in the foreseeable ...
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Includes bibliographical references (pages [96]-97)This thesis presents a method to use complementar...
Arithmetic units and logic circuits are critical components of any VLSI system. Thus realizing effic...