In low power circuit design, reversible computing has become one of the most efficient and
prominent techniques in recent years. In this paper, reversible Arithmetic and Logic Unit …

Gate diffusion input (GDI) method using a simple cell makes it possible to design low-power
logic gates with reduced chip area and less complexity. In this work, a novel design of single …

In the current scenario, power consumption, speed, size and heat dissipation are the huge
challenge in the semiconductor industries. When the size of the single computing element is …

Conventional Complementary metal oxide semiconductor circuits (CMOS) dissipate energy
in the form of bits of information. This dissipation of energy is in the form of power dissipation …

Reversible logic has captured significant attention in recent time as reducing power
consumption is one of the main concern of digital logic design. It consumes less power by …

Abstract Designing Arithmetic Logic Unit (ALU) is a combinational logic problem. As ALU
has a regular pattern, it can be broken into identical stages connected into cascade through …

Power dissipation is an important design criterion during the VLSI process flow. Reversible
logic is one of the promising fields having a wide range of applications starting from low …

This paper portrays the designing of Reversible Logic gates through the use of Quantum Dot
Cellular Automata (QCA) which is a nanotechnology concept and also a striking substitute …

This paper presents a new method for designing a reversible carry look-ahead adder
(RCLA) based on dynamic programming. In this method, we propose a faster technique for …

Master the subjects of reversible computing and DNA computing with this expert volume
Reversible and DNA Computing offers readers new ideas and technologies in the rapidly …