Reversible Logic Design Using QCA: Challenges and Future Aspects

2021 ◽  
pp. 31-59
Author(s):  
Rupali Singh ◽  
Devendra Kumar Sharma
Keyword(s):  
Reversible Logic ◽  
Logic Design

scholarly journals High functionality reversible arithmetic logic unit

2020 ◽  
Vol 10 (3) ◽  
pp. 2329
Author(s):  
Shaveta Thakral ◽  
Dipali Bansal
Keyword(s):  
Power Dissipation ◽  
Logic Gates ◽  
Reversible Logic ◽  
Logic Design ◽  
Quantum Cost ◽  
Verilog Hdl ◽  
Power Efficient ◽  
Reversible Logic Gates ◽  
Reversible Alu ◽  
Logic Unit

Energy loss is a big challenge in digital logic design primarily due to impending end of Moore’s Law. Increase in power dissipation not only affects portability but also overall life span of a device. Many applications cannot afford this loss. Therefore, future computing will rely on reversible logic for implementation of power efficient and compact circuits. Arithmetic and logic unit (ALU) is a fundamental component of all processors and designing it with reversible logic is tedious. The various ALU designs using reversible logic gates exist in literature but operations performed by them are limited. The main aim of this paper is to propose a new design of reversible ALU and enhance number of operations in it. This paper critically analyzes proposed ALU with existing designs and demonstrates increase in functionality with 56% reduction in gates, 17 % reduction in garbage lines, 92 % reduction in ancillary lines and 53 % reduction in quantum cost. The proposed ALU design is coded in Verilog HDL, synthesized and simulated using EDA (Electronic Design Automation) tool-Xilinx ISE design suit 14.2. RCViewer+ tool has been used to validate quantum cost of proposed design.

Reversible-Logic Design With Online Testability

2006 ◽  
Vol 55 (2) ◽  
pp. 406-414 ◽  
Author(s):  
D.P. Vasudevan ◽  
P.K. Lala ◽  
J. Di ◽  
J.P. Parkerson
Keyword(s):  
Reversible Logic ◽  
Logic Design

scholarly journals DESIGN METHODOLOGY OF BIDIRECTIONAL BARREL SHIFTER BASED ON REVERSIBLE LOGIC

2013 ◽  
pp. 50-55
Author(s):  
V. SRUJANA ◽  
G. BABU
Keyword(s):  
High Speed ◽  
Design Methodology ◽  
Quantum Computer ◽  
Critical Path ◽  
Computer Arithmetic ◽  
Reversible Logic ◽  
Logic Design ◽  
Quantum Cost ◽  
Single Cycle ◽  
Fredkin Gate

Data shifting is required in many key computer operations from address decoding to computer arithmetic. Full barrel shifters are often on the critical path, which has led most research to be directed toward speed optimizations. With the advent of quantum computer and reversible logic, design and implementation of all devices in this logic has received more attention. Rotating and data shifting are required in many operations such as logical and arithmetic operations, indexing and address decoding etc. Hence barrel shifters which can shift and rotate multiple bits in a single cycle have become a common choice of design for high speed applications. The design has been done using reversible fredkin and feynman gates. In the design the 2:1 mux can be implemented by fredkin gate which reduce quantum cost, number of ancilla bits and number of garbage outputs. The feynman gate will remove the fanout. By comparing the quantum cost, number of ancilla bits and number of garbage outputs the design is evaluated.

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