Modeling and Logic Synthesis of Multifunctional and Universal 3 × 3 Reversible Gate for Nanoscale Applications

Reversible logic is emerging as an important research area having its application in diverse fields such as low power CMOS design, digital signal processing, cryptography, quantum computing and optical information processing. This paper presents a new 4*4 parity preserving reversible logic gate, IG. The proposed parity preserving reversible gate can be used to synthesize any arbitrary Boolean function. It allows any fault that affects no more than a single signal readily detectable at the circuit's primary outputs. It is shown that a fault tolerant reversible full adder circuit can be realized using only two IGs. The proposed fault tolerant full adder (FTFA) is used to design other arithmetic logic circuits for which it is used as the fundamental building block. It has also been demonstrated that the proposed design offers less hardware complexity and is efficient in terms of gate count, garbage outputs and constant inputs than the existing counterparts. Keywords: Reversible Logic, Parity Preserving Reversible Gate, IG Gate, FTFA and Carry Skip Logic. doi: 10.3329/jbas.v32i2.2431 Journal of Bangladesh Academy of Sciences Vol.32(2) 2008 234-250

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Quaternary reversible logic synthesis based on GF(4) Shannon expansion

Advanced Computer Control ◽

10.2495/icacc130171 ◽

2014 ◽

Author(s):

Lu Cangang ◽

Guan Zhijin ◽

He Jinfeng

Keyword(s):

Logic Synthesis ◽

Reversible Logic ◽

Reversible Logic Synthesis

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Design and Implementation of Adiabatic Sequential and Combinational circuits using Reversible Gate

International Journal of Computer Sciences and Engineering ◽

10.26438/ijcse/v7i10.251255 ◽

2019 ◽

Vol 7 (10) ◽

pp. 251-255

Author(s):

Bhawna Yadav ◽

Tarun Varma

Keyword(s):

Combinational Circuits ◽

Design And Implementation ◽

Reversible Gate

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Algorithm of Optimizing Quantum Reversible Logic Synthesis

Journal of Software ◽

10.3724/sp.j.1001.2009.03407 ◽

2009 ◽

Vol 20 (9) ◽

pp. 2332-2343

Author(s):

Zhi-Qiang LI ◽

Wen-Qian LI ◽

Han-Wu CHEN

Keyword(s):

Logic Synthesis ◽

Reversible Logic ◽

Reversible Logic Synthesis

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Quantum Linear Logic Synthesis Algorithm Based on L-ESOP Reduction

Journal of Computer-Aided Design & Computer Graphics ◽

10.3724/sp.j.1089.2018.16567 ◽

2018 ◽

Vol 30 (8) ◽

pp. 1579

Author(s):

Lihua Wei ◽

Pengcheng Zhu ◽

Zhijin Guan

Keyword(s):

Linear Logic ◽

Logic Synthesis ◽

Synthesis Algorithm

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Incremental Methods for Formal Verification and Logic Synthesis

SSRN Electronic Journal ◽

10.2139/ssrn.3702088 ◽

1996 ◽

Author(s):

Gitanjali Swamy

Keyword(s):

Formal Verification ◽

Logic Synthesis ◽

Incremental Methods

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Thermal-aware Output Polarity Selection Based on And-Inverter Graph Manipulation

Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) ◽

10.2174/2352096511666180320120016 ◽

2019 ◽

Vol 12 (1) ◽

pp. 30-39 ◽

Cited By ~ 1

Author(s):

Apangshu Das ◽

Sambhu Nath Pradhan

Keyword(s):

Integrated Circuits ◽

Power Density ◽

Logic Synthesis ◽

Programmable Logic Arrays ◽

Power Switching ◽

Nsga Ii ◽

Multi Level ◽

Search Approach ◽

Efficient Power ◽

The Impact

Background: Output polarity of the sub-function is generally considered to reduce the area and power of a circuit at the two-level realization. Along with area and power, the power-density is also one of the significant parameter which needs to be consider, because power-density directly converges to circuit temperature. More than 50% of the modern day integrated circuits are damaged due to excessive overheating. Methods: This work demonstrates the impact of efficient power density based logic synthesis (in the form of suitable polarity selection of sub-function of Programmable Logic Arrays (PLAs) for its multilevel realization) for the reduction of temperature. Two-level PLA optimization using output polarity selection is considered first and compared with other existing techniques and then And-Invert Graphs (AIG) based multi-level realization has been considered to overcome the redundant solution generated in two-level synthesis. AIG nodes and associated power dissipation can be reduced by rewriting, refactoring and balancing technique. Reduction of nodes leads to the reduction of the area but on the contrary increases power and power density of the circuit. A meta-heuristic search approach i.e., Nondominated Sorting Genetic Algorithm-II (NSGA-II) is proposed to select the suitable output polarity of PLA sub-functions for its optimal realization. Results: Best power density based solution saves up to 8.29% power density compared to ‘espresso – dopo’ based solutions. Around 9.57% saving in area and 9.67% saving in power (switching activity) are obtained with respect to ‘espresso’ based solution using NSGA-II. Conclusion: Suitable output polarity realized circuit is converted into multi-level AIG structure and synthesized to overcome the redundant solution at the two-level circuit. It is observed that with the increase in power density, the temperature of a particular circuit is also increases.

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