Proceedings ArticleDOI
Synthesis of Reversible Universal Logic around QCA with Online Testability
Bibhash Sen,Divyam Saran,Mousumi Saha,Biplab K. Sikdar +3 more
- pp 236-241
TLDR
This work proposes a new approach to synthesize the reversible universal QCA logic gate (RUG) with the target to reduce the garbage outputs as well as the number of logic gates to realise a design simultaneously ensuring the defect tolerance.Abstract:
Quantum-dot Cellular Automata (QCA) can be a viable technology for CMPs (chip multi-processors) with thousands of processors. The QCA based reversible logic promises energy efficient design of the digital circuits. However, the requirement of excessive logic gates as well as its high defect rate limit the performance of a QCA based design. This work proposes a new approach to synthesize the reversible universal QCA logic gate (RUG) with the target to reduce the garbage outputs as well as the number of logic gates to realise a design simultaneously ensuring the defect tolerance. A concurrent error detection methodology is introduced to support the online testing of a circuit designed around the RUG. The experimental designs establish that the RUG can ensure an energy saving cost effective realization of testable QCA circuits.read more
Citations
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Journal ArticleDOI
Towards ultra-efficient QCA reversible circuits
Amir Mokhtar Chabi,Arman Roohi,Hossein Khademolhosseini,Shadi Sheikhfaal,Shaahin Angizi,Keivan Navi,Ronald F. DeMara +6 more
TL;DR: The proposed reversible gate has a superb performance in implementing the QCA standard benchmark combinational functions in terms of area, complexity, power consumption, and cost function in comparison to the other reversible gates.
Journal ArticleDOI
A Parity-Preserving Reversible QCA Gate with Self-Checking Cascadable Resiliency
TL;DR: A novel Parity-Preserving Reversible Gate (PPRG) is developed using Quantum-dot Cellular Automata (QCA) technology, which enables rich fault-tolerance features, as well as reversibility attributes sought for energy-neutral computation.
Journal ArticleDOI
Efficient design of reversible alu in quantum-dot cellular automata
TL;DR: The proposed reversible ALU requires only 68 MVs (Majority Voter), which is 35% more area efficient than the existing work, and is simulated using QCADesigner to verify the proposed designs which can be also embedded with ultra low power complex digital system.
Journal ArticleDOI
Modular Design of Ultra-Efficient Reversible Full Adder-Subtractor in QCA with Power Dissipation Analysis
Firdous Ahmad,Suhaib Ahmed,Suhaib Ahmed,Vipan Kakkar,G. Mohiuddin Bhat,Ali Newaz Bahar,Shahjahan Wani +6 more
TL;DR: Two new reversible logic gates viz., 3 × 3-New Reversible Gate (3 ×3-NRG), and Modified Feynman Gate (MFG) are presented and it is observed that the proposed RFAS design dissipates less energy compared to the traditional approaches.
Journal ArticleDOI
Design and simulation of a reversible ALU by using QCA cells with the aim of improving evaluation parameters
TL;DR: A reversible ALU is proposed along with its implementation and simulation QCA cells that benefit from a new reversible gate that is called NHG (Naghibzadeh–Hoshmand Gate), which shows acceptable improvement in measures used to evaluate reversible circuits and circuits implemented withQCA cells when compared with previous works.
References
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TL;DR: The new edition of Breuer-Friedman's Diagnosis and Reliable Design ofDigital Systems offers comprehensive and state-ofthe-art treatment of both testing and testable design.
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Edward Fredkin,Tommaso Toffoli +1 more
TL;DR: Conservative logic shows that it is ideally possible to build sequential circuits with zero internal power dissipation and proves that universal computing capabilities are compatible with the reversibility and conservation constraints.
Proceedings Article
Reversible Computing
TL;DR: According to a physical interpretation, the central result of this paper is that i¢ is ideally possible to build sequential c/rcuits with zero internal power dissipation.
Journal ArticleDOI
A device architecture for computing with quantum dots
Craig S. Lent,P.D. Tougaw +1 more
TL;DR: A new adiabatic switching paradigm is developed which permits clocked control, eliminates metastability problems, and enables a pipelined architecture.