Journal ArticleDOI
Constructing Online Testable Circuits Using Reversible Logic
S.N. Mahammad,K. Veezhinathan +1 more
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TLDR
A novel universal reversible logic gate (URG) and a set of basic sequential elements that could be used for building reversible sequential circuits, with 25% less garbage than the best reported in the literature are proposed.Abstract:
With the advent of nanometer technology, circuits are more prone to transient faults that can occur during its operation. Of the different types of transient faults reported in the literature, the single-event upset (SEU) is prominent. Traditional techniques such as triple-modular redundancy (TMR) consume large area and power. Reversible logic has been gaining interest in the recent past due to its less heat dissipation characteristics. This paper proposes the following: 1) a novel universal reversible logic gate (URG) and a set of basic sequential elements that could be used for building reversible sequential circuits, with 25% less garbage than the best reported in the literature; (2) a reversible gate that can mimic the functionality of a lookup table (LUT) that can be used to construct a reversible field-programmable gate array (FPGA); and (3) automatic conversion of any given reversible circuit into an online testable circuit that can detect online any single-bit errors, including soft errors in the logic blocks, using theoretically proved minimum garbage, which is significantly lesser than the best reported in the literature.read more
Citations
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Journal ArticleDOI
Design of Testable Reversible Sequential Circuits
TL;DR: The proposed sequential circuits based on conservative logic gates outperform the sequential circuits implemented in classical gates in terms of testability and a new conservative logic gate called multiplexer conservative QCA gate (MX-cqca) that is not reversible in nature but has similar properties as the Fredkin gate of working as 2:1 severalxer is presented.
Journal ArticleDOI
Static and Dynamic Obfuscations of Scan Data Against Scan-Based Side-Channel Attacks
TL;DR: To better resist signature attacks on scan testable cryptochip, it is proposed to fortify the key and lock method by the static obfuscation of scan data, which is unconditionally resilient against TMOSA and all other known scan-based attacks while preserving the merits of high testability and low area overhead compared with other countermeasures.
Journal ArticleDOI
Nanocommunication network design using QCA reversible crossbar switch
TL;DR: The design of reversible 2 × 2 crossbar switch and its realization in Quantum-Dot Cellular Automata (QCA) for the first time is dealt with.
Journal ArticleDOI
A Genetic Algorithm-Based Heuristic Method for Test Set Generation in Reversible Circuits
TL;DR: Two approaches, one involving random search and the other, involving directed search have been proposed and validated on benchmark circuits considering missing-gate fault (complete and partial), bridging fault and stuck-at fault with optimum coverage and reduced computational efforts.
Proceedings ArticleDOI
A Low Power Fault Tolerant Reversible Decoder Using MOS Transistors
TL;DR: Results show that the proposed design of the n-to-2n decoder is much better in terms of quantum cost, delay, hardware complexity and has significantly better scalability than the existing approach.
References
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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.
Book
Fundamentals of Digital Logic with VHDL Design
TL;DR: Basic concepts in digital logic design are introduced using simple logic circuits, which are designed by using both manual techniques and modern CAD-tool-based methods.
Journal ArticleDOI
Notes on the history of reversible computation
TL;DR: The history of the thermodynamics of information processing, beginning with the paradox of Maxwelrs demon, is reviewed, continuing through the efforts of Szilard, Brillouin, and others to demonstrate a thermodynamic cost of information acquisition, and a brief survey of recent work on quantum reversible computation is surveyed.
Journal ArticleDOI
Minimal energy dissipation in logic
R. W. Keyes,Rolf Landauer +1 more
TL;DR: In this article, it was shown that any required reliability can be obtained with this device, without increased energy expenditure, but at the expense of an increasing time per computational step, and that the system has dissipations larger than but of the same order of magnitude as, the original minimal quantities.
Journal ArticleDOI
Reversible cascades with minimal garbage
Dmitri Maslov,Gerhard W. Dueck +1 more
TL;DR: It is shown that any Boolean function can be realized as a reversible network in terms of this new approach by giving the theoretical method of finding such a network.