Nirupma Pathak scite author profile

As the semiconductor industry strives for downsizing and high speed, it is confronted with increasing scaling uncertainty as devices decrease to the nanoscale. Nano-magnetic logic (NML) is an alternative approach to synthesize the digital logic circuits with high-density and low-power consumption. We introduced an optimal design of content addressable memory (CAM) memory based on perpendicular nano-magnetic logic (pNML). The main aim of this implementation is to synthesize CAM memory in terms of latency and other design parameters. The implementation of the design is a multilayer approach, which is optimal. The synthesis approach and optimization are perfectly scalable across layout construction of designs. Here a new logic gate in pNML technology is designed which is mainly used for matching of two input numbers. According to insight, both memory unit and a matching unit in the pNML are introduced in the state-of-the-artwork for the first time to synthesize design in high-speed pNML application. MAGCAD tool is used for the design of all the proposed pNML layouts.

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Designing digital circuits using 3D nanomagnetic logic architectures

Bhoi

Pathak²,

Kumar³

et al. 2021

J Comput Electron

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A modular approach for testable conservative reversible multiplexer circuit for nano-electronic confine application

Pathak¹,

Kumar²,

Misra³

et al. 2019

Int Nano Lett

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Quantum technology has an attractive application nowadays for its minimizing the energy dissipation, which is a prominent part of any system-level design. In this article, the significant module of a multiplexer, an extended to n:1 is framed with prominent application in the control unit of the processor. The proposed multiplexer modules are framed by the algorithm, which is extended perspective based. Further, quantum cost and gate count are less to ensure the efficient quantum computing framed. In addition, the QCA computing framework is an attempt to synthesize the optimal primitives in conservative reversible multiplexer in nano-electronic confine application. The developed lemmas is framed to prove the optimal parameters in the reversible circuit. Compared with existing state-of-art-works, the proposed modular multiplexer, the gate count, quantum cost and unit delay are optimal.

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Nirupma Pathak

Optimization of Parameters of Adders and Barrel Shifter Based on Emerging QCA Technology

Concept and Algorithm of Quantum Computing During Pandemic Situation of COVID-19

Content Addressable Memory Design in 3D pNML for Energy-Aware Sustainable Computing

Designing digital circuits using 3D nanomagnetic logic architectures

A modular approach for testable conservative reversible multiplexer circuit for nano-electronic confine application

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