In this era of emerging technology, reversible logic is applied for circuit design. Due to the deep submicron and scaling, a number pitfalls are faced by CMOS technology. So lot constraints related stated with QCA The aim paper efficient conservative decoder design optimal metrics. It aims at furnishing proposed DC gate (DC stands comparator) help construction these mentioned circuits. Finally, employed construct [Formula: see text]-bit decoder. Moreover, new concept quantum equivalent...

Vedic Mathematics is the ancient methodology of Indian mathematics which has a unique computational technique for calculations based on 16 Sutras (Formulae). Novel Binary divider architecture high speed VLSI application using such presented in this paper. Propagation delay and dynamic power consumption circuitry were minimized significantly by removing unnecessary recursion through division methodology. The functionality these circuits was checked performance parameters like propagation...

The current monolithic integrated circuits revolution has been growing over past few decades, but the VLSI industry faces problems in domain of short channel effect, device density, and scaling along with power consumption. Hence research is a need to investigate alternative nanoelectronics technology such as Quantum-dot cellular automata (QCA). This paper presents novel reversible gate parity-preserving property realized using QCA technology. Results demonstrate that proposed more efficient...

Vedic algorithm is beneficial for the application in design of high-speed computing and hardware. This study presents a fast signed binary multiplication structure based on Nikhilam algorithm. The authors explored sutra unsigned decimal numbers to both operands. proposed multiplier leads significant gains speed by converting large operand small multiplication, along with addition. synthesised Xilinx ISE 14.4 software realised using different field programmable gate array devices. efficiency...

Abstract 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, significant module multiplexer, extended to n :1 framed with in control unit processor. The proposed multiplexer modules are by algorithm, perspective based. Further, quantum cost and gate count less ensure efficient computing framed. addition, QCA framework attempt synthesize optimal primitives conservative...

Logic computing around quantum-dot cellular automata (QCA) has emerging area of high-speed nanoelectronics.We implemented the synthesis reversible comparator circuit in QCA regime that employs minimum primitives results.This paper presents a universal gate (URQG) and its implementation technology.The efficiency proposed designing circuits is validated by implementing standard benchmark Boolean functions.We also synthesize n-bit comparator, where URQG existing Feynman gates are cascaded...

The main objectives of our paper were to establish a general formula find the cube and higher order roots real number using long division method. This is simultaneously applicable all cases free from flaws. proposed method implemented based on FPGA verify improvement in delay, area power consumption as compared reported Further, counterexamples are illustrated support present investigation.

Abstract: The main objective of this project is to develop and implement a bus monitor that will allow system-on-a-chip (SoC) systems employ the Advanced EXtensible Interface (AXI) protocol have their performance monitored. Modern SoC architectures commonly AXI protocol, which offers high-performance effective communication between master slave devices, connect components. monitor’s real-time collection analysis transactions allows for thorough system debugging. Understanding...

Abstract: Quantum-dot cellular automaton (QCA) represents a burgeoning and auspicious nanoelectronic computational framework for the forthcoming generation, where binary data is encoded through electronic charge arrangement within cell. This architec- ture, rooted in digital logic, leverages individual electrons arrays of quantum dots to execute operations. At core QCA circuits lies cell, serving as fundamental unit constructing basic gates logic devices architectures. An assessment diverse...

Computing the square of any large signed number using conventional methods is challenging. Therefore, parallel and partial product generation while squaring numbers complex time-consuming. This paper suggests a very scale integration design for an efficient architecture nonconventional method. The magnitude reduced to lower multiplication addition operation by Yavadunam algorithm. suggested method finds deficit from adjacent base perform operation. proposed coded Verilog hardware description...

В галузі проєктування схем спостерігається зростаюча тенденція до створення високошвидкісних із мінімальною кількістю помилок на нанометровому рівні. Таким чином, квантово-точкові клітинні автомати QCA (quantum-dot cellular automata) є парадигмою основі нанотехнологій, яка використовує квантову комірку з чотирма точками та двома електронами для обчислення логічних бітів, що можна порівняти архітектурою КМОН транзисторів. Ця стаття присвячена проектуванню компресора малим споживанням...