NMLSim 2.0: uma ferramenta robusta para simulação de circuitos NML pela equação de Landau-Lifshitz-Gilbert

Since CMOSisreachingitsphysicallimitsforminiaturization,newtechnologiesarose to findalliestothesilicon,allowingacontinuousdevelopmentofintegratedcircuits. Among thesetechnologies,NanomagneticLogic(NML)becomesapromisingonedue to itslowenergydissipationlevelandcapabilitytoperformlogicatroomtemperature...

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Detalles Bibliográficos
Autor: Lucas Augusto Lascasas Freitas
Tipo de recurso: tesis de maestría
Estado:Versión publicada
Fecha de publicación:2020
País:Brasil
Institución:Universidade Federal de Minas Gerais (UFMG)
Repositorio:Repositório Institucional da UFMG
Idioma:portugués
OAI Identifier:oai:repositorio.ufmg.br:1843/36257
Acceso en línea:http://hdl.handle.net/1843/36257
Access Level:acceso abierto
Palabra clave:NMLSim
Arquitetura de Computadores
Nanocomputação
Nanotecnologia
Simulador
LLG
LógicaNanomagnética
Computação - Teses.
Arquitetura de computadores - Teses.
Nanocomputação - Teses.
Nanotecnologia - Teses.
Lógica nanomagnética - Teses.
Descripción
Sumario:Since CMOSisreachingitsphysicallimitsforminiaturization,newtechnologiesarose to findalliestothesilicon,allowingacontinuousdevelopmentofintegratedcircuits. Among thesetechnologies,NanomagneticLogic(NML)becomesapromisingonedue to itslowenergydissipationlevelandcapabilitytoperformlogicatroomtemperature. This technologyworksthroughthemagnetostaticdipolarinteractionbetweenparticles in thenanometerscale.Nanomagnetshaveonlytwostablemagnetizationstatesdue to theirelongatedshape,thusallowingtherepresentationofBooleanvalues‘0’and ‘1’. SeveralstudiesonNMLdemonstratecircuitsintheoreticalandexperimentalways. However,thereisaneedforefficientsimulationtoolstoanalyzesignificantcomponents, whichrelyonstrongtheoreticalfundaments.ThisworkpresentsNMLSim2.0,arobust CAD andsimulationtoolforNMLthroughtheequationofLandau-Lifshitz-Gilbert.A comparison withOOMMF(ObjectOrientedMicroMagneticFramework)validatesthe softwareofthiswork,whichprovestobeatleastfourtimesmoreefficientthanstate of theart.Acomparativeanalysisverifiesthethermalnoisemethod,wherethetool reproducesresultsfromworksintheliterature.ThoughNMLSim2.0,amethodology for circuitcustomizationisdeveloped,allowingthedesignertouseshapeengineering, leading tothecorrectnessofthestructures.NMLSim2.0testsa4-bitsripplecarry adder usingthismethodology,showingthepotentialofthesoftwareforthesimulation of massivenanomagneticcircuits.