In the FutureAfter GraduationShimpeiSatoAboardwithaXilinxFPGA(ZYBO).Weusethiskindofequipmenttorunexperimentsandevaluationsofdesignedsystem.Smartagriculture.WearechallengingtodevelopIoTsystemsforsmartagricultureusingFPGAs.(ImagefromthewebsiteoftheMinistryofAgriculture,ForestryandFisheries)Electronicdeviceswithbuilt-incomputerssuchassmartphonesandhomeappliancesmakeourlivesmoreconvenient.Suchelectronicdevicesarespeciallydesignedfortheirfunctionstosuitthesituationsinwhichtheyareused,andthisisknownascustomcomputing.WiththeimprovementoftechnologiessuchasAIandhardwaresuitableforcustomcomputing,electricdeviceswillmakethingsmoreconvenientintheareaofindustryandlife.However,tocreatesuchdevicesthatcanactuallybeused,itisnecessarytoclearvariousconstraintssuchaspowerconsumptionandreliabilityaswellascomputationalperformance.WearechallengingtobuildefficientIoTsystemsbyimprovinghardwaredesignandalgorithms.Customcomputingwillmakeiteasiertoperformcalculationsthatusedtorequiresuper-computers,makeitpossibleforanyonetodothingsthatusedtorequirespecializedpeople,makeitpossibletoautomatethingsthatusedtorequirehumanlabor.Inthefieldofmanufacturing,co-designofhardwareandsoftwareisessential.Havingknowledgeofhardwareisabigadvantageinthefield.Ontheotherhand,thewayofthinkingacquiredintheprocessofconductingresearchisanecessaryabilityinallfields.AssistantProfessorHereceivedtheD.E.degreesinengineeringfromTokyoInstituteofTechnology,Tokyo,Japan,in2014.Hehasbeeninhiscurrentpositionsince2021,afterworkingatJAISTandTokyoTech.Hehasbeenengagedinresearchinvariousfieldssuchascomputerarchitecture,high-performancecomputing,anddigitalcircuitdesign.Make the world more convenient with custom computingElectrical& Computer EngineeringElectrical& ComputerEngineeringSiC/GaNpowerdeviceswithverylowon-resistanceandveryhighspeedswitchingenabletorealizecompact,lightweightandhighly-efficientpowersupplysystemsbyincreasingoperationfrequency.Forfurtherprogress,theinnovativelowlossmagneticmaterialsanddevicesmustbedeveloped.Asanapproachaimedtorealizeade-carbonsociety,effortsforefficientuseofelectricenergyarebeingpromoted.Thepowerelectronicssystemsarewidelyusedinthehugepowergrid.However,themagneticdevicesarecurrentlyaseriousbottleneckinrealizingcompact/lightweight/highly-efficientSiC/GaNbasedpowerelectronicssystems.Inourlaboratory(AssociateProfessorMakotoSoneharaandI),R&DsontheinnovativelowlossmagneticmaterialsanddevicesforhighfrequencypowerconversionarenowbeinginprogressToward carbon-free society!also contribution to Aerospace Systems!In the FutureAfter GraduationWiththespreadofAIandIoTthroughouttheworld,itispredictedthathugeamountsofelectricenergywillberequired.Asanapproachtomaintainasustainablesociety,novelpowerelectronicstechnologyforhighly-efficientutilizationofelectricenergywillbecomeincreasinglyimportantinthefuture.Themagneticmaterial/devicedevelopmentandtheirapplicationtovariouspowerelectronicssystemsarepromotedinourlaboratory,andthelaboratorystudentscanacquirediverseskills.Graduatesareactiveinawidevarietyoffields,includingelectronicsmanufacturers,electroniccomponentmanufacturers,electricpowercompany,railwaycompany,andresearchinstitutes.Professor1989; Completed Doctoral program at graduate school of Science and Technology, Chiba University1989-1996;TOSHIBA Corp. 1996;Associate Professor,2005;ProfessorResearch Field ; Magnetic materials/devices/sensors and their applicationsToshiro SatoDevelopmentofembed-dedmagneticdevicesintoorganicinterposer(Photo-lithographyprocessat1st.floorofUFO-agano)Prof.SatoisalsonowengagingintheR&DsonnovelpowermagneticstechnologyforAerospaceSystems
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