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Evolução do poder de processamento

Computação de alto Desempenho. Evolução do poder de processamento. Evolução do poder de processamento. Since the advent of the computer in 1940, computing power needs have not ceased to increase . Today , great scientific fields such as

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Evolução do poder de processamento

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  1. Computação de alto Desempenho Evolução do poder de processamento

  2. Evolução do poder de processamento • Sincetheadventofthecomputer in 1940, computingpowerneeds • havenotceasedtoincrease. Today, greatscientificfieldssuch as • high-energyphysics, astrophysics, climatology, biologyand medical • imageryrelyon new mutualizationtechnologiesandworldwidesharing • ofcomputerpotentialacrossinternational grids tomeetthehuge • demand for data processing.

  3. Áreas com demandas de HPC • Everyday, researcherssubmithundreds • ofcomputationstolarge-scaledistributedinfrastructuressuch as • theEuropeanEnabling Grids for E-sciencE grid (EGEE) whichgathers more than 100,000 processors. • SoonEuropean Grid • Infrastructure (EGI) andTeraGridin the United Stateswill • eachbeabletoaggregate more thandoublethisnumberof processors.

  4. In thenear future many industrial domains, such as automobile, energyandtransport, which are increasinglyrelyingon digital simulation, willbeabletobenefitfromlargesharedreservoirsofcomputerresources. • This approach willshortlybeextendedto e-commerce, financeandtheleisureindustry.

  5. Clusters, Grids & Clouds • Over thepast 15 years, threekeytechnologieshavefollowedeach • other in response tothisgrowingcomputingpowerdemand. These • technologiesembodytherevolutionof network computing: • computer clusters, • computing grids • andcomputingclouds.

  6. Clusters • a computing cluster is a collectionof PCs interconnectedvia local-area, very-low-latency, high-speed networks;

  7. Grids • a computing grid istheaggregationof a verylargenumber • ofdistributedcomputingand storage resources, interconnected via • wide-area networks. There are computing grids dedicatedtointensive • computationsof data grids thatstore, processandgiveaccesstomassive • amountsof data in theorderofhundredsof gigabytes orevenseveral • terabytes;

  8. Clouds • – a computingcloudprovidesaccessservicestoresources via • the Internet. The underlyinginfrastructureistotallyconcealedfrom • users. The availableresources are generally virtual machineshoused • in resource centers, alsocalled data centers.

  9. Originally, it wasthespectacularadvances in transmissionand • communication technologiesthatenabledresearchersto imagine these • distributedarchitectures. Thesetechnologiesmadetheaggregation • andmutualizationofcomputerequipmentpossible, whichledtothe • rise in powerof global computing.

  10. The hardware and software of • interconnection networks, which are transparent in appearance, play a • complex role thatisdifficulttograspandnotoftenstudied. Yetthe • placeofthe network is central and its evolutionwillcertainlybe a key • toubiquitouscomputer systems to come.

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