SpiNNaker
http://dbpedia.org/resource/SpiNNaker an entity of type: Thing
SpiNNaker (Spiking Neural Network Architecture) è un'architettura per computer multi core progettata dal gruppo di ricerca di tecnologie per processori avanzati (APT) alla Scuola di Scienze informatiche dell'Università di Manchester condotto da , per simulare il cervello umano (Human Brain Project). Usa un milione di processori ARM in una piattaforma di calcolo altamente parallelizzata basata sulle reti neurali spike (reti neurali a impulso) SpiNNaker sarà usato come componente di una piattaforma di per il progetto Human Brain
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SpiNNaker (spiking neural network architecture) is a massively parallel, manycore supercomputer architecture designed by the Advanced Processor Technologies Research Group (APT) at the Department of Computer Science, University of Manchester. It is composed of 57,600 processing nodes, each with 18 ARM9 processors (specifically ARM968) and 128 MB of mobile DDR SDRAM, totalling 1,036,800 cores and over 7 TB of RAM. The computing platform is based on spiking neural networks, useful in simulating the human brain (see Human Brain Project).
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SpiNNaker (аббр. от Spiking Neural Network Architecture) — компьютерная архитектура, предназначенная для моделирования работы человеческого мозга. Разработана в Advanced Processor Technologies Research Group (APT) Университета Манчестера под руководством профессора . Основана на массово-параллельной архитектуре нейронного типа с использованием до 1 миллиона процессоров архитектуры ARM (пока используется 0,5 млн). Является инструментом нейроморфного моделирования мозга, одним из компонентов европейского проекта исследования человеческого мозга.
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SpiNNaker
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SpiNNaker
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SpiNNaker
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SpiNNaker: spiking neural network architecture
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SpiNNaker: spiking neural network architecture
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ARM968E-S
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The SpiNNaker 1 million core machine assembled at the University of Manchester
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2019
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SpiNNaker 2
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SpiNNaker (spiking neural network architecture) is a massively parallel, manycore supercomputer architecture designed by the Advanced Processor Technologies Research Group (APT) at the Department of Computer Science, University of Manchester. It is composed of 57,600 processing nodes, each with 18 ARM9 processors (specifically ARM968) and 128 MB of mobile DDR SDRAM, totalling 1,036,800 cores and over 7 TB of RAM. The computing platform is based on spiking neural networks, useful in simulating the human brain (see Human Brain Project). The completed design is housed in 10 19-inch racks, with each rack holding over 100,000 cores. The cards holding the chips are held in 5 blade enclosures, and each core emulates 1,000 neurons. In total, the goal is to simulate the behaviour of aggregates of up to a billion neurons in real time. This machine requires about 100 kW from a 240 V supply and an air-conditioned environment. SpiNNaker is being used as one component of the neuromorphic computing platform for the Human Brain Project. On 14 October 2018 the HBP announced that the million core milestone had been achieved. On 24 September 2019 HBP announced that a 8 million euro grant, that will fund construction of the second generation machine, (called SpiNNcloud) has been given to TU Dresden.
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SpiNNaker (Spiking Neural Network Architecture) è un'architettura per computer multi core progettata dal gruppo di ricerca di tecnologie per processori avanzati (APT) alla Scuola di Scienze informatiche dell'Università di Manchester condotto da , per simulare il cervello umano (Human Brain Project). Usa un milione di processori ARM in una piattaforma di calcolo altamente parallelizzata basata sulle reti neurali spike (reti neurali a impulso) SpiNNaker sarà usato come componente di una piattaforma di per il progetto Human Brain
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SpiNNaker (аббр. от Spiking Neural Network Architecture) — компьютерная архитектура, предназначенная для моделирования работы человеческого мозга. Разработана в Advanced Processor Technologies Research Group (APT) Университета Манчестера под руководством профессора . Основана на массово-параллельной архитектуре нейронного типа с использованием до 1 миллиона процессоров архитектуры ARM (пока используется 0,5 млн). Является инструментом нейроморфного моделирования мозга, одним из компонентов европейского проекта исследования человеческого мозга. Завершённый проект должен содержать 10 19-дюймовых стоек со 100 000 процессоров в каждой. Платы, на которых размещаются процессоры, организованы в 5 корзинах[прояснить] для ультракомпактных серверов (т. н. блейдов). Каждое ядро микропроцессора эмулирует 1000 нейронов.
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10099