K. Asanovic, J. Beck, J. Feldman, N. Morgan, and J. Wawrzynek. A supercomputer for neural computation. In Proc. Intl. Joint Conference on Neural Networks, pages 5--9, Orlando, Florida, June 1994.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....Sato et al. 198] describe a 64 neuron chip. A neurocomputer consisting of 512 neurons has been built and shown to be six times faster 37 than Hitachi 280 supercomputer. Connectionist network supercomputer (CNS1) uses a RISC CPU with a vector processor as the building block in a 128 PE CNS 1 [12]. Direct emulation up to a fixed size of nodes and virtual emulation beyond that size is supported in a digital neurocomputer based on a special chip supporting four neurons per chip in the design of Pechanek et al. 171] The system has been evaluated for NETTALK emulation and shown to be ....

K. Asanovic, J. Beck, J. Feldman, N. Morgan, and J. Wawrzynek. A supercomputer for neural computation. In Proc. Intl. Joint Conference on Neural Networks, pages 5--9, Orlando, Florida, June 1994.

....Sato et al. 34] describe a 64 neuron chip. A neurocomputer consisting of 512 neurons has been built and shown to be six times faster than Hitachi 280 supercomputer. Connectionist network supercomputer (CNS 1) uses a RISC CPU with a vector processor as the building block in a 128 PE CNS 1 [3]. Direct emulation of a network up to a maximum number of nodes and virtual emulation beyond that size is supported in a digital neurocomputer of Pechanek et al. 27] The system has been evaluated for NETTALK emulation and shown to be approximately 43 times faster than an implementation of ....

K. Asanovic, J. Beck, J. Feldman, N. Morgan, and J. Wawrzynek. A supercomputer for neural computation. In Proc. IEEE Intl. Joint Conference on Neural Networks, pages 5--9, Orlando, Florida, June 1994.

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