Systematic Construction of Finite State Automata Using VLSI Spiking Neurons

Neftci E, Binas J, Chicca E, Indiveri G, Douglas RJ (2012)
In: Biomimetic and Biohybrid Systems. Prescott T, Lepora N, Mura A, Verschure P (Eds);7375. Springer Berlin / Heidelberg: 382-383.

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Prescott, T. ; Lepora, N. ; Mura, A. ; Verschure, P.
Abstract
Spiking neural networks implemented using electronic Very Large Scale Integration (VLSI) circuits are promising information processing architectures for carrying out complex cognitive tasks in real-world applications. These circuits are developed using standard silicon technologies, and exploit the analog properties of transistors to emulate the phenomena underlying the computations and the communication in the brain. Neuromorphic multi-neuron systems can provide a low-power and scalable information processing technology, that is optimally suited for advanced and future VLSI processes[1]
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Neftci E, Binas J, Chicca E, Indiveri G, Douglas RJ. Systematic Construction of Finite State Automata Using VLSI Spiking Neurons. In: Prescott T, Lepora N, Mura A, Verschure P, eds. Biomimetic and Biohybrid Systems. Vol 7375. Springer Berlin / Heidelberg; 2012: 382-383.
Neftci, E., Binas, J., Chicca, E., Indiveri, G., & Douglas, R. J. (2012). Systematic Construction of Finite State Automata Using VLSI Spiking Neurons. In T. Prescott, N. Lepora, A. Mura, & P. Verschure (Eds.), Biomimetic and Biohybrid Systems (Vol. 7375, pp. 382-383). Springer Berlin / Heidelberg.
Neftci, E., Binas, J., Chicca, E., Indiveri, G., and Douglas, R. J. (2012). “Systematic Construction of Finite State Automata Using VLSI Spiking Neurons” in Biomimetic and Biohybrid Systems, ed. T. Prescott, N. Lepora, A. Mura, and P. Verschure, vol. 7375, (Springer Berlin / Heidelberg), 382-383.
Neftci, E., et al., 2012. Systematic Construction of Finite State Automata Using VLSI Spiking Neurons. In T. Prescott, et al., eds. Biomimetic and Biohybrid Systems. no.7375 Springer Berlin / Heidelberg, pp. 382-383.
E. Neftci, et al., “Systematic Construction of Finite State Automata Using VLSI Spiking Neurons”, Biomimetic and Biohybrid Systems, T. Prescott, et al., eds., vol. 7375, Springer Berlin / Heidelberg, 2012, pp.382-383.
Neftci, E., Binas, J., Chicca, E., Indiveri, G., Douglas, R.J.: Systematic Construction of Finite State Automata Using VLSI Spiking Neurons. In: Prescott, T., Lepora, N., Mura, A., and Verschure, P. (eds.) Biomimetic and Biohybrid Systems. 7375, p. 382-383. Springer Berlin / Heidelberg (2012).
Neftci, E., Binas, J., Chicca, Elisabetta, Indiveri, G., and Douglas, R. J. “Systematic Construction of Finite State Automata Using VLSI Spiking Neurons”. Biomimetic and Biohybrid Systems. Ed. T. Prescott, N. Lepora, A. Mura, and P. Verschure. Springer Berlin / Heidelberg, 2012.Vol. 7375. 382-383.
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