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Floating-Point Multiplication Using Neuromorphic Computing

Neuromorphic computing describes the use of VLSI systems to mimic neuro-biological architectures and is also looked at as a promising alternative to the traditional von Neumann architecture. Any new computing architecture would need a system that can perform floating-point arithmetic. In this paper, we describe a neuromorphic system that performs IEEE 754-compliant floating-point multiplication. The complex process of multiplication is divided into smaller sub-tasks performed by components Exponent Adder, Bias Subtractor, Mantissa Multiplier and Sign OF/UF. We study the effect of the number of neurons per bit on accuracy and bit error rate, and estimate the optimal number of neurons needed for each component.

preprint2020arXivOpen access
Karn DubeyUrja KothariShrisha Rao
Neural and Evolutionary ComputingEmerging Technologies
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Karn DubeyUrja KothariShrisha Rao

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