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Design Of Fsm-based Function With Reduced Number Of States In Integral Stochastic Computing
Stochastic computing (SC) is a promising computing paradigm with low power hardware circuitry. This brief proposes a new finite state machine (FSM)-based function implementation in the SC designs. The new architecture allows multiple input stochastic bitstreams to improve the processing latency and precision loss. As compared to previous integral SC design, the proposed algorithm reduces the total number of states needed in the FSM, while maintaining good accuracy performance. The proposed FSM-based construction is also verified by the mathematical analysis. Synthesized results of hardware implementation reveal that the proposed method has competitive advantages over the previous counterparts in terms of area and power consumption. The presented techniques can be applied in a lot of activation function implementations of the deep neural networks.
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