Designing the optimal bit: Balancing energetic cost, speed and reliability

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Abstract

We consider the challenge of operating a reliable bit that can be rapidly erased. We find that both erasing and reliability times are non-monotonic in the underlying friction, leading to a trade-off between erasing speed and bit reliability. Fast erasure is possible at the expense of low reliability at moderate friction, and high reliability comes at the expense of slow erasure in the underdamped and overdamped limits. Within a given class of bit parameters and control strategies, we define 'optimal' designs of bits that meet the desired reliability and erasing time requirements with the lowest operational work cost. We find that optimal designs always saturate the bound on the erasing time requirement, but can exceed the required reliability time if critically damped. The non-trivial geometry of the reliability and erasing time scales allows us to exclude large regions of parameter space as suboptimal. We find that optimal designs are either critically damped or close to critical damping under the erasing procedure.

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APA

Deshpande, A., Gopalkrishnan, M., Ouldridge, T. E., & Jones, N. S. (2017). Designing the optimal bit: Balancing energetic cost, speed and reliability. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 473(2204). https://doi.org/10.1098/rspa.2017.0117

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