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Synthetic neuromorphic computing in living cells

Engineering and Technology

Synthetic neuromorphic computing in living cells

L. Rizik, L. Danial, et al.

Discover the groundbreaking perceptgene, a novel perceptron operating in the logarithmic domain, developed by researchers Luna Rizik, Loai Danial, Mouna Habib, Ron Weiss, and Ramez Daniel. This research showcases how perceptgene can facilitate intricate computations and programmable circuits in Escherichia coli, paving the way for advanced applications in synthetic biology and artificial intelligence.... show more
Abstract
Computational properties of neuronal networks have been applied to computing systems using simplified models comprising repeated connected nodes, e.g., perceptrons, with decision-making capabilities and flexible weighted links. Analogously to their revolutionary impact on computing, neuro-inspired models can transform synthetic gene circuit design in a manner that is reliable, efficient in resource utilization, and readily reconfigurable for different tasks. To this end, we introduce the perceptgene, a perceptron that computes in the logarithmic domain, which enables efficient implementation of artificial neural networks in Escherichia coli cells. We successfully modify perceptgene parameters to create devices that encode a minimum, maximum, and average of analog inputs. With these devices, we create multi-layer perceptgene circuits that compute a soft majority function, perform an analog-to-digital conversion, and implement a ternary switch. We also create a programmable perceptgene circuit whose computation can be modified from OR to AND logic using small molecule induction. Finally, we show that our approach enables circuit optimization via artificial intelligence algorithms.
Publisher
Nature Communications
Published On
Sep 24, 2022
Authors
Luna Rizik, Loai Danial, Mouna Habib, Ron Weiss, Ramez Daniel
DOI
https://doi.org/10.1038/s41467-022-33288-8
Tags
perceptgene
Escherichia coli
neural networks
analog computations
synthetic biology
AI algorithms

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