TL;DR
This paper proposes a quantum synapse circuit inspired by biological neural processes, aiming to enhance quantum sensing systems through highly parallel, controlled interfaces.
Contribution
It introduces a novel quantum synapse circuit design based on a simplified dynamic model, extending to bidirectional flows for improved sensing and sensor fusion.
Findings
Proposed a quantum synapse circuit design.
Extended model to bidirectional quantum flows.
Discussed potential role in sensing systems.
Abstract
As a step in the architectural design of a quantum processing or sensing system with control and signaling, an attempt is made at putting in parallel functional properties of the random flows between neurons through electrical synapses, and quantum particle flows inside a quantum processing system mimicking biological processes. Based on a simplified dynamic electrical synapse model, a quantum synapse circuit design is proposed. This is extended to the case of bidirectional flows through a synapse, highlighting the possible role of quantum synapse circuits as highly parallel controlled interfaces crucial in sensing and sensor fusion systems. A short status of the quantum simulation is provided.
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