Investigation of the classically controlled ion-motion interface in a multiplexed ion-trap quantum computer

Tzvetan S. Metodi; Nemanja Isailovic; Darshan D. Thaker; Mark Whitney; Yatish Patel; John Kubiatowicz; Frederic T. Chong

doi:10.1117/12.720047

25 April 2007 Investigation of the classically controlled ion-motion interface in a multiplexed ion-trap quantum computer

Tzvetan S. Metodi, Nemanja Isailovic, Darshan D. Thaker, Mark Whitney, Yatish Patel, John Kubiatowicz, Frederic T. Chong

Author Affiliations +

Proceedings Volume 6573, Quantum Information and Computation V; 657305 (2007) https://doi.org/10.1117/12.720047
Event: Defense and Security Symposium, 2007, Orlando, Florida, United States

Abstract

We design and implement a SIMD scheduler that returns the distribution of quantum operations when taking into account communication and layout constraints. We define the ion-motion path interface for trapped ion quantum computing architectures and analyze the design constraints involved in assembling the control circuitry necessary to implement this interface. Finally, we describe an Instruction Set Architecture (ISA) that we can use to optimize and provide a library of fault-tolerant building blocks for scalable quantum computation.

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Tzvetan S. Metodi, Nemanja Isailovic, Darshan D. Thaker, Mark Whitney, Yatish Patel, John Kubiatowicz, and Frederic T. Chong "Investigation of the classically controlled ion-motion interface in a multiplexed ion-trap quantum computer", Proc. SPIE 6573, Quantum Information and Computation V, 657305 (25 April 2007); https://doi.org/10.1117/12.720047

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