Control Paradigms for Quantum Engineering
Sonia Schirmer, Gajendran Kandasamy, Simon Devitt
TL;DR
This paper reviews various control paradigms for quantum systems, discussing their applications, fault-tolerance considerations, and strategies for simplifying quantum architecture with minimal actuators.
Contribution
It provides a comprehensive overview of quantum control paradigms, highlighting new approaches for fault-tolerance and architecture simplification in quantum engineering.
Findings
Optimal control enhances fault-tolerance in quantum processes
Minimal switch actuators can simplify quantum system architecture
Different control paradigms have specific applications in quantum engineering
Abstract
We give an overview of different paradigms for control of quantum systems and their applications, illustrated with specific examples. We further discuss the implications of fault-tolerance requirements for quantum process engineering using optimal control, and explore the possibilities for architecture simplification and effective control using a minimum number of simple switch actuators.
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