CryoCMOS ASICs for controlling transmon qubits
ORAL
Abstract
CryoCMOS control electronics have the potential to reduce system costs, minimize complexity and improve performance of quantum gates. Historically, commercially available control electronics have been used to support quantum processor research and development; however, these electronics tend to be general purpose, power hungry and over-engineered for fault tolerant operation of a specific quantum processor architecture. Application specific integrated circuits (ASICs) that are designed uniquely to a quantum processor are a better suited to satisfy performance requirements and scaling demands of fault tolerant quantum computation of a specific QPU implementation. In this presentation we discuss a cryoCMOS ASIC designed for controlling transmon qubits, along with qubit measurements including noise characterization as measured by dephasing and two-qubit randomized benchmarking.
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Presenters
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Devin L Underwood
IBM Quantum
Authors
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Devin L Underwood
IBM Quantum
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Ken Inoue
IBM Quantum
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John Timmerwilke
IBM Quantum
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Daniil Frolov
IBM Quantum
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David Frank
IBM Quantum
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Arian Noori
IBM Quantum
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Subhajit Ray
IBM Quantum
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Bodhisatwa Sadhu
IBM Quantum
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Raphael P Robertazzi
IBM Quantum
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Sudipto Chakraborty
IBM Quantum
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John Bulzacchelli
IBM Quantum
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Scott Willemborg
IBM Quantum
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Scott Lekuch
IBM Quantum
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Daniel J Friedman
IBM Quantum