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Exploring Analog Emulation of Quantum Computation Using Quadrature Modulation

Authors:
Kyle M. Sundqvist
Isaac Grubb
Kristopher McBrian
Rohit De
Jeremy Juybari
Raymond Moberly

Keywords: LC oscillators, qubit, emulation, innovation

Abstract:
With the capability to emulate quantum computing, our benefactors will be able to explore the behaviors of the same algorithms being tested in leading research centers, and develop new algorithms to approach new problems. A driven pair of coupled oscillators produce normal modes that emulate the behavior of a two-level system. A system of coupled LC oscillators produces a general Hilbert space achievable within classical systems. While operating at a fraction of the true quantum speed, and perhaps trailing in the number to IBM’s and Google’s ≥ 50, we will achieve exploration of the design space, utilizing a hybrid electronics solution, operating at room temperatures. In the collaborative effort, SDSU furthers the innovation of oscillator models for the qubit emulation, while Faster Logic designs an architecture to provide a coprocessor as a product.

Pages: 1 to 5

Copyright: Copyright (c) IARIA, 2020

Publication date: November 21, 2020

Published in: conference

ISSN: 2308-3530

ISBN: 978-1-61208-824-2

Location: Valencia, Spain

Dates: from November 21, 2020 to November 25, 2020