Quantum Computing Logic an example for Quantum Genomics and stuff

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Koen Bertels

Alazhar University, Egypt

: J Phys Res Appl

Abstract

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Even though still a lot of work needs to be done a the quantum physical level to produce really good qubits, it is also becoming urgent to start developing, developing and testing quantum algorithms for a wide variety of important scientific and industrial applications. One example on which we have already worked is based on genome sequencing, for which we have already developed a quantum version. In order to abstract away from the errors physical qubits still have, we are using perfect qubits. This approach is labelled the PISQ-methodology. We assume that qubits do not decohere and make correct quantum operations. We will show the results and even give a short demo of the algorithm.

Biography

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Koen Bertels’ research focuses on quantum computing and more specifically on the definition and implementation of a scalable quantum computer system for any scientific and operational field. He is currently building a new team to continue working on all layers of the full stack which has been my work from the first day working on quantum computing. He has now moved to the use of perfect qubits, which has no decoherence and no errors in the quantum gates. We call this the PISQ-methodology, where PISQ stands for Perfect (qubits) Intermediate Scale Quantum computing.