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Matic Petrič
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Engineer |
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Germany |
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R&D Institution |
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Fraunhofer FOKUS |
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Matic Petrič completed his Bachelor’s and Master’s degrees in Theoretical Condensed Matter Physics at the University of Ljubljana. In 2019, during his internships at T-Labs, the research laboratories of Deutsche Telekom, he used quantum annealing to solve the time-dependent traffic flow problem. In 2023, he joined FOKUS, where he has been focusing on quantum algorithm development and quantum simulation.
As part of his work at FOKUS, Matic contributes to the further development of Qrisp, a high-level programming framework. Qrisp enables developers to write efficient and scalable quantum algorithms. A key distinguishing characteristic of Qrisp is offering programmers the chance to step away from direct manipulation of quantum circuits during software development, and instead introducing abstractions to make such implementations simpler, more streamlined, and closer to approaches in classical programming, as demonstrated in https://arxiv.org/abs/2402.10060 .
Feel free to reserve a meeting to talk about all of the above and/or some further surfing plans for the weekend. |
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Activity Area: |
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- | Computing technologies - Gate based Quantum Computer |
- | Simulation and software developments - Quantum Annealing |
- | Simulation and software developments - Companies? software and interfaces |
- | Simulation and software developments - High performance computing interfacing |
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Marketplace |
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| I am looking to spread the gospel of Qrisp in hopes of applying for a project and/or other form of partnerships utilizing Qrisp. |
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| A high-level, open-source, modular quantum programming framework called Eclipse Qrisp. This tool enables developers to write efficient and scalable quantum algorithms. A key distinguishing characteristic of Qrisp is offering programmers the chance to step away from direct manipulation of quantum circuits during software development, and instead introducing abstractions to make such implementations simpler, more streamlined, and closer to approaches in classical programming, as demonstrated in https://arxiv.org/abs/2402.10060 . |
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Participants: 52
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Meetings: 21
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