Design and synthesis of scalable quantum programs

We present a scalable, robust approach to creating quantum programs of arbitrary size and complexity. The approach is based on the true abstraction of the problem. The quantum program is expressed in terms of a high-level model together with constraints and objectives on the final program. Advanced...

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Hauptverfasser:	Goldfriend, Tomer, Reichental, Israel, Naveh, Amir, Gazit, Lior, Yoran, Nadav, Alon, Ravid, Ur, Shmuel, Lahav, Shahak, Cornfeld, Eyal, Elazari, Avi, Emanuel, Peleg, Harpaz, Dor, Michaeli, Tal, Erez, Nati, Preminger, Lior, Shapira, Roman, Garcell, Erik Michael, Samimi, Or, Kisch, Sara, Hallel, Gil, Kishony, Gilad, van Wingerden, Vincent, Rosenbloom, Nathaniel A, Opher, Ori, Vax, Matan, Smoler, Ariel, Danzig, Tamuz, Schirman, Eden, Sella, Guy, Cohen, Ron, Garfunkel, Roi, Cohn, Tali, Rosemarin, Hanan, Hass, Ron, Jankiewicz, Klem, Gharra, Karam, Roth, Ori, Azar, Barak, Asban, Shahaf, Linkov, Natalia, Segman, Dror, Sahar, Ohad, Davidson, Niv, Minerbi, Nir, Naveh, Yehuda
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Schlagworte:	Physics - Quantum Physics
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creator	Goldfriend, Tomer Reichental, Israel Naveh, Amir Gazit, Lior Yoran, Nadav Alon, Ravid Ur, Shmuel Lahav, Shahak Cornfeld, Eyal Elazari, Avi Emanuel, Peleg Harpaz, Dor Michaeli, Tal Erez, Nati Preminger, Lior Shapira, Roman Garcell, Erik Michael Samimi, Or Kisch, Sara Hallel, Gil Kishony, Gilad van Wingerden, Vincent Rosenbloom, Nathaniel A Opher, Ori Vax, Matan Smoler, Ariel Danzig, Tamuz Schirman, Eden Sella, Guy Cohen, Ron Garfunkel, Roi Cohn, Tali Rosemarin, Hanan Hass, Ron Jankiewicz, Klem Gharra, Karam Roth, Ori Azar, Barak Asban, Shahaf Linkov, Natalia Segman, Dror Sahar, Ohad Davidson, Niv Minerbi, Nir Naveh, Yehuda
description	We present a scalable, robust approach to creating quantum programs of arbitrary size and complexity. The approach is based on the true abstraction of the problem. The quantum program is expressed in terms of a high-level model together with constraints and objectives on the final program. Advanced synthesis algorithms transform the model into a low-level quantum program that meets the user's specification and is directed at a stipulated hardware. This separation of description from implementation is essential for scale. The technology adapts electronic design automation methods to quantum computing, finding feasible implementations in a virtually unlimited functional space. The results show clear superiority over the compilation and transpilation methods used today. We expect that this technological approach will take over and prevail as quantum software become more demanding, complex, and essential.
doi_str_mv	10.48550/arxiv.2412.07372
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title	Design and synthesis of scalable quantum programs
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