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001     910158
005     20250129092402.0
024 7 _ |a 2128/32026
|2 Handle
037 _ _ |a FZJ-2022-03645
100 1 _ |a Schlösser, Mario
|0 P:(DE-Juel1)133936
|b 0
|e Corresponding author
|u fzj
111 2 _ |a LASER World of PHOTONICS 2022: World of QUANTUM!
|c München
|d 2022-04-26 - 2022-04-29
|w Germany
245 _ _ |a Advanced High‐Fidelity Qubit Control (Electronics|System)
260 _ _ |c 2022
336 7 _ |a Conference Paper
|0 33
|2 EndNote
336 7 _ |a INPROCEEDINGS
|2 BibTeX
336 7 _ |a conferenceObject
|2 DRIVER
336 7 _ |a CONFERENCE_POSTER
|2 ORCID
336 7 _ |a Output Types/Conference Poster
|2 DataCite
336 7 _ |a Poster
|b poster
|m poster
|0 PUB:(DE-HGF)24
|s 1665646496_22449
|2 PUB:(DE-HGF)
|x Invited
520 _ _ |a Quantum computers are promising to solve tasks that seem unsolvable with state-of-the-art computers. Because of the significant progress in qubit quality, error correction and scaling quantum computing is of increasing industrial interest. Many open scientific and engineering challenges need to be solved for the realization of a universal quantum computer. Within QSolid the Central Institute of Engineering, Electronics and Analytics - Electronic Systems (ZEA-2) at Forschungszentrum Jülich will be driving the development of an integrated quantum computing demonstrator system. This demonstrator is fully embedded in an HPC system, based on cryogenic superconducting quantum processors. The quantum processor is integrated in a fully developed hardware system with control, readout, and infrastructure down to specific optimized firmware and software. To solve the challenges of implementing such a complex system, it is essential to combine quantum expert knowledge with industrial systems engineering. The technical requirements are developed together with PGI-13 from Forschungszentrum Jülich. In parallel the system architecture of the control electronics for control pulse generation and data acquisition as well as low-level processing performed in real-time on an FPGA is defined together with the partner IPE from KIT. Quantum Control Systems from commercial vendors show significant limitations in terms of full control over hardware, firmware and software behavior as well as further performance improvements. While QSolid scales to Keystone- and Moonshot QPUs with up 30 Qubits, commercial control system solutions are typically not fully customized, providing a larger feature set than required. Therefore, tailored room temperature electronics will be implemented for the full-scale demonstrator to control the quantum processor. This will provide a flexible control over the behavior of the electronics, which is an essential prerequisite for the ultimate optimization of fidelities and a prerequisite for full parallelizability.
536 _ _ |a 5223 - Quantum-Computer Control Systems and Cryoelectronics (POF4-522)
|0 G:(DE-HGF)POF4-5223
|c POF4-522
|f POF IV
|x 0
856 4 _ |u https://q-solid.de/qsolid-posters/20220427_Poster_LASERWorld_Munich_T5_1_RT_Electronics.pdf
856 4 _ |u https://juser.fz-juelich.de/record/910158/files/Poster%20Quantum%20World.pdf
|y OpenAccess
909 C O |o oai:juser.fz-juelich.de:910158
|p openaire
|p open_access
|p VDB
|p driver
910 1 _ |a Forschungszentrum Jülich
|0 I:(DE-588b)5008462-8
|k FZJ
|b 0
|6 P:(DE-Juel1)133936
913 1 _ |a DE-HGF
|b Key Technologies
|l Natural, Artificial and Cognitive Information Processing
|1 G:(DE-HGF)POF4-520
|0 G:(DE-HGF)POF4-522
|3 G:(DE-HGF)POF4
|2 G:(DE-HGF)POF4-500
|4 G:(DE-HGF)POF
|v Quantum Computing
|9 G:(DE-HGF)POF4-5223
|x 0
914 1 _ |y 2022
915 _ _ |a OpenAccess
|0 StatID:(DE-HGF)0510
|2 StatID
920 _ _ |l yes
920 1 _ |0 I:(DE-Juel1)ZEA-2-20090406
|k ZEA-2
|l Zentralinstitut für Elektronik
|x 0
920 1 _ |0 I:(DE-Juel1)PGI-13-20210701
|k PGI-13
|l Quantum Computing
|x 1
980 1 _ |a FullTexts
980 _ _ |a poster
980 _ _ |a VDB
980 _ _ |a UNRESTRICTED
980 _ _ |a I:(DE-Juel1)ZEA-2-20090406
980 _ _ |a I:(DE-Juel1)PGI-13-20210701
981 _ _ |a I:(DE-Juel1)PGI-4-20110106

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