QC design: Unterschied zwischen den Versionen

Aus Wissenschaftsstadt Ulm
KKeine Bearbeitungszusammenfassung
KKeine Bearbeitungszusammenfassung
 
(3 dazwischenliegende Versionen desselben Benutzers werden nicht angezeigt)
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  | Homepage=https://www.qc.design/
  | Homepage=https://www.qc.design/
}} {{Vorlage:Thumb
}} {{Vorlage:Thumb
  | thumbfile=Tfu building.png
  | thumbfile=LM 9 TFU 8.jpg
  | Beschreibung=TFU-Gebäude
  | Beschreibung=TFU-Gebäude (Lise-Meitner-Straße 9)
}}QC Design is a quantum computing company that designs useful and scalable quantum computers. Our mission is to enable mankind to build the ultimate computing machines allowed by the laws of physics.
}}Established in 2021, QC Design’s mission is to enable mankind to build the ultimate computing machines allowed by the laws of physics.


Established in 2021, QC Design was co-founded by Ish Dhand, a quantum computing researcher and former architecture team lead at Xanadu, along with Martin B. Plenio, Alexander von Humboldt Professor and Director of the Institute for Theoretical Physics at University of Ulm: a pioneer in quantum technologies with experience in all significant hardware platforms. With a dedicated team of over 10 top experts, QC Design is working to unlock the full potential of quantum computers.
Our co-founders include Dr. Ish Dhand, a quantum computing researcher and former architecture team lead at Xanadu; Prof. Martin B. Plenio, Alexander von Humboldt Professor and Director of the Institute for Theoretical Physics at University of Ulm: a pioneer in quantum technologies with experience in all significant hardware platforms; and Dr. Shreya P. Kumar, among the world’s foremost experts in fault-tolerance design automation.  


'''The fastest path to fault-tolerance'''
With a dedicated team of over 15 top experts in fault-tolerance, quantum hardware and quantum software, we are well positioned to support your journey to building fault-tolerant quantum computers.


Quantum computers will one day drive scientific discoveries and help solve complex problems such as drug development, carbon capture and fertilizer manufacture. But these and other breakthrough applications of quantum computing need fault-tolerance, the ability to run millions of gates on quantum computers despite hardware imperfections.
'''Design Smarter, Reach Fault Tolerance Faster'''


Building a fault-tolerant quantum computer requires specific architectures that describe how to assemble imperfect building blocks into scalable and reliable quantum computers.
Quantum computing promises to revolutionize industries—from drug discovery to climate modeling—by tackling problems beyond the reach of classical computers. But this transformative power hinges on achieving fault tolerance, the ability to perform billions of quantum operations reliably despite inherent hardware imperfections.


QC design offers quantum computing manufacturers licenses to the most hardware-efficient fault-tolerant architectures, providing them with a clear roadmap for building reliable systems.
Imperfections in qubits and gates can inflate hardware costs and derail timelines. The key to overcoming these challenges lies in the right design: architectures that intelligently manage errors and maximize logical performance.


{{Vorlage:Quelle
{{Vorlage:Quelle
  | Quelle=https://www.qc.design/
  | Quelle=https://www.qc.design/
  | Datum=26.07.2023
  | Datum=15.10.2024
}}
}}


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[[Kategorie:IT]]
[[Kategorie:IT]]
[[Kategorie:Physik]]
[[Kategorie:Physik]]
[[Kategorie:Start-Ups]]

Aktuelle Version vom 15. Oktober 2024, 19:23 Uhr

QCDESIGN-Logo.png

Lise-Meitner-Straße 9
89081 Ulm

Osm-logo 256x256.png

https://www.qc.design/

TFU-Gebäude (Lise-Meitner-Straße 9)

Established in 2021, QC Design’s mission is to enable mankind to build the ultimate computing machines allowed by the laws of physics.

Our co-founders include Dr. Ish Dhand, a quantum computing researcher and former architecture team lead at Xanadu; Prof. Martin B. Plenio, Alexander von Humboldt Professor and Director of the Institute for Theoretical Physics at University of Ulm: a pioneer in quantum technologies with experience in all significant hardware platforms; and Dr. Shreya P. Kumar, among the world’s foremost experts in fault-tolerance design automation.

With a dedicated team of over 15 top experts in fault-tolerance, quantum hardware and quantum software, we are well positioned to support your journey to building fault-tolerant quantum computers.

Design Smarter, Reach Fault Tolerance Faster

Quantum computing promises to revolutionize industries—from drug discovery to climate modeling—by tackling problems beyond the reach of classical computers. But this transformative power hinges on achieving fault tolerance, the ability to perform billions of quantum operations reliably despite inherent hardware imperfections.

Imperfections in qubits and gates can inflate hardware costs and derail timelines. The key to overcoming these challenges lies in the right design: architectures that intelligently manage errors and maximize logical performance.


Quelle: https://www.qc.design/ (15.10.2024)