SCALINQ Launches Large-Scale Packaging Solution That Can Control Quantum Devices With Hundreds of Qubits

LINQER
LINQER
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Insider Brief

  • SCALINQ announces the release of a large-scale packaging solution capable of controlling quantum devices with hundreds of qubits.
  • The company reports the solution is the biggest commercially available of its kind.
  • The system was developed in close cooperation with IQM.

PRESS RELEASE — SCALINQ, a rapidly growing provider of quantum computing hardware, proudly announces the release of LINQER600: a large-scale packaging solution capable of controlling quantum devices with hundreds of qubits.

This solution is the biggest commercially available of its kind and marks a paradigm shift in the field. Systems of this scale have previously only existed behind the closed doors of major computing companies. With this launch, all universities and companies alike, can now easily get one step closer to building large-scale quantum computing systems.

Developed in collaboration with the esteemed partner IQM, the LINQER600 has undergone extensive testing to demonstrate its unrivaled functionality with Radiance, a 150-qubit chip. The results of this will be released at a later time. This successful project included both packaging and high-density filters, underscoring SCALINQ’s commitment to driving collaborative innovation and solving the hardware bottlenecks for scaling up quantum computing. This showcases the fast developments of the industry and opens up new applications for this novel technology already today.

“This is one of the many exciting projects that I am particularly proud of finally sharing with the community. It truly underscores our engineers’ and researchers’ restless efforts and endless creativity to drive collaborative innovation and solve the hardware bottlenecks for scaling up quantum computing. It also showcases the industry’s rapid development and ever-growing needs for collaborative R&D.” — Zaid Saeed, CEO, SCALINQ.

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The LINQER product series, first launched in 2022, has helped researchers around the globe with their experiments. The key features include:

– A scalable design: Offered in several variants ranging from 8 to 600 lines
– State-of-the-art performance: Proven with different qubit chips, measuring T1>100us and single qubit gate fidelity >99.9%
– Quick sample exchange: The patented connector module allows you to exchange samples in a matter of minutes, regardless of the number of connectors.
– Host multiple chips at once: With its modular approach, you can tailor-make PCBs to fit your needs of hosting one or several chips in one holder, and of different sizes.
– Fully non-magnetic: Carefully designed and rigorously tested in quality assurance processes

For more market insights, check out our latest quantum computing news here.

Matt Swayne

With a several-decades long background in journalism and communications, Matt Swayne has worked as a science communicator for an R1 university for more than 12 years, specializing in translating high tech and deep tech for the general audience. He has served as a writer, editor and analyst at The Quantum Insider since its inception. In addition to his service as a science communicator, Matt also develops courses to improve the media and communications skills of scientists and has taught courses. [email protected]

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