Azure adds quantum computing boost with Honeywell

November 02, 2020 //By Rich Pell
Honeywell announces quantum computing service
Honeywell has launched a commercial quantum computing service based around the System Model H1 available through Microsoft's Azure cloud platform

Honeywell's quantum computing service uses its  System Model H1 that is based around a quantum charge-coupled device1 (QCCD) trapped-ion technology. Available through Microsoft's Azure cloud service, this takes on Amazon's Braket service.

A key feature is that the quantum computing system is strategically designed to be rapidly upgraded throughout its lifetime. This version, says the company, initially offers 10 fully connected qubits, a proven quantum volume of 128 (the highest measured in the industry) and unique features such as mid-circuit measurement and qubit reuse, which were made possible through the company's heritage of precision controls expertise.

"This milestone captures our differentiated features of increased qubit counts, high fidelity gate operations, all-to-all connectivity, and long coherence times," says Honeywell Quantum Solutions President Tony Uttley. "As we continue to improve our system, these factors will increasingly allow customers to execute more complex algorithms."

System Model H1 is directly accessible to enterprises via a cloud application programming interface (API), as well as through Microsoft Azure Quantum, and alongside channel partners including Zapata Computing and Cambridge Quantum Computing. Access to System Model H1 is through a subscription.

"Honeywell's aggressive quantum computing roadmap reflects our commitment to achieving commercial scale for our quantum business," says Uttley. "Our subscription-based model provides enterprise customers with access to Honeywell's most advanced system available. Honeywell's unique methodology enables us to systematically and continuously 'upgrade' the H1 generation of systems through increased qubit count, even higher fidelities and unique feature modifications."

The computer's novel trapped-ion qubits can be uniformly generated with errors better understood compared with alternative qubit technologies that do not use individual atoms, says the company. These high-performance operations require deep experience across multiple disciplines, including atomic physics, optics, cryogenics, lasers, magnetics, ultra-high vacuum, and precision control systems - areas where the company has a long heritage of experience and expertise.

The company also disclosed the latest enterprise companies with access to its quantum computer, including DHL and Merck

Vous êtes certain ?

Si vous désactivez les cookies, vous ne pouvez plus naviguer sur le site.

Vous allez être rediriger vers Google.