ĢƵ

Cybertrust Japan Integrates Quantum-Computing-Hardened Private Keys from ĢƵ into New IoT Authentication Platform

Japan’s first commercial certificate authority incorporating ĢƵ's Quantum Origin solution to strengthen security protections for IoT devices against current and future threats

January 31, 2023

Cambridge, UK and Broomfield, Colorado, January 31st, 2023 — ĢƵ, the world’s leading integrated quantum computing company, today announced that Japan Co., Ltd., Japan’s leading certificate authority, has integrated its Quantum Origin quantum-computing-hardened private keys into a new certificate issuance and distribution platform for IoT devices to ensure secure communications now and into the future. 

Cybertrust Japan’s new authentication infrastructure for high-speed, high-volume certificate issuance and distribution for large volumes of IoT devices includes the NIST-selected post-quantum cryptography (PQC) algorithms. The certificate authority is further protecting devices from current and advancing threats by incorporating ĢƵ’s Quantum Origin solution, the only cryptographic solution that leverages the power of quantum computers to generate quantum-computing-hardened keys.

“Integrating Quantum Origin assures our customers that they can build innovative IoT-based solutions on a platform they can trust to deliver speed and higher security, including post-quantum algorithms support. As a result, customers and partners can use and sell our certification services securely for the long term,” said Yasutoshi Magara, President & CEO of Cybertrust Japan. “We would like to promote activities aimed at realizing a safe and secure society together with ĢƵ.”

IoT devices typically use certificates to authenticate their connection to other devices or networks to prove that they are trusted devices. The challenge when providing and managing certificates across these devices is complex because of the volume of devices trying to connect to networks and the need to provide fast access to data. Security measures need to be robust while also enabling real-time communications. 

“Cybertrust Japan and ĢƵ have shown that an advanced quantum-computing-based solution like Quantum Origin can be seamlessly integrated into authentication infrastructure to strengthen key and certificate generation. Cybertrust Japan is the first certification provider in the world to support quantum-computing-hardened keys using Quantum Origin,” said Duncan Jones, Head of Cybersecurity at ĢƵ. “As the use of IoT devices grows, companies must ensure that their devices have state-of-the-art protection against increasingly sophisticated cyberattacks that threaten their most valuable assets and data. Quantum Origin is the world's only solution that provides encryption keys generated by quantum computers giving customers an unrivaled ability to strengthen existing security measures and reduce their risk of exposure from advanced encryption-based attacks.”

Cybertrust Japan’s Secure IoT Platform protects end devices through the entire product lifecycle from semiconductor design to the implementation of the devices to the ultimate disposal of the devices. The Secure IoT Platform creates security certificates for the manufacturing process to protect the hardware, to make the manufacturing process traceable and to provide a long-term defect warranty. The product also includes a management platform for the devices to allow secure OS and software updates in addition to securing the data created and transmitted by the devices.

About Cybertrust Japan

As Japan's first commercial certificate authority, Cybertrust Japan provides authentication and security services as well as Linux/OSS services for on-premise, cloud and embedded domains by applying MIRACLE LINUX kernel technology and open source software (OSS) knowledge. Combining these technologies and deep security expertise, the company also promotes services that support the reliability of customer services by proving the correctness of “people, tangible things and intangible things” for IoT and other cutting-edge fields. Cybertrust Japan is committed to realizing a safe and secure society with highly specialized and neutral technologies for IT infrastructure.

About ĢƵ

ĢƵ is the world’s largest integrated quantum computing company, formed by the combination of Honeywell Quantum Solutions’ world leading hardware and Cambridge Quantum’s class leading middleware and applications. Science led and enterprise driven, ĢƵ accelerates quantum computing and the development of applications across chemistry, cybersecurity, finance, and optimization. Its focus is to create scalable and commercial quantum solutions to solve the world’s most pressing problems, in fields such as energy, logistics, climate change, and health. The company employs over 480 people including 350 scientists, at nine sites in the US, Europe, and Japan.

About ĢƵ

ĢƵ, the world’s largest integrated quantum company, pioneers powerful quantum computers and advanced software solutions. ĢƵ’s technology drives breakthroughs in materials discovery, cybersecurity, and next-gen quantum AI. With over 500 employees, including 370+ scientists and engineers, ĢƵ leads the quantum computing revolution across continents. 

July 14, 2026
ĢƵ, Rolls-Royce, Riverlane and University of Edinburgh Sign Agreement to Explore Quantum Computing for Industrial Design and Simulation
  • Collaboration will explore how fault-tolerant quantum computing could advance complex fluid dynamics simulations, including for uses in gas turbine design
  • Project aims to combine ĢƵ’s Helios platform, the world’s most accurate commercial quantum computer1, Rolls-Royce’s industrial applications, Riverlane’s quantum error correction and fault-tolerant algorithm expertise, and EPCC’s supercomputing expertise
  • Collaboration will help advance the UK quantum strategy by developing the quantum technologies and hybrid computing capabilities needed for future industrial applications

BROOMFIELD, Colo. and CAMBRIDGE, UK, July 14th, 2026 – ĢƵ Inc. (NASDAQ:QNT), Rolls-Royce, Riverlane and EPCC, the UK National Supercomputing Centre based at the University of Edinburgh, today announced an agreement to explore the quantum computing capabilities needed in future industrial workflows, such as gas turbine design.

Under the agreement, ĢƵ will provide access to its quantum systems and software environment; Rolls-Royce will contribute industrial design use cases and domain expertise; Riverlane will contribute quantum error correction and algorithmic expertise; and EPCC will contribute supercomputing expertise and hybrid workflow integration.

Complex fluid dynamics simulations are central to gas turbine design, but they can require substantial computing resources as models become more detailed. In what is expected to be a multi-year collaboration, the partners will explore how fault-tolerant quantum computers could work alongside supercomputers to address this bottleneck, and accurately model fluid dynamics inside gas turbines.

“The computing demands of simulating complex fluid dynamics are a major challenge in industrial design, and exploring how quantum computing can complement today’s supercomputers is an important step toward addressing them,” said Dr. Rajeeb Hazra, President and CEO of ĢƵ. “This collaboration will help develop and test the hybrid quantum-classical algorithms needed for future industrial applications.”

The collaborators plan to test key computational building blocks for industrially relevant quantum algorithms on ĢƵ’s Helios quantum computer and assess how these could scale on planned future systems, such as Sol and Apollo.

This project builds on prior collaborations between Rolls-Royce, Riverlane and EPCC that laid the foundations for understanding key algorithmic, error correction and data requirements for tackling fluid dynamic simulations with commercial quantum computers.

“We have been developing and improving algorithms for hybrid fault-tolerant applications for almost five years with Riverlane, using classical emulators in collaboration with EPCC. This agreement marks the start of an exciting new phase where we work together to explore their implementations on ĢƵ’s hardware,” said Leigh Lapworth, Fellow in Computational Science at Rolls-Royce. “Applications development is a multi-year activity and if we want to be in a position to benefit from teraQuOp devices, we have to start now, co-developing the algorithms, hardware and software.”

“Riverlane specialises in quantum error correction (QEC), as the critical technology that will ultimately unlock large fault tolerant quantum computing, and fault tolerant applications for various industries," said Steve Brierley, CEO and Founder of Riverlane. "Building on our work with Rolls-Royce and EPCC, collaborating with ĢƵ will help us explore how fault-tolerant quantum computing and hybrid quantum-HPC approaches can accelerate the path to industrial quantum computing."

EPCC will contribute its expertise in high-performance computing, simulations and the software interfaces needed to connect quantum and classical systems. Its role includes exploring how different parts of an algorithm can be compiled, emulated and executed across classical and quantum resources, including pre- and post-processing steps required for hybrid compute workflows.

“Quantum computing will be most valuable when users can exploit it within a wider computing environment, and EPCC has been working towards hybrid HPC and quantum since my appointment as a Chancellor’s Fellow in 2023,” said Oliver Thomson Brown, Quantum Group lead at EPCC. “EPCC’s mission is to accelerate the effective use of novel computing across industry and academia, and this project is a natural fit with the goals of the UK’s first National Supercomputing Centre.”

The UK’s quantum computing mission aims to develop accessible, UK-based quantum computers capable of one trillion error-free operations, known as “teraQuOp” systems. The collaboration and its anticipated multi-year timeline support the UK Government’s quantum computing mission and reflect the strength and maturity of the UK’s quantum and advanced computing ecosystem in moving from foundational research toward industrially relevant hybrid applications.

About ĢƵ

ĢƵ is a leading quantum computing company offering a full-stack platform designed to make quantum computing deployable in real-world environments. The company has commercially deployed multiple generations of trapped-ion based quantum systems built on the well-established QCCD architecture, which it has implemented with novel designs and capabilities to achieve the industry’s highest accuracy levels based on average two-qubit gate fidelity.2 ĢƵ has active engagements with market leaders across pharmaceuticals, material science, financial services, and government and industrial markets, as well as academic and research institutions globally.

The company has a global workforce of approximately 700 employees, including top scientists and researchers. Over 70% of its technology team holds PhDs or Master’s degrees. ĢƵ’s headquarters is in Broomfield, Colorado, with additional facilities across the United States, United Kingdom, Germany, Japan, Qatar, and Singapore.

For more information, please visit www.quantinuum.com.

Cautionary Statement Concerning Forward-Looking Statements

This press release contains certain statements that may be deemed “forward-looking statements” within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements include all statements that are not historical facts. The words “anticipate,” “assume,” “believe,” “continue,” “could,” “estimate,” “expect,” “intend,” “may,” “plan,” “potential,” “predict,” “project,” “future,” “will,” “seek,” “foreseeable,” the negative version of these words, or similar terms and phrases are intended to identify forward-looking statements. Such statements are based on certain assumptions and assessments made by our management in light of their experience and their perception of historical trends, current economic and industry conditions, expected future developments and other factors they believe to be appropriate. The forward-looking statements included in this release are also subject to a number of material risks and uncertainties, including but not limited to economic, competitive, governmental, and technological factors affecting our operations, markets, products, services and prices. New factors emerge from time to time, and it is not possible for ĢƵ to predict all such factors. Any forward-looking statement speaks only as of the date on which it is made, and, except as required by law, ĢƵ does not undertake any obligation to update or revise any forward-looking statement, whether as a result of new information, future events or otherwise.

1 Based on its high two-qubit gate fidelity supporting 98 physical qubits.

2 As of December 31, 2025.

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June 21, 2026
ĢƵ Announces Strategic Collaboration with HPE on Quantum-HPC Integration for Enterprise
  • Strategic collaboration aims to establish framework for combining quantum computing with HPC and AI environments
  • The collaboration will engage enterprise customers seeking hybrid quantum-classical solutions across high-value scientific and industrial use cases

Broomfield, CO and Houston, TX, June 22nd, 2026 — ĢƵ (NASDAQ:QNT), a leading quantum computing company, today announced a strategic collaboration with HPE focused on integrating quantum computing with high-performance computing (HPC) and AI infrastructure.

“We envision a future where quantum computers work seamlessly with classical computers to unlock scientific discovery and practical, real-world value for industries,” said Dr. Rajeeb Hazra, President and CEO of ĢƵ. “As a leader in trapped-ion quantum computing, we look forward to integrating our high-fidelity systems with leading classical architectures. This collaboration with HPE represents an important step in our broader ecosystem approach to delivering practical, hybrid solutions to our enterprise, public sector, and research customers.”

The strategic collaboration is intended to develop quantum computing technologies that become a practical extension of a customer’s HPC and AI strategy. Together, the companies will explore hybrid reference architectures, validate application workflows, and engage with select customers on approaches that combine quantum technology with large-scale classical environments.

“Accelerating scientific and industrial discovery requires a deeply integrated, hybrid approach that brings together the best of classical supercomputing, AI, and quantum technology,” said Masoud Mohseni, Director of HPE Quantum and Senior Distinguished Technologist at HPE Labs. “Through this collaboration with ĢƵ we will be integrating our systems  toward a scalable infrastructure for classical-quantum applications.”

Under the collaboration, ĢƵ will provide access to quantum systems, technical expertise, and its developer environment, while HPE will contribute high performance computing systems and large-scale deployment capabilities and expertise. Together, the companies plan to collaborate on technical integration, interoperability, benchmarking, proposal development, and customer engagement.

About ĢƵ

ĢƵ is a leading quantum computing company offering a full-stack platform designed to make quantum computing deployable in real-world environments. The company has commercially deployed multiple generations of quantum systems built on the well-established QCCD architecture, which it has implemented with novel designs and capabilities to achieve the industry’s highest accuracy levels based on average two-qubit gate fidelity.1  ĢƵ has active engagements with market leaders across pharmaceuticals, material science, financial services, and government and industrial markets.

The company has a global workforce of approximately 700 employees, including top scientists and researchers. Over 70% of its technology team holds PhDs and Master’s degrees. ĢƵ’s headquarters is in Broomfield, Colorado, with additional facilities across the United States, United Kingdom, Germany, Japan, Qatar, and Singapore.

For more information, please visit www.quantinuum.com.

Cautionary Statement Concerning Forward-Looking Statements

This press release contains certain statements that may be deemed “forward-looking statements” within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements include all statements that are not historical facts. The words “anticipate,” “assume,” “believe,” “continue,” “could,” “estimate,” “expect,” “intend,” “may,” “plan,” “potential,” “predict,” “project,” “future,” “will,” “seek,” “foreseeable,” the negative version of these words, or similar terms and phrases are intended to identify forward-looking statements. Such statements are based on certain assumptions and assessments made by our management in light of their experience and their perception of historical trends, current economic and industry conditions, expected future developments and other factors they believe to be appropriate. The forward-looking statements included in this release are also subject to a number of material risks and uncertainties, including but not limited to economic, competitive, governmental, and technological factors affecting our operations, markets, products, services and prices. New factors emerge from time to time, and it is not possible for ĢƵ to predict all such factors. Any forward-looking statement speaks only as of the date on which it is made, and, except as required by law, ĢƵ does not undertake any obligation to update or revise any forward-looking statement, whether as a result of new information, future events or otherwise.

1
As of December 31, 2025.

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June 5, 2026
ĢƵ Announces Closing of Upsized Initial Public Offering

Broomfield, CO, June 5th, 2026 — ĢƵ Inc. (Nasdaq: QNT) (“ĢƵ”) today announced the closing of its upsized initial public offering of 28,000,000 shares of its Class A common stock at an initial public offering price of $60.00 per share. All of the shares were offered by ĢƵ. The aggregate gross proceeds from the offering, before deducting underwriting discounts and commissions and other offering expenses were $1.68 billion. ĢƵ’s Class A common stock is listed on the Nasdaq Global Market under the ticker symbol “QNT.”

J.P. Morgan and Morgan Stanley (in alphabetical order) acted as joint lead active book-running managers for the offering; Jefferies and Evercore ISI also acted as active book-running managers; BofA Securities, UBS Investment Bank, Cantor, Mizuho, Needham & Company, Societe Generale and TD Cowen acted as joint-book running managers; and Craig-Hallum and Rosenblatt acted as co-managers for the offering.

A registration statement relating to this offering was declared effective by the Securities and Exchange Commission (the “SEC”) on June 3, 2026. A prospectus relating to and describing the terms of the offering has been filed with the SEC and is available on the SEC’s website at www.sec.gov. The offering is being made available only by means of a prospectus. Copies of the prospectus may be obtained from: J.P. Morgan Securities LLC, c/o Broadridge Financial Solutions, 1155 Long Island Avenue, Edgewood, New York 11717 or by email at prospectus-eq_fi@jpmchase.com and postsalemanualrequests@broadridge.com; Morgan Stanley & Co. LLC, 180 Varick Street, 2nd Floor, New York, New York 10014, Attention: Prospectus Department or by email at prospectus@morganstanley.com; Jefferies LLC, Attn: Equity Syndicate Prospectus Department, 520 Madison Avenue, New York, New York 10022, by telephone at (877) 821-7388 or by email at Prospectus_Department@Jefferies.com; or Evercore Group L.L.C., Attention: Equity Capital Markets, 55 East 52nd Street, 35th Floor, New York, New York 10055, by telephone at 888-474-0200 or by email at ecm.prospectus@evercore.com.

This press release does not constitute an offer to sell or the solicitation of an offer to buy these securities, nor shall there be any sale of these securities in any state or jurisdiction in which such offer, solicitation or sale would be unlawful prior to registration or qualification under the securities laws of any such state or jurisdiction.

About ĢƵ

ĢƵ is a leading quantum computing company offering a full-stack platform designed to make quantum computing deployable in real-world environments. The company has commercially deployed multiple generations of quantum systems built on the well-established QCCD architecture, which it has implemented with novel designs and capabilities to achieve the industry’s highest accuracy levels based on average two-qubit gate fidelity as of December 31, 2025. ĢƵ has active engagements with market leaders across pharmaceuticals, material science, financial services, and government and industrial markets. ĢƵ’s headquarters is in Broomfield, Colorado, with additional facilities across the United States, United Kingdom, Germany, Japan, Qatar and Singapore.


ĢƵ:

ĢƵ Investor Relations
investors@quantinuum.com

(855) 888-7686

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