A research and development agency of the U.S. Department of Defence, the Defence Advanced Research Projects Agency (DARPA) has chosen Quantinuum, the industry leader in quantum computing with the most potent quantum computer in the world, to take part in the initial phase of the agency’s Quantum Benchmarking Initiative (QBI).
By 2033, Quantum Benchmarking Initiative hopes to develop a quantum computer that can be used in industry. Through stages A, B, and C, successful Quantum Benchmarking Initiative performers will progress. In stage A, performers must outline their utility-scale quantum computer and its road to near-term realisation, where utility-scale denotes that the computational value outweighs the expenses.
Quantinuum has confirmed that its quantum systems are the best in the business in a recent independent benchmarking study conducted by a consortium of leading institutions in the field of quantum computing research. A development plan detailing the way to a universal, completely fault-tolerant quantum computer by 2029 was released by Quantinuum last year. Beyond this open roadmap, Quantinuum intends to scale to even larger computers in the early 2030s, which is consistent with Quantum Benchmarking Initiative goals.
As they evaluate roadmap and technological approach, it look forward to working closely with DARPA’s test and evaluation team. It is honoured to be collaborating with them. With roadmap well on its way, they are confident that can meet DARPA’s goals for Quantum Benchmarking Initiative.
Building on their long-standing partnerships with Quantinuum to advance commercially scalable quantum computing, Microsoft and NVIDIA will become partners in Quantinuum’s Stage A project.
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It state-of-the-art software, developer toolkits, and quantum computers are built to function flawlessly. As a result, their users may propel innovations in fields such as biology, cybersecurity, next-generation quantum AI, and materials discovery.
Quantinuum’s key goals for creating quantum computing and its applications
The following are Quantinuum’s main objectives and tactics for developing quantum computing technology and its practical uses, according the sources:
Reaching Quantum Computing at Utility Scale
Early in the 2030s, Quantinuum hopes to deliver utility-scale quantum computing. DARPA’s Quantum Benchmarking Initiative (QBI) defines this as a point at which computational value outweighs expenses.
Engaging in the Quantum Benchmarking Initiative (QBI) run by DARPA
Quantinuum is chosen to take part in the initial phase of Quantum Benchmarking Initiative. The goal of the QBI is to determine whether it is feasible to construct a quantum computer that is useful in industry by 2033. A roadmap for the near-term realisation of utility-scale quantum computing must be shown in order to advance through phases A, B, and C of QBI.
Quantum systems scaling
Scaling Quantinuum’s quantum systems is a well-defined technique. They intend to scale to even larger machines in the early 2030s, which is in line with QBI’s goals.
Creation of Quantum Computers That Can Handle Faults
A plan for the creation of a universal, fully fault-tolerant quantum computer by 2029 was released by Quantinuum last year.
Preserving Superior Quantum System Performance
With the “world’s most powerful quantum computer,” Quantinuum claims to be the industry leader in quantum computing. Based on an independent benchmarking study, their quantum systems are said to give the best performance across all industry benchmarks.
Partnerships with a purpose
Quantinuum works with major industry giants such as NVIDIA and Microsoft to develop quantum computing that is commercially scalable. Within the Quantum Benchmarking Initiative, these partnerships constitute a component of their Stage A endeavour.
Creating Cutting-Edge Software Options
NIST-validated Quantum Random Number Generator (QRNG) software, Quantum Origin, is one of Quantinuum’s cutting-edge software solutions in addition to hardware. This shows a way to deal with practical applications.
Quantum cybersecurity is the main focus
Quantum Origin’s development demonstrates that cybersecurity is a key real-world application that Quantinuum is pursuing. This QRNG provides theoretically provable randomness, which is intended to aid improve cybersecurity in the era of Post-Quantum Cryptography (PQC). Its size, weight, and power requirements are not affected, allowing for flexible software deployment even in air-gapped networks.
Risk Management in the Supply Chain
In order to reduce supply chain concerns related to hardware components purchased from overseas, Quantum Origin is manufactured in the United States utilising Quantinuum’s quantum computers in Colorado. It also doesn’t need to be recertified because it can be integrated with current NIST-approved cryptographic systems.
Quantinuum’s primary goals are to create effective software and high-performing systems like Quantum Origin to address real-world problems, especially in cybersecurity, and to investigate new applications through research and partnerships. The company also hopes to achieve utility-scale, fault-tolerant quantum computing through hardware advancements and strategic scaling.
How to invest in Quantinuum?
The company Quantinuum is privately held. This implies that prior to the company’s IPO, only accredited and institutional investors are permitted to invest in it. In order to gain exposure to Quantinuum, investors can buy shares directly on pre-IPO marketplaces such as Hiive or indirectly through venture funds and investment syndicates.
Concerning Quantinuum
The leader in quantum computing worldwide is Quantinuum. The company’s quantum systems outperform all industry benchmarks in terms of performance. The quantum computing revolution is being spearheaded by Quantinuum’s more than 550 workers in the US, UK, Germany, and Japan, including more than 370 scientists and engineers.