QuEra Doubles Boston HQ, Expands Team to Meet Demand for Quantum Computers

QuEra Computing, a leader in neutral-atom quantum computing, is expanding its Boston headquarters to meet growing demand for its quantum computers in the US, Europe, and Asia. The company recently signed deals with the UK’s National Quantum Computing Centre and Japan’s National Institute of Advanced Industrial Science and Technology. QuEra’s 256-qubit Aquila system is now available for over 100 hours per week on a major cloud platform. The company, which has grown its team to over 50 scientists and engineers, is also planning to deliver a series of error-corrected quantum computers from 2024 to 2026.

QuEra Computing, has recently expanded its Boston headquarters to accommodate the increasing demand for its quantum computers. The company has acquired an additional building, effectively doubling its space to support the rapid growth of its business. This expansion is in response to the rising demand for QuEra’s quantum computers in the United States, Europe, and Asia.

The new facilities at 1284 and 1380 Soldiers Field Rd in Boston are equipped to support the research, development, and production of multiple quantum computers. They also provide office space for the expanding QuEra team, which is necessary to manage the company’s growing customer base effectively. In the first quarter of 2024, QuEra secured contracts with the UK’s National Quantum Computing Centre (NQCC) and Japan’s National Institute of Advanced Industrial Science and Technology (AIST) to deliver advanced quantum computers. The company continues to negotiate additional on-premises deals.

Significant Milestones and Advancements in QuEra’s Quantum Computing

QuEra has reached several significant milestones that have enhanced the capabilities of its quantum computers, leading to increased customer interest. The company’s flagship 256-qubit Aquila system, which is available globally on a major cloud platform, has extended its public availability from 10 to over 100 hours per week. This increased availability has been utilized by both commercial and academic customers, leading to several breakthroughs.

The company has also expanded its team to over 50 highly skilled scientists and engineers and added several experienced executives to its management team. This strategic move positions QuEra for accelerated growth and innovation. In December 2023, QuEra announced a major breakthrough in the quantum industry: in research led by Harvard University, it performed complex, error-corrected quantum algorithms on 48 logical qubits.

QuEra’s Future Plans and Expansion

The new headquarters, which is double the size of QuEra’s current location, will accommodate further growth and expansion over the next few years. The office is conveniently located near MIT and Harvard University, two key partners of QuEra that have collaborated on important research and development since the company’s inception. The company was founded by Harvard and MIT physicists who have conducted pioneering research in quantum computing.

QuEra’s neutral atom-based quantum computers feature a unique combination of system size, coherence, and processing modes. Neutral atom computers are a highly promising quantum modality, offering a clear path to large-scale, fault-tolerant computers. QuEra’s first-generation, neutral-atom quantum computers have been available for public use on a large public cloud service since November 2022 and remain the only neutral-atom platform that is publicly accessible.

QuEra is recognized for its dynamic qubit manipulation (qubit shuttling), which enables flexible and efficient quantum computations. The company’s computers operate at room temperature and can readily integrate with classical computing infrastructure. QuEra Computing is known for commercializing quantum computers using neutral atoms, a highly promising quantum modality. The company operates the world’s largest publicly accessible quantum computer, available over a major public cloud and for on-premises delivery. QuEra is developing large-scale, fault-tolerant quantum computers to tackle classically intractable problems, positioning itself as a preferred partner in the quantum field.