Website: [atom-computing.com](https://atom-computing.com) ### Introduction Atom Computing, founded in 2018, is a pioneering quantum computing company based in Berkeley, California, with additional offices in Boulder, Colorado. The company was established by Benjamin Bloom, who serves as the CEO, with a vision to build scalable quantum computers capable of solving complex problems beyond the reach of classical computing systems. Atom Computing employs a team of over 70 individuals (as per recent estimates from their website and LinkedIn profiles), bringing together expertise in quantum physics, engineering, and software development. Their mission is to accelerate the development of quantum computing technology to drive breakthroughs in industries such as drug discovery, materials science, and cryptography. As a private company, Atom Computing does not have a publicly traded ticker symbol and operates with backing from venture capital and strategic investors. The company focuses on neutral atom quantum computing, a promising approach that leverages arrays of optically trapped neutral atoms as qubits, aiming to achieve scalability and error resilience in quantum systems. Their work positions them at the forefront of the quantum computing race, with a commitment to transitioning quantum technology from research to real-world commercial applications. ### Key Products and Technology Atom Computing is developing quantum computing systems based on neutral atom technology. Below are details of their key offerings and technological focus: - **Phoenix System (Quantum Computing Platform)** - **Type**: Neutral atom quantum computer - **Technical Specifications**: The Phoenix system, an early prototype, demonstrated over 100 qubits with plans to scale to thousands or more in future iterations. Specific performance metrics like gate fidelity or coherence times are not publicly detailed in the latest updates, but the company emphasizes high scalability potential. - **Fuel Type or Energy Source**: Not applicable; operates on optical and laser-based control systems requiring electrical power. - **Key Differentiators**: Utilizes neutral atoms trapped in optical tweezers, offering advantages in scalability and reduced error rates compared to other qubit technologies like superconducting or trapped ion systems. The approach allows for dense qubit arrays and room-temperature operation of certain components, potentially lowering costs. - **Development Stage**: Early prototype stage with operational test systems; ongoing research and development for commercial scalability. - **Target Customers**: Government agencies, research institutions, and industries such as pharmaceuticals, finance, and cybersecurity seeking quantum advantage for complex computations. - **Next-Generation Systems (Unnamed)** - **Type**: Scalable neutral atom quantum computer - **Technical Specifications**: Aimed at achieving over 1,000 qubits with improved error correction, building on lessons from Phoenix. Recent announcements suggest a focus on fault-tolerant quantum computing. - **Fuel Type or Energy Source**: Not applicable; similar to Phoenix, reliant on advanced laser and optical systems. - **Key Differentiators**: Emphasis on error resilience and scalability, positioning it as a candidate for practical quantum applications sooner than competitors. - **Development Stage**: Under development, with milestones expected in the mid-to-late 2020s as per industry trends reported by sources like [IEEE Spectrum](https://spectrum.ieee.org/neutral-atom-quantum-computing). - **Target Customers**: Broad commercial sectors including logistics, energy optimization, and national defense. ### Regulatory and Licensing Status As a quantum computing company, Atom Computing does not fall under the purview of nuclear regulatory bodies like the U.S. Nuclear Regulatory Commission (NRC), which is more relevant to energy infrastructure companies. Instead, their regulatory considerations primarily involve compliance with intellectual property laws, export controls for dual-use technologies, and potential government oversight related to national security due to quantum computing’s implications for cryptography. There are no specific public disclosures on regulatory filings or licensing milestones directly tied to their technology deployment as of the latest available data. The timeline to first commercial deployment remains speculative but aligns with broader industry projections of practical quantum systems becoming viable in the late 2020s or early 2030s, as noted in recent analyses like [[[SpinQ]]](https://www.spinquanta.com/news-detail/quantum-computing-industry-trends-2025-breakthrough-milestones-commercial-transition). Atom Computing has not announced specific regulatory hurdles or approvals needed for their systems, focusing instead on technological development and partnerships. ### Team and Leadership Atom Computing’s leadership team comprises experts in quantum physics and technology commercialization. Key figures include: - **Benjamin Bloom, CEO & Founder**: A physicist with a Ph.D. from the University of Colorado Boulder, Bloom has extensive experience in quantum systems and atom trapping. He leads the company’s strategic vision and technological roadmap. - **Rob Hays, President & COO**: Formerly CEO of Lenovo’s Infrastructure Solutions Group, Hays brings operational expertise and industry connections to scale Atom Computing’s business operations. - **Jonathan King, CTO**: With a background in quantum optics and neutral atom systems, King oversees the technical development of Atom Computing’s quantum platforms. Social media handles for the leadership team are not widely verified or publicly promoted for professional engagement, so they are omitted here. ### Funding and Financial Position Atom Computing has raised significant capital to fuel its research and development efforts. Key funding details include: - **Total Funding Raised**: Over $80 million across multiple rounds as of the most recent public data. - **Latest Round**: Series B, announced in October 2021, raising $60 million led by Third Point Ventures, with participation from Prime Movers Lab and Innovation Endeavors. - **Key Investors**: Third Point Ventures, Prime Movers Lab, Innovation Endeavors, and Venrock, reflecting strong institutional backing in the quantum computing space. - **Revenue Status**: Pre-revenue, with a focus on R&D rather than commercial sales. The company is likely years away from generating significant revenue, consistent with the nascent stage of quantum computing as an industry. Note that funding information beyond 2021 is limited in public sources, and more recent rounds may exist but are not widely reported as of December 2025. For the most current financial data, direct disclosures from Atom Computing would be required. ### Recent News and Developments | Date | Event | Details | |---------------|--------------------------------|---------------------------------------------------------------------------------------------| | Dec 23, 2025 | Industry Report on Neutral Atoms | [IEEE Spectrum](https://spectrum.ieee.org/neutral-atom-quantum-computing) highlights neutral atom quantum computing’s potential for error resilience, mentioning Atom Computing as a key player. | | Oct 31, 2025 | Quantum Industry Trends | [[[SpinQ]]](https://www.spinquanta.com/news-detail/quantum-computing-industry-trends-2025-breakthrough-milestones-commercial-transition) reports quantum computing transitioning to commercial reality, with companies like Atom Computing leading innovation. | | Sep 23, 2025 | Top Quantum Companies List | Atom Computing named among leading quantum computing firms in 2025 by [The Quantum Insider](https://thequantuminsider.com/2025/09/23/top-quantum-computing-companies/). | | Mar 18, 2025 | News Update on Website | Atom Computing posts updates on internal developments and stories via their [News & Resources page](https://atom-computing.com/news-resources/). Specific details not disclosed in summary. | | Jan, 2025 | General Industry Momentum | Continued focus on scaling qubit counts and error correction, with Atom Computing cited in broader quantum computing discussions on platforms like [Quantum Computing Report](https://quantumcomputingreport.com/news/). | Note: Specific news events for Atom Computing in 2025 are limited in public sources. The table includes industry context and mentions where Atom Computing is relevant. More granular updates may be available directly from the company. ### Partnerships and Collaborations Atom Computing has engaged in strategic partnerships to advance its technology, though detailed 2025-specific collaborations are not widely documented in public sources. Known partnerships include: - **Department of Energy (DOE) and National Laboratories**: Early collaborations with DOE-funded labs for research on neutral atom systems, providing access to cutting-edge facilities and validation of their technology. - **Academic Institutions**: Ongoing work with universities like the University of Colorado Boulder for research and talent pipeline development, critical for advancing quantum algorithms and hardware. The lack of recent partnership announcements for 2025 suggests a focus on internal development, though industry trends indicate potential for future government and commercial collaborations as quantum computing matures. ### New Hampshire Relevance Atom Computing’s quantum computing technology has indirect but potential relevance to [[New Hampshire]], particularly in the context of energy and compute infrastructure: - **Proximity to Infrastructure**: While not directly tied to energy production like [[Seabrook Station]] or the ISO-NE grid, Atom Computing’s technology could support advanced computational needs for grid optimization or data center operations in the region. New Hampshire’s growing tech sector and data center presence could benefit from quantum solutions for energy efficiency modeling. - **Technology Readiness**: The company’s systems are not yet at commercial deployment stage, likely misaligning with immediate NH deployment timelines for energy infrastructure needs (e.g., under HB 710 or SMR provisions). Quantum computing applications are more long-term, targeting the 2030s. - **Alignment with Legislative Initiatives**: NH’s focus on innovative energy solutions (e.g., HB 710) does not directly encompass quantum computing, but future state interest in cybersecurity or grid resilience could align with Atom Computing’s capabilities. - **Potential Applications**: Quantum computing could optimize NH’s grid power distribution, support data center load management with complex algorithms, or enhance industrial processes through simulation, though these remain speculative until technology matures. - **NH Connections**: No direct ties to New Hampshire or expressed interest in the Northeast US are documented in recent data. However, their Boulder and Berkeley locations suggest potential for broader US regional engagement in the future. ### Competitive Position Atom Computing operates in a competitive quantum computing landscape, with key rivals including: - **[[IonQ]]**: Focuses on trapped ion technology, offering operational systems with cloud access. [[IonQ]]’s public status and government contracts (e.g., with AFRL as noted on [X posts](https://x.com/IonQ_Inc)) give it a near-term commercialization edge, though Atom Computing’s neutral atom approach may offer superior scalability. - **[[QuEra Computing]]**: Another neutral atom quantum computing firm, QuEra recently raised $230 million (per [X posts](https://x.com/StockSavvyShay)), signaling strong investor confidence. Atom Computing differentiates with its early mover status and focus on error resilience. - **[[IBM]] Quantum**: A leader with superconducting qubit technology, [[IBM]] has more mature systems and partnerships (e.g., with Cisco as per [X posts](https://x.com/IBMResearch)). Atom Computing’s challenge is catching up to IBM’s ecosystem, though its technology may be more cost-effective long-term. Atom Computing’s unique advantage lies in the scalability of neutral atom systems, but risks include slower progress toward fault-tolerant computing compared to competitors with more established platforms. ### Closing Note Atom Computing is at an early but promising stage, leveraging neutral atom technology to build scalable quantum computers with a strong trajectory toward commercial impact in the coming decade. **Word Count**: Approximately 1,400 **RSS_FEED**: https://atom-computing.com/news-resources/rss *Report generated December 24, 2025*