Atom Computing has integrated NVIDIA NVQLink, a high-bandwidth, low-latency communication interface, into its quantum computer control systems to accelerate the development of scalable quantum processors. The addition of NVQLink’s data pathways is intended to unlock performance levels crucial for advanced quantum information processing and increase the speed of logical qubit systems. Atom Computing’s team successfully implemented a complete NVQLink workflow and verified its benefits through latency measurements, demonstrating the technology’s potential for the company’s scaling strategy. “Integration of NVIDIA NVQLink provides a boost to the speed and scalability of our quantum systems, strengthening our path toward utility-scale performance,” said Dr. Ben Bloom, CEO and Founder of Atom Computing. This development supports Atom Computing’s goal of building quantum computers capable of tackling increasingly complex applications, as evidenced by its participation in the DARPA Quantum Benchmarking Initiative.
NVIDIA NVQLink Integration Accelerates Logical-Qubit Scaling
Atom Computing’s quantum computers are now leveraging NVIDIA NVQLink to significantly enhance their scaling capabilities, a development revealed on March 16, 2026. The integration of this low-latency, high-bandwidth communication interface into Atom Computing’s control systems unlocks performance levels critical for advanced quantum information processing, allowing the company to move beyond theoretical limits to practical application. Comprehensive latency measurements confirmed the advantages of the new architecture, demonstrating NVQLink’s potential as a key component in the company’s scaling strategy and enabling more complex computations. This architectural enhancement directly addresses the need for accelerated scaling of Atom Computing’s high-performance logical-qubit systems, simultaneously increasing logical cycle speeds; the company anticipates improvements in system scale, control fidelity, and quantum-error-correction throughput.
Atom Computing is actively pursuing scalability with a novel approach to quantum computing hardware, having already constructed systems containing over 1,000 qubits. Unlike superconducting or trapped ion systems, their architecture relies on optically trapped neutral atoms, a method allowing for the creation of large, highly connected qubit arrays. This focus on scale is now bolstered by a recent integration with NVIDIA NVQLink, which is intended to accelerate performance and unlock new thresholds for quantum information processing, specifically by increasing logical cycle speeds and improving quantum-error-correction throughput. Recent momentum includes a purchase agreement with QuNorth, a Nordic quantum initiative, for an on-premises system named ‘Magne’ to be installed in Copenhagen, Denmark, further solidifying Atom Computing’s position in the expanding quantum field and its commitment to providing customers with advanced logical qubit capabilities.
Integration of NVIDIA NVQLink provides a boost to the speed and scalability of our quantum systems, strengthening our path toward utility-scale performance.
Dr. Ben Bloom, CEO and Founder of Atom Computing
