D-Wave Achieves Breakthrough in Scalable Quantum Control Technology

D-Wave Quantum Inc. (NYSE: QBTS), a pioneering leader in quantum computing systems, software, and services, has announced a groundbreaking industry-first achievement in gate-model quantum computing. The company successfully demonstrated scalable on-chip cryogenic control of qubits, a critical milestone that significantly advances the development of commercially viable gate-model quantum computers. This breakthrough technology dramatically reduces the complex wiring traditionally required to control large numbers of qubits while maintaining their delicate fidelity, addressing a major technical bottleneck that has hindered practical, large-scale quantum processor development.

The core innovation lies in D-Wave's adaptation of control technology originally developed for its commercial annealing quantum processing units (QPUs). In their annealing systems, this technology uses multiplexed digital-to-analog converters to control tens of thousands of qubits and couplers with just 200 bias wires. The recent validation proves this same efficient control architecture can be successfully applied to their gate-model architectures, enabling the creation of large-scale, practical gate-model QPUs. As the world's first and only dual-platform quantum computing company, D-Wave is uniquely positioned to leverage this cross-platform technological synergy, building both annealing and gate model systems to address customers' full spectrum of complex computational problems.

This development represents more than just a technical achievement; it's a strategic leap toward making quantum computing accessible for real-world applications. D-Wave's quantum computers already feature the world's largest QPUs with sub-second response times, available on-premises or through their highly reliable quantum cloud service with 99.9% availability. With over 200 million problems submitted to their systems by more than 100 organizations, customers are already applying D-Wave's technology to optimization, artificial intelligence, and research challenges. The successful demonstration of scalable on-chip cryogenic control brings the promise of practical, commercially viable gate-model quantum computing significantly closer to reality, potentially accelerating quantum-driven industrial and societal advancements. For more details, view the full press release on the InvestorBrandNetwork website or visit www.dwavequantum.com to learn how organizations are realizing the value of quantum computing today.