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D-Wave Achieves Breakthrough in Scalable Quantum Computing Control

D-Wave Quantum Inc. announces a breakthrough in scalable on-chip cryogenic control for gate-model quantum computing, reducing wiring complexity and advancing commercial viability.

This breakthrough matters because it addresses a major bottleneck in quantum computing scalability: the 'wiring problem.' Traditional gate-model quantum computers require extensive, complex wiring to control qubits, which becomes impractical at larger scales and can degrade qubit performance. D-Wave's demonstration of scalable on-chip cryogenic control, adapted from their annealing systems, shows a path to building larger, more stable, and commercially viable gate-model quantum processors. For industries like pharmaceuticals, finance, logistics, and materials science, this progress means quantum computers could soon tackle optimization, simulation, and machine learning problems that are currently intractable for classical computers, potentially leading to faster drug discovery, more efficient supply chains, and breakthroughs in AI. As the only company developing both annealing and gate-model quantum computers, D-Wave's dual-platform approach positions it to offer tailored solutions for diverse computational challenges, accelerating the practical adoption of quantum technology and its transformative impact on global innovation.