D-Wave Introduces Gate-Model Quantum Simulator for Error-Aware Development
Insider Brief D-Wave announced a forthcoming gate-model quantum computing simulator designed to support error-aware programming and application development. The simulator will use D-Wave’s dual-rail architecture to provide error-detection data, real-time control capabilities, and tools for modeling quantum processor behavior. Access to the simulator is expected to begin in September 2026 through D-Wave’s Leap cloud platform as part of new quantum development bundles. PRESS RELEASE — D-Wave Quantum Inc. (NYSE: QBTS), (“D-Wave” or the “Company”), the only dual-platform quantum computing company providing both annealing and gate-model systems, software and services, today announced its forthcoming gate-model quantum computing simulator, which is expected to be the first of its kind designed for error-aware programming. The announcement marks the next step in D-Wave’s gate-model roadmap and comes just weeks after the Company outlined its differentiated approach to fault-tolerant quantum computing. Built around D-Wave’s dual-rail technology, the simulator is expected to enable error-aware programming, giving developers visibility into errors so they can design applications and workflows that respond to real processor behavior. By combining error detection and real-time control, the simulator will give developers new tools and data to better understand quantum behavior, prototype quantum applications and error-correction routines and explore advanced workflows. D-Wave will offer new quantum development bundles that provide access to its forthcoming gate-model quantum simulator and systems. Designed to support customer success, the bundles will include Starter and Premium packages, with monthly access allocations and guidance from D-Wave’s team of experts to streamline onboarding, perform flexible R&D and maximize customer value. Pricing is available upon request. “D-Wave’s gate-model quantum simulator is an important step in bringing our gate-model road
