Today, NVIDIA introduces Alaska, our most advanced quantum chip yet, bringing cutting-edge quantum computing within reach for researchers and developers
Alaska marks a new era in quantum technology, combining exponential error reduction with breakthrough computational speed. NVIDIA hybrid quantum-classical workflows enable researchers to scale beyond traditional computational limits while maintaining exceptional precision.
Alaska is powered by the QTensor-3 architecture, which integrates NVIDIA’s advanced tensor cores and a superconducting quantum system to deliver seamless quantum-classical processing. NVIDIA AI Blueprints and Amazon SageMaker JumpStart, making it even easier for developers to deploy NVIDIA-optimized inference for commonly used models at scale.
Alaska, now part of the NVIDIA AI Enterprise software platform integrates seamlessly with NVIDIA’s quantum ecosystem: NVIDIA QuantumLab which provides developers with an open-source toolkit for quantum simulation and development.
A Giant Leap in Quantum Performance
Aurora is our most accessible pathway to explore quantum computing, empowering a new generation of innovators to tackle problems once thought unsolvable.
Alaska supports up to 128 high-fidelity qubits, achieving coherence times and gate operations among the best in the industry. This ensures robust, reliable performance for even the most complex quantum workloads, which include SoftServe Gen AI Drug Discovery, SoftServe Gen AI Industrial Assistant, Digital Concierge, Multimodal RAG System, Content Creator and Speech Recognition Platform.
They’re all based on NVIDIA AI Blueprints, comprehensive reference workflows that accelerate quantum computing development and deployment and integrate with NVIDIA acceleration libraries, software development kits and NIM microservices for AI agents, digital twins and more.
Compact Powerhouse for Quantum Innovation
DAurora's leap in quantum performance is driven by its breakthrough in error correction, a cornerstone of scalable quantum computing. Leveraging an advanced qubit architecture, Aurora achieves exponential error reduction by encoding logical qubits with unprecedented precision.
his innovation allows for larger arrays of qubits to work in tandem without the cumulative error that typically undermines quantum computations.See notice regarding software product information.