Quantum Art a developer of full-stack quantum computers, has integrated Nvidia’s CUDA-Q hybrid quantum-classical platform into its “qubits.”
The integration of Nvidia’s open-source platform into its advanced circuit compiler for logical qubits will advance the performance of scalable quantum computing real-world applications.
The integration pairs Israel-based Quantum Art’s Logical Qubit Compiler which utilizes its unique Multi-qubit gates and Multi-Core architecture with NVIDIA CUDA-Q, an open-source hybrid quantum-classical computing platform, enabling developers to run applications across QPUs, CPUs, and GPUs.
By combining Quantum Art’s compiler, which is optimized for low circuit depth and scalable performance, with NVIDIA’s expertise in multi-core orchestration and developer enablement, the combination lays critical groundwork for the advancement of real-world quantum use cases.
How it works
For quantum algorithms to be practical and commercially useful, they have to retain the excellent performance of trapped ion qubits and all-to-all connectivity of trapped ion qubits needs to be retained, all while scaling up the number of qubits.
Today’s most common approaches to scaling up are are too slow and have compromised connectivity, and lead to large footprints and engineering complexity. Quantum Art’s solution makes the most out of the physical system by realizing advanced multi-qubit logic gates employed on dynamically reconfigurable, multi-core quantum processing units (QPUs).
This enables massive entanglement distribution and connectivity, to achieve computation power beyond that of competing solutions. Trapped ion qubits are the leading technological platform in quantum computing.
Natural qubits, with no fabrication variation between qubits.
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