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Quantum Machines (QM), a leading provider of advanced quantum control solutions, today announced its intention to work with NVIDIA at its newly established NVIDIA Accelerated Quantum Research Center (NVAQC), unveiled at the GTC global AI conference. The Boston-based center aims to advance quantum computing research with accelerated computing, including integrating quantum processors with AI- supercomputing to overcome significant challenges in the quantum computing space. As quantum computing rapidly evolves, the integration of quantum processors with powerful AI supercomputers becomes increasingly essential. These accelerated quantum supercomputers are pivotal for advancing quantum error correction, device control, and algorithm development.
Quantum Machines joins other quantum computing pioneers, including Quantinuum and QuEra, along with academic partners from Harvard and MIT, in working with NVIDIA at the NVAQC to develop pioneering research. Quantum Machines will work with NVIDIA to integrate its NVIDIA GB200 Grace Blackwell Superchips with QM's advanced quantum control technologies, including the OPX1000. This integration will facilitate rapid, high-bandwidth communication between quantum processors and classical supercomputers. QM and NVIDIA thereby lay the essential foundations for quantum error correction and robust quantum algorithm execution. By reducing latency and enhancing processing efficiency, QM and NVIDIA solutions will significantly accelerate practical applications of quantum computing.
"The next wave of breakthroughs in quantum computing will be fueled by accelerated computing," said Tim Costa, senior director of CAE, Quantum, and CUDA-X at NVIDIA. "This means providing seamless, low-latency and high throughput integrations of quantum and classical hardware, which our work with Quantum Machines at the NVAQC will continue to develop."
"NVIDIA's continued investment in quantum-classical integration reflects the accelerating momentum in quantum computing and its immense potential," said Itamar Sivan, co-founder and CEO of Quantum Machines. "By collaborating closely with NVIDIA at the NVAQC, we are actively shaping the future of quantum research, enabling revolutionary advancements in hybrid quantum-classical computing."
View at TechPowerUp Main Site | Source
Quantum Machines joins other quantum computing pioneers, including Quantinuum and QuEra, along with academic partners from Harvard and MIT, in working with NVIDIA at the NVAQC to develop pioneering research. Quantum Machines will work with NVIDIA to integrate its NVIDIA GB200 Grace Blackwell Superchips with QM's advanced quantum control technologies, including the OPX1000. This integration will facilitate rapid, high-bandwidth communication between quantum processors and classical supercomputers. QM and NVIDIA thereby lay the essential foundations for quantum error correction and robust quantum algorithm execution. By reducing latency and enhancing processing efficiency, QM and NVIDIA solutions will significantly accelerate practical applications of quantum computing.
"The next wave of breakthroughs in quantum computing will be fueled by accelerated computing," said Tim Costa, senior director of CAE, Quantum, and CUDA-X at NVIDIA. "This means providing seamless, low-latency and high throughput integrations of quantum and classical hardware, which our work with Quantum Machines at the NVAQC will continue to develop."
"NVIDIA's continued investment in quantum-classical integration reflects the accelerating momentum in quantum computing and its immense potential," said Itamar Sivan, co-founder and CEO of Quantum Machines. "By collaborating closely with NVIDIA at the NVAQC, we are actively shaping the future of quantum research, enabling revolutionary advancements in hybrid quantum-classical computing."
View at TechPowerUp Main Site | Source