Nvidia Accelerating the Quantum Revolution Down Under

H Hannan

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Scientists at Australia’s Pawsey Supercomputing Research Centre will utilize NVIDIA’s CUDA Quantum platform to accelerate quantum computing development. This open-source software includes robust simulation tools and capabilities to program hybrid classical-quantum systems across CPUs, GPUs and quantum processors.

The Centre will leverage NVIDIA’s new Grace Hopper Superchip architecture, which tightly integrates processing units and graphics units for extreme performance. This will enable Pawsey researchers to run high-fidelity, scalable quantum simulations to advance discoveries in algorithm design, hardware engineering, error correction and control.

Quantum simulation is pivotal for addressing core challenges in realizing practical quantum advantages. By combining CUDA Quantum’s programming environment and Grace Hopper’s blazing hybrid speed, Pawsey can achieve essential innovations to quicken the path towards useful integrated quantum-classical supercomputing.

The Centre aims to push boundaries across quantum machine learning, chemistry, imaging, finance and more by developing hybrid algorithms intelligently partitioning workloads between classical resources and quantum devices. Variational quantum algorithms will be an initial focus area.

Pawsey is deploying eight Grace Hopper nodes fully eliminating latency-prone CPU-GPU links using NVIDIA’s high-bandwidth NVLink-C2C interconnect. This glueless chipset design offers up to 10x higher throughput for terabyte-scale data compared to standard PCIe interfaces.

By providing Australia’s quantum researchers with this unprecedented computing power, Pawsey seeks to unlock profound scientific and commercial possibilities offered by quantum computing across sectors like medicine, astronomy and sustainability.

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