Quantum computing holds immense promise for achieving computational gains once thought unattainable, given the physical limits to conventional (dubbed classical) compute resources. Certain classes of problems could benefit greatly from speedups obtainable from the exploitation of quantum mechanical properties, including superposition, entanglement and interference, by quantum computing systems. During this talk, we'll consider realistic instances in this pre-fault-tolerant era, strategies for the integration of quantum resources with HPC, and approaches for facilitating research use cases. Symposium members are encouraged to contribute efforts made by their HPC departments, both from emulation/simulation and hardware integration perspectives; the presentation is intended as an opportunity to explore ideas, share experiences and gather knowledge to advance quantum-centric HPC in our region.
