Abstract / Description of output
Most of the widely used quantum programming languages and libraries
are not designed for the tightly coupled nature of hybrid quantum-classical
algorithms, which run on quantum resources that are integrated on-premise
with classical HPC infrastructure. We propose a programming model using
the API provided by OpenMP to target quantum devices, which provides an
easy-to-use and efficient interface for HPC applications to utilize quantum
compute resources. We plan to implement this and show proof-of-concept
using both classical simulation and actual quantum hardware hosted at LRZ
are not designed for the tightly coupled nature of hybrid quantum-classical
algorithms, which run on quantum resources that are integrated on-premise
with classical HPC infrastructure. We propose a programming model using
the API provided by OpenMP to target quantum devices, which provides an
easy-to-use and efficient interface for HPC applications to utilize quantum
compute resources. We plan to implement this and show proof-of-concept
using both classical simulation and actual quantum hardware hosted at LRZ
Original language | English |
---|---|
Publication status | Accepted/In press - 12 Sept 2023 |
Event | Supercomputing 2023 - Denver, United States Duration: 12 Nov 2023 → 17 Nov 2023 https://sc23.supercomputing.org/ |
Conference
Conference | Supercomputing 2023 |
---|---|
Abbreviated title | SC23 |
Country/Territory | United States |
City | Denver |
Period | 12/11/23 → 17/11/23 |
Internet address |