Poster is on display.
Quantum computers operate on a completely different principle from conventional
computers and are expected to speed up information processing dramatically. At present,
however, as the scale of quantum computers increases, it will require more resources than
conventional computers for pre-post processing, such as error mitigation. On the other hand,
with the advancement of digitalization in information society, the utilization of quantum
computers is urgently demanded. It is promising to use quantum computers in combination
with classical computers.
In this project, we aim to develop and build software, platforms, and applications for the
integrated use of quantum computers and supercomputers and demonstrate their advantages
as technologies to be deployed as services.
This project covers a wide range of research topics, such as :
- Quantum-HPC hybrid software for seamless and efficient use of quantum computers and
supercomputers by coordinating computing resources optimally.
- Co-scheduler of HPC and quantum computers.
- Modular quantum software libraries tailored to application fields and developing high-
level software libraries for error mitigation and circuit optimization processing
specialized to the characteristics of quantum computers. The software enables the
development of advanced quantum applications by combining them as modules.
- Cloud computing technology for a quantum-supercomputer hybrid platform to support
the use of quantum applications for business development using quantum computers
- Application and enhancement for practical use cases
Contributors: 
