Mar 7, 2021 · Two orchestrations that go hand-in-hand are required to realize quantum applications. We motivate this by means of a non-trivial example.

Nov 12, 2021 · Abstract—Quantum applications are most often hybrid, i.e., they are not only made of implementations of pure quantum.

This work motivates this by means of a nontrivial example, sketches these orchestration technologies, and reveals the overall structure of non-trivial ...

By employing a well-designed software architecture, the complexity of algorithms can be better managed and organized, enhancing their readability, ...

Mar 7, 2021 · Abstract: Quantum applications are most often hybrid, i.e. they are not only made of implementations of pure quantum algorithms but also of.

Quantum applications are most often hybrid, i.e. they are not only made of implementations of pure quantum algorithms but also of classical programs as well ...

Two orchestrations that go hand-in-hand are required to realize quantum applications. We motivate this by means of a nontrivial example.

Hybrid quantum applications need two orchestrations in superposition: a software architecture perspective. B Weder, J Barzen, F Leymann, M Zimmermann. 2021 ...

Jul 16, 2022 · Hybrid Quantum Applications Need Two Orchestrations in Superposition: A Software Architecture Perspective. #6. Benjamin Weder(. U. Stuttgart ...

Jul 16, 2024 · Hybrid quantum applications need two orchestrations in superposition: a software architecture perspective. In 2021 IEEE International ...