Quantum software development lifecycle

B Weder, J Barzen, F Leymann, D Vietz - Quantum Software Engineering, 2022 - Springer
This chapter discusses that the development of quantum applications typically incorporates
the development of quantum programs, classical programs, and workflows to orchestrate …

The quantum software lifecycle

B Weder, J Barzen, F Leymann, M Salm… - Proceedings of the 1st …, 2020 - dl.acm.org
Quantum computing is an emerging paradigm that enables to solve a variety of problems
more efficiently than it is possible on classical computers. As the first quantum computers are …

Integrating quantum computing into workflow modeling and execution

B Weder, U Breitenbücher… - 2020 IEEE/ACM 13th …, 2020 - ieeexplore.ieee.org
Quantum computing has the potential to significantly impact many application domains, as
several quantum algorithms are promising to solve problems more efficiently than possible …

Hybrid quantum applications need two orchestrations in superposition: a software architecture perspective

B Weder, J Barzen, F Leymann… - … Conference on Web …, 2021 - ieeexplore.ieee.org
Quantum applications are most often hybrid, ie, they are not only made of implementations
of pure quantum algorithms but also of classical programs as well as workflows and …

Hybrid quantum applications need two orchestrations in superposition: a software architecture perspective

F Leymann, J Barzen - arXiv preprint arXiv:2103.04320, 2021 - arxiv.org
Quantum applications are most often hybrid, ie they are not only made of implementations of
pure quantum algorithms but also of classical programs as well as workflows and topologies …

Provenance-preserving analysis and rewrite of quantum workflows for hybrid quantum algorithms

B Weder, J Barzen, M Beisel, F Leymann - SN Computer Science, 2023 - Springer
Quantum applications are hybrid, ie, they comprise quantum and classical programs, which
must be orchestrated. Workflows are a proven solution for orchestrating heterogeneous …

Automated quantum hardware selection for quantum workflows

B Weder, J Barzen, F Leymann, M Salm - Electronics, 2021 - mdpi.com
The execution of a quantum algorithm typically requires various classical pre-and post-
processing tasks. Hence, workflows are a promising means to orchestrate these tasks …

Scientific workflow execution in the cloud using a dynamic runtime model

J Erbel, J Grabowski - Software and Systems Modeling, 2024 - Springer
To explain specific phenomena, scientists perform a sequence of tasks, eg, to gather,
analyze and interpret data, forming a scientific workflow. Depending on the complexity of the …

[PDF][PDF] Analysis and Rewrite of Quantum Workflows: Improving the Execution of Hybrid Quantum Algorithms.

B Weder, J Barzen, M Beisel, F Leymann - Closer, 2022 - scitepress.org
With the rapid evolution of quantum computers and the emergence of different quantum
cloud offerings, use cases from various application areas, such as chemistry or physics, can …

MODULO: modeling, transformation, and deployment of quantum workflows

B Weder, J Barzen, F Leymann - 2021 IEEE 25th International …, 2021 - ieeexplore.ieee.org
Quantum applications are usually hybrid, ie, they require executing quantum programs and
classical programs, eg, performing pre-or post-processing tasks. To benefit from …