This image shows Benjamin Weder

Benjamin Weder

M.Sc.

Research Associate
Institute of Architecture of Application Systems (IAAS)

Contact

Universitätsstraße 38
70569 Stuttgart
Deutschland
Room: 1.039

Office Hours

By arrangement.

  • 1st International Workshop on Quantum Programming for Software Engineering (QP4SE 2022): Program Committee
  1. Stiliadou, Sharon-Naemi: Automatisierte Generierung von Amazon Braket Hybrid Jobs, 2022. (Bachelor)
  2. Pisano, Vincenzo: Plugin-based Workflow Integration for QHAna, 2022. (Bachelor)
  3. Li, Kuang-Yu: Generation of BPMN 2.0 Plans to Deploy Applications in OpenTOSCA, 2022. (Master)
  4. Ponomarenko, Wladimir: Solving Differential Equations using Quantum Computing: A Survey, 2022. (Master)
  5. Wundrack, Philipp: Quantenunterstütztes Clustering mit hybriden neuronalen Netzen, 2021. (Master)
  6. Ehret, Tim-Julian: Automatisierte Generierung von Quantum Workflows, 2021. (Master)
  7. Hartmann, Jens: Automatisierte Bestimmung der Kalibrierungsmatrix für Quantencomputer, 2021. (Bachelor)
  8. Weber, Jan: An Approach for Benchmarking Quantum Computers to Determine the Executability of Quantum Circuits, 2021. (Bachelor)
  9. Hoshaber, Yakup: Implementation and Evaluation of Unfolding Methods to Mitigate Readout Error of Quantum Devices, 2021. (Master)
  10. Wangler, Thomas: Development of a Vendor Independent Quantum Computing Transpiler, 2020. (Master)
  11. Lebherz, Benjamin: Retrieval and Analysis of Quantum Hardware Characteristics, 2020. (Master)

Projects


EniQmA

Enabling Hybrid Quantum Applications


SimTech

Stuttgart Research Centre for Simulation Technology and Cluster of Excellence "Simulation Technology"


PlanQK

Platform and Ecosystem for Quantum Applications.


Software Projects


QuAntiL

QuAntiL covers several aspects of the quantum application lifecycle and provides tooling support for the implementation, deployment, execution, and monitoring of quantum applications.


OpenTOSCA

OpenTOSCA is a runtime environment for TOSCA-based applications. It enables a fully-automated deployment and management of applications through management plans.


Winery

Winery is a web-based modeling tool to model applications based on the TOSCA standard. It mainly consists of three parts: (1) a TOSCA Definition management tool, (2) a graphical topology modeling tool, and (3) a repository for storing and versioning components and applications.


Publications

Book Chapters

  1. Weder, Benjamin; Barzen, Johanna; Leymann, Frank; Vietz, Daniel: Quantum Software Development Lifecycle. In: Quantum Software Engineering, Springer International Publishing, 2022 (bibTex).

Journal Papers

  1. Beisel, Martin; Barzen, Johanna; Leymann, Frank; Truger, Felix; Weder, Benjamin; Yussupov, Vladimir: Configurable Readout Error Mitigation in Quantum Workflows. In: Electronics. Vol. 11(19), MDPI, 2022 (pdf, bibTex).
  2. Weder, Benjamin; Barzen, Johanna; Leymann, Frank; Salm, Marie; Wild, Karoline: QProv: A provenance system for quantum computing. In: IET QuantumCommunication. Vol. 2(4), Wiley Online Library, 2021 (pdf, bibTex).
  3. Weder, Benjamin; Barzen, Johanna; Leymann, Frank; Salm, Marie: Automated Quantum Hardware Selection for Quantum Workflows. In: Electronics. Vol. 10(8), MDPI, 2021 (pdf, bibTex).
  4. Barzen, Johanna; Leymann, Frank; Falkenthal, Michael; Vietz, Daniel; Weder, Benjamin; Wild, Karoline: Relevance of Near-Term Quantum Computing in the Cloud: A Humanities Perspective. In: Cloud Computing and Services Science. Vol. 1399, Springer International Publishing, 2021 (pdf, bibTex).

Conference Papers

  1. Vietz, Daniel; Barzen, Johanna; Leymann, Frank; Weder, Benjamin: Splitting Quantum-Classical Scripts for the Generation of Quantum Workflows. In: Proceedings of the 26th Conference on Enterprise Design, Operations, and Computing (EDOC 2022), Springer International Publishing, 2022 (bibTex).
  2. Weder, Benjamin; Barzen, Johanna; Beisel, Martin; Leymann, Frank: Analysis and Rewrite of Quantum Workflows: Improving the Execution of Hybrid Quantum Algorithms. In: Proceedings of the 12th International Conference on Cloud Computing and Services Science (CLOSER 2022), SciTePress, 2022 (pdf, bibTex).
  3. Beisel, Martin; Barzen, Johanna; Leymann, Frank; Truger, Felix; Weder, Benjamin; Yussupov, Vladimir: Patterns for Quantum Error Handling. In: Proceedings of the 14th International Conference on Pervasive Patterns and Applications (PATTERNS 2022), Xpert Publishing Services (XPS), 2022 (pdf, bibTex).
  4. Weder, Benjamin; Barzen, Johanna; Leymann, Frank; Zimmermann, Michael: Hybrid Quantum Applications Need Two Orchestrations in Superposition: A Software Architecture Perspective. In: Proceedings of the 18th IEEE International Conference on Web Services (ICWS 2021), IEEE, 2021 (pdf, bibTex).
  5. Salm, Marie; Barzen, Johanna; Leymann, Frank; Weder, Benjamin; Wild, Karoline: Automating the Comparison of Quantum Compilers for Quantum Circuits. In: Proceedings of the 15th Symposium and Summer School on Service-Oriented Computing (SummerSOC 2021), Springer International Publishing, 2021 (pdf, bibTex).
  6. Weder, Benjamin; Breitenbücher, Uwe; Leymann, Frank; Wild, Karoline: Integrating Quantum Computing into Workflow Modeling and Execution. In: Proceedings of the 13th IEEE/ACM International Conference on Utility and Cloud Computing (UCC 2020), IEEE Computer Society, 2020 (pdf, bibTex).
  7. Salm, Marie; Barzen, Johanna; Breitenbücher, Uwe; Leymann, Frank; Weder, Benjamin; Wild, Karoline: The NISQ Analyzer: Automating the Selection of Quantum Computers for Quantum Algorithms. In: Proceedings of the 14th Symposium and Summer School on Service-Oriented Computing (SummerSOC 2020), Springer International Publishing, 2020 (pdf, bibTex).
  8. Wild, Karoline; Breitenbücher, Uwe; Képes, Kálmán; Leymann, Frank; Weder, Benjamin: Decentralized Cross-Organizational Application Deployment Automation: An Approach for Generating Deployment Choreographies Based on Declarative Deployment Models. In: Proceedings of the 32nd Conference on Advanced Information Systems Engineering (CAiSE 2020), Springer International Publishing, 2020 (pdf, bibTex).
  9. Leymann, Frank; Barzen, Johanna; Falkenthal, Michael; Vietz, Daniel; Weder, Benjamin; Wild, Karoline: Quantum in the Cloud: Application Potentials and Research Opportunities. In: Proceedings of the 10th International Conference on Cloud Computing and Services Science (CLOSER 2020), SciTePress, 2020 (pdf, bibTex).
  10. Zimmermann, Michael; Breitenbücher, Uwe; Képes, Kálmán; Leymann, Frank; Weder, Benjamin: Data Flow Dependent Component Placement of Data Processing Cloud Applications. In: Proceedings of the 2020 IEEE International Conference on Cloud Engineering (IC2E 2020), IEEE Computer Society, 2020 (pdf, bibTex).
  11. Weder, Benjamin; Breitenbücher, Uwe; Képes, Kálmán; Leymann, Frank; Zimmermann, Michael: Deployable Self-Contained Workflow Models. In: Proceedings of the 8th European Conference on Service-Oriented and Cloud Computing (ESOCC 2020), Springer International Publishing, 2020 (pdf, bibTex).
  12. Képes, Kálmán; Breitenbücher, Uwe; Leymann, Frank; Saatkamp, Karoline; Weder, Benjamin: Deployment of Distributed Applications Across Public and Private Networks. In: Proceedings of the 23rd International Enterprise Distributed Object Computing Conference (EDOC 2019), IEEE, 2019 (pdf, bibTex).
  13. Harzenetter, Lukas; Breitenbücher, Uwe; Leymann, Frank; Saatkamp, Karoline; Weder, Benjamin; Wurster, Michael: Automated Generation of Management Workflows for Applications Based on Deployment Models. In: Proceedings of the 2019 IEEE 23rd International Enterprise Distributed Object Computing Conference (EDOC 2019), IEEE, 2019 (pdf, bibTex).

Workshop Papers

  1. Salm, Marie; Barzen, Johanna; Leymann, Frank; Weder, Benjamin: Prioritization of Compiled Quantum Circuits for Different Quantum Computers. In: Proceedings of the 2022 IEEE International Conference on Software Analysis, Evolution and Reengineering (SANER 2022), IEEE, 2022 (pdf, bibTex).
  2. Vietz, Daniel; Barzen, Johanna; Leymann, Frank; Weder, Benjamin; Yussupov, Vladimir: An Exploratory Study on the Challenges of Engineering Quantum Applications in the Cloud. In: Proceedings of the 2nd Quantum Software Engineering and Technology Workshop (Q-SET 2021) co-located with IEEE International Conference on Quantum Computing and Engineering (QCE21), CEUR Workshop Proceedings, 2021 (pdf, bibTex).
  3. Weder, Benjamin; Barzen, Johanna; Leymann, Frank; Salm, Marie; Vietz, Daniel: The Quantum Software Lifecycle. In: Proceedings of the 1st ACM SIGSOFT International Workshop on Architectures and Paradigms for Engineering Quantum Software (APEQS 2020), ACM, 2020 (pdf, bibTex).
  4. Salm, Marie; Barzen, Johanna; Leymann, Frank; Weder, Benjamin: About a criterion of successfully executing a circuit in the NISQ era: What wd << 1/epsilon_eff really means. In: Proceedings of the 1st ACM SIGSOFT International Workshop on Architectures and Paradigms for Engineering Quantum Software (APEQS 2020), ACM, 2020 (pdf, bibTex).

Demonstrators

  1. Weder, Benjamin; Barzen, Johanna; Leymann, Frank: MODULO: Modeling, Transformation, and Deployment of Quantum Workflows. In: Proceedings of the 25th IEEE International Enterprise Distributed Object Computing Workshop (EDOCW 2021), IEEE Computer Society, 2021 (pdf, bibTex).
  2. Képes, Kálmán; Leymann, Frank; Weder, Benjamin; Wild, Karoline: SiDD: The Situation-Aware Distributed Deployment System. In: Service-Oriented Computing – ICSOC 2020 Workshops, Springer International Publishing, 2021 (pdf, bibTex).
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