2025

July 7-12
Helsinki, Finland

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Part of the 2025 IEEE World Congress on SERVICES
July 7-12
Helsinki, Finland

Important Dates

Open Submission:
December 1, 2024

Abstract Submission Deadline:
February 24, 2025

Paper Submission Deadline:
March 3, 2025

Acceptance Notification:
May 6, 2025

QSW 2025 - CALL FOR PAPERS

All topics relevant to Quantum Software are of interest including, but not limited to the following:

Quantum Software Development

  • Development Process for Quantum Applications
  • Lifecycle Models for Quantum Applications
  • Data Preparation Techniques
  • Error Mitigation Techniques
  • Quantum Software Languages, Code Generators, Compilers, and Simulators 
  • Best Practices and Patterns for Quantum Applications 

 

Quantum Software Verification, Validation, and Evolution

  • Testing of Quantum Applications
  • Quantum Software Analysis and Mining
  • KPIs and Quality Metrics for Quantum Applications
  • Evolution and Re-engineering of Quantum Applications
  • Quantum Software Visualization and Comprehension
  • Quantum Software Maintenance, Repair, and Improvement
  • Quantum Software Performance and Benchmarking

 

Quantum Software Applications

  • Migration from Proof-of-Concept Quantum Applications to Production
  • Scalability of Quantum Applications (e.g., sensitivity of increasing qubits, gate fidelity)
  • Migration between different Quantum Technologies
  • Software-perspective Experience Reports of Applying Quantum Technologies
  • Quantum Machine Learning

 

Quantum in the Cloud

  • Quantum Computing as a Service
  • Interoperability and Portability of Quantum Software
  • Deployment Automation of Quantum Software
  • Cloud-based Quantum Software Development Environments
  • Hybrid Quantum Software
  • Architectural Styles of Hybrid Quantum-Classical Applications
  • Integration and Orchestration of Quantum/Classical Components 
  • Specification & Verification of Functional/Non-functional Requirements of Hybrid Applications

 

High Performance Computing with Quantum Computers

  • Impact of Hybrid Quantum-Classical workflows on HPC architectures
  • HPC architectures for leveraging Hybrid Quantum-Classical workflows
  • Lifecycle of HPC Quantum-Classical Hybrid Applications 

 

AI-Assisted Quantum Development

  • AI-Based Circuit Optimization and Synthesis
  • AI-Assisted Error Mitigation Techniques
  • AI-Powered Execution of Quantum Circuits
  • Limits of AI-Powered Simulation of Quantum Computers
  • AI-Driven Unitary Synthesis

 

Quantum Internet

  • Entanglement Distribution Schemes
  • Quantum Network Simulation and Emulation
  • Quantum Internet Applications
  • Quantum Software for Networking