Litcius/Paper detail

Towards the Munich Quantum Software Stack: Enabling Efficient Access and Tool Support for Quantum Computers

Martin Schulz, Laura Schulz, Martin Ruefenacht, Robert Wille

202311 citationsDOI

Abstract

As quantum computing systems mature and move from laboratories to production computing environments, corresponding software stacks are becoming key for their successful utilization. In particular, the expected use of quantum systems as HPC accelerators requires a deep integration with the existing and widely deployed HPC software stacks. Additionally, new requirements such as dynamic compilation and new challenges for tools and programming models must be considered. We tackle these challenges by developing the Munich Quantum Software Stack—a comprehensive initiative by the Munich Quantum Valley to offer a flexible, efficient, and user-oriented software environment. In this poster, we describe the core components and workflows, and how they will enable this transformation from quantum experiments to quantum accelerators.

Topics & Concepts

Computer scienceQuantum computerSoftwareWorkflowKey (lock)QuantumSoftware frameworkStack (abstract data type)Software engineeringSoftware developmentComputer architectureDistributed computingSoftware constructionOperating systemDatabasePhysicsQuantum mechanicsQuantum Computing Algorithms and ArchitectureAdvanced Data Storage TechnologiesCloud Computing and Resource Management