This thesis focuses on enhancing the sys-sage library to extend its functionalities for quantum systems by serving as a unified interface for various quantum technologies. The primary goal is to facilitate the management and representation of these technologies by creating static and dynamic topologies. The work explores the integration of the Quantum Device Management Interface (QDMI) within the compiler toolchain of the Munich Quantum Software Stack (MQSS), with a specific implementation proposed for the IBM backend. Significant modifications and extensions to the sys-sage library are also introduced to enable a higher-level representation of quantum systems. These extensions are complemented by proposed API calls designed to streamline the creation and management of these representations from a user’s perspective. Performance and integration aspects of sys-sage within the broader Munich Quantum Software Stack (MQSS) ecosystem are examined, highlighting the potential for enhanced interoperability and functionality across different quantum computing tools. The results demonstrate the feasibility and effectiveness of the proposed enhancements, offering a robust framework for quantum system management.     «

This thesis focuses on enhancing the sys-sage library to extend its functionalities for quantum systems by serving as a unified interface for various quantum technologies. The primary goal is to facilitate the management and representation of these technologies by creating static and dynamic topologies. The work explores the integration of the Quantum Device Management Interface (QDMI) within the compiler toolchain of the Munich Quantum Software Stack (MQSS), with a specific implementation pro...     »