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Main Authors: Hopf, Patrick, Stern, Sebastian, Wille, Robert, Burgholzer, Lukas
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.05138
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author Hopf, Patrick
Stern, Sebastian
Wille, Robert
Burgholzer, Lukas
author_facet Hopf, Patrick
Stern, Sebastian
Wille, Robert
Burgholzer, Lukas
contents With an increasingly diverse portfolio of quantum backends, the adoption of standardized interfaces has become a key prerequisite for scalable access and interoperability within quantum software stacks. The Quantum Device Management Interface (QDMI) addresses this challenge and is emerging as one of the de facto standards for hardware abstraction, enabling the unified management not only of individual Quantum Processing Units (QPUs) but also of complete full-stack cloud services. This paper presents a case study demonstrating the integration of QDMI with Amazon Braket, a quantum computing cloud service that provides a single access point to a wide range of hardware technologies. By treating the cloud service itself as a unified device, the proposed implementation enables management of the complete task lifecycle - ranging from authentication and circuit submission to result retrieval - across Braket's heterogeneous set of simulators and hardware backends. We detail the engineering insights gained from this integration and present a hands-on example workflow, ultimately paving the way for integrated access to cloud-hosted quantum resources from QDMI-enabled software stacks.
format Preprint
id arxiv_https___arxiv_org_abs_2603_05138
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Standardizing Access to Heterogeneous Quantum Backends: A Case Study on Cloud Service Integration with QDMI
Hopf, Patrick
Stern, Sebastian
Wille, Robert
Burgholzer, Lukas
Quantum Physics
With an increasingly diverse portfolio of quantum backends, the adoption of standardized interfaces has become a key prerequisite for scalable access and interoperability within quantum software stacks. The Quantum Device Management Interface (QDMI) addresses this challenge and is emerging as one of the de facto standards for hardware abstraction, enabling the unified management not only of individual Quantum Processing Units (QPUs) but also of complete full-stack cloud services. This paper presents a case study demonstrating the integration of QDMI with Amazon Braket, a quantum computing cloud service that provides a single access point to a wide range of hardware technologies. By treating the cloud service itself as a unified device, the proposed implementation enables management of the complete task lifecycle - ranging from authentication and circuit submission to result retrieval - across Braket's heterogeneous set of simulators and hardware backends. We detail the engineering insights gained from this integration and present a hands-on example workflow, ultimately paving the way for integrated access to cloud-hosted quantum resources from QDMI-enabled software stacks.
title Standardizing Access to Heterogeneous Quantum Backends: A Case Study on Cloud Service Integration with QDMI
topic Quantum Physics
url https://arxiv.org/abs/2603.05138