When Abstraction Breaks Physics: Rethinking Modular Design in Quantum Software

October 21, 2025 Β· Declared Dead Β· πŸ› International Conference on Automated Software Engineering

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Authors Jianjun Zhao arXiv ID 2510.18557 Category cs.SE: Software Engineering Cross-listed quant-ph Citations 0 Venue International Conference on Automated Software Engineering Last Checked 4 months ago
Abstract
Abstraction is a fundamental principle in classical software engineering, which enables modularity, reusability, and scalability. However, quantum programs adhere to fundamentally different semantics, such as unitarity, entanglement, the no-cloning theorem, and the destructive nature of measurement, which introduce challenges to the safe use of classical abstraction mechanisms. This paper identifies a fundamental conflict in quantum software engineering: abstraction practices that are syntactically valid may violate the physical constraints of quantum computation. We present three classes of failure cases where naive abstraction breaks quantum semantics and propose a set of design principles for physically sound abstraction mechanisms. We further propose research directions, including quantum-specific type systems, effect annotations, and contract-based module design. Our goal is to initiate a systematic rethinking of abstraction in quantum software engineering, based on quantum semantics and considering engineering scalability.
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