Peel $\mid$ Pile? Cross-Framework Portability of Quantum Software

March 12, 2022 Β· Declared Dead Β· πŸ› 2022 IEEE 19th International Conference on Software Architecture Companion (ICSA-C)

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Authors Manuel SchΓΆnberger, Maja Franz, Stefanie Scherzinger, Wolfgang Mauerer arXiv ID 2203.06289 Category quant-ph: Quantum Computing Cross-listed cs.SE Citations 11 Venue 2022 IEEE 19th International Conference on Software Architecture Companion (ICSA-C) Last Checked 4 months ago
Abstract
In recent years, various vendors have made quantum software frameworks available. Yet with vendor-specific frameworks, code portability seems at risk, especially in a field where hardware and software libraries have not yet reached a consolidated state, and even foundational aspects of the technologies are still in flux. Accordingly, the development of vendor-independent quantum programming languages and frameworks is often suggested. This follows the established architectural pattern of introducing additional levels of abstraction into software stacks, thereby piling on layers of abstraction. Yet software architecture also provides seemingly less abstract alternatives, namely to focus on hardware-specific formulations of problems that peel off unnecessary layers. In this article, we quantitatively and experimentally explore these strategic alternatives, and compare popular quantum frameworks from the software implementation perspective. We find that for several specific, yet generalisable problems, the mathematical formulation of the problem to be solved is not just sufficiently abstract and serves as precise description, but is likewise concrete enough to allow for deriving framework-specific implementations with little effort. Additionally, we argue, based on analysing dozens of existing quantum codes, that porting between frameworks is actually low-effort, since the quantum- and framework-specific portions are very manageable in terms of size, commonly in the order of mere hundreds of lines of code. Given the current state-of-the-art in quantum programming practice, this leads us to argue in favour of peeling off unnecessary abstraction levels.
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