QuantumEyes: Towards better interpretability of quantum circuits
Quantum computing offers significant speedup compared to classical computing, which has led to a growing interest among users in learning and applying quantum computing across various applications. However, quantum circuits, which are fundamental for implementing quantum algorithms, can be challengi...
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sg-smu-ink.sis_research-93342023-12-05T07:40:49Z QuantumEyes: Towards better interpretability of quantum circuits RUAN, Shaolun GUAN, Qiang GRIFFIN, Paul MAO, Ying WANG, Yong Quantum computing offers significant speedup compared to classical computing, which has led to a growing interest among users in learning and applying quantum computing across various applications. However, quantum circuits, which are fundamental for implementing quantum algorithms, can be challenging for users to understand due to their underlying logic, such as the temporal evolution of quantum states and the effect of quantum amplitudes on the probability of basis quantum states. To fill this research gap, we propose QuantumEyes, an interactive visual analytics system to enhance the interpretability of quantum circuits through both global and local levels. For the global-level analysis, we present three coupled visualizations to delineate the changes of quantum states and the underlying reasons: a Probability Summary View to overview the probability evolution of quantum states; a State Evolution View to enable an in-depth analysis of the influence of quantum gates on the quantum states; a Gate Explanation View to show the individual qubit states and facilitate a better understanding of the effect of quantum gates. For the local-level analysis, we design a novel geometrical visualization dandelion chart to explicitly reveal how the quantum amplitudes affect the probability of the quantum state. We thoroughly evaluated QuantumEyes as well as the novel dandelion chart integrated into it through two case studies on different types of quantum algorithms and in-depth expert interviews with 12 domain experts. The results demonstrate the effectiveness and usability of our approach in enhancing the interpretability of quantum circuits. 2023-11-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/8331 info:doi/10.1109/TVCG.2023.3332999 https://ink.library.smu.edu.sg/context/sis_research/article/9334/viewcontent/QuantunEyes_av_cc_by.pdf http://creativecommons.org/licenses/by/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University data visualization Interpretability quantum circuits quantum computing Numerical Analysis and Scientific Computing Software Engineering |
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data visualization Interpretability quantum circuits quantum computing Numerical Analysis and Scientific Computing Software Engineering RUAN, Shaolun GUAN, Qiang GRIFFIN, Paul MAO, Ying WANG, Yong QuantumEyes: Towards better interpretability of quantum circuits |
| description |
Quantum computing offers significant speedup compared to classical computing, which has led to a growing interest among users in learning and applying quantum computing across various applications. However, quantum circuits, which are fundamental for implementing quantum algorithms, can be challenging for users to understand due to their underlying logic, such as the temporal evolution of quantum states and the effect of quantum amplitudes on the probability of basis quantum states. To fill this research gap, we propose QuantumEyes, an interactive visual analytics system to enhance the interpretability of quantum circuits through both global and local levels. For the global-level analysis, we present three coupled visualizations to delineate the changes of quantum states and the underlying reasons: a Probability Summary View to overview the probability evolution of quantum states; a State Evolution View to enable an in-depth analysis of the influence of quantum gates on the quantum states; a Gate Explanation View to show the individual qubit states and facilitate a better understanding of the effect of quantum gates. For the local-level analysis, we design a novel geometrical visualization dandelion chart to explicitly reveal how the quantum amplitudes affect the probability of the quantum state. We thoroughly evaluated QuantumEyes as well as the novel dandelion chart integrated into it through two case studies on different types of quantum algorithms and in-depth expert interviews with 12 domain experts. The results demonstrate the effectiveness and usability of our approach in enhancing the interpretability of quantum circuits. |
| format |
text |
| author |
RUAN, Shaolun GUAN, Qiang GRIFFIN, Paul MAO, Ying WANG, Yong |
| author_facet |
RUAN, Shaolun GUAN, Qiang GRIFFIN, Paul MAO, Ying WANG, Yong |
| author_sort |
RUAN, Shaolun |
| title |
QuantumEyes: Towards better interpretability of quantum circuits |
| title_short |
QuantumEyes: Towards better interpretability of quantum circuits |
| title_full |
QuantumEyes: Towards better interpretability of quantum circuits |
| title_fullStr |
QuantumEyes: Towards better interpretability of quantum circuits |
| title_full_unstemmed |
QuantumEyes: Towards better interpretability of quantum circuits |
| title_sort |
quantumeyes: towards better interpretability of quantum circuits |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2023 |
| url |
https://ink.library.smu.edu.sg/sis_research/8331 https://ink.library.smu.edu.sg/context/sis_research/article/9334/viewcontent/QuantunEyes_av_cc_by.pdf |
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