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PristiQ: A Co-Design Framework for Preserving Data Security of Quantum Learning in the Cloud
April 23, 2024, 4:11 a.m. | Zhepeng Wang, Yi Sheng, Nirajan Koirala, Kanad Basu, Taeho Jung, Cheng-Chang Lu, Weiwen Jiang
cs.CR updates on arXiv.org arxiv.org
Abstract: Benefiting from cloud computing, today's early-stage quantum computers can be remotely accessed via the cloud services, known as Quantum-as-a-Service (QaaS). However, it poses a high risk of data leakage in quantum machine learning (QML). To run a QML model with QaaS, users need to locally compile their quantum circuits including the subcircuit of data encoding first and then send the compiled circuit to the QaaS provider for execution. If the QaaS provider is untrustworthy, the …
arxiv as-a-service can cloud cloud computing cloud services computers computing cs.ai cs.cr cs.et cs.lg data data leakage data security design framework high machine machine learning qml quant-ph quantum quantum computers risk run security service services stage today
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