Visible to the public Quantum Ciphertext Dimension Reduction Scheme for Homomorphic Encrypted Data

TitleQuantum Ciphertext Dimension Reduction Scheme for Homomorphic Encrypted Data
Publication TypeConference Paper
Year of Publication2021
AuthorsGong, Changqing, Dong, Zhaoyang, Gani, Abdullah, Qi, Han
Conference Name2021 IEEE 20th International Conference on Trust, Security and Privacy in Computing and Communications (TrustCom)
Keywordscloud computing, Computing Theory, dimensionality reduction, feature extraction, IBM Quantum Experience, machine learning algorithms, privacy protection, pubcrawl, Quantum cloud computing, quantum computing, quantum computing security, Quantum homomorphic encryption, quantum machine learning, quantum state, Scalability, Tomography, Trust
Abstract

At present, in the face of the huge and complex data in cloud computing, the parallel computing ability of quantum computing is particularly important. Quantum principal component analysis algorithm is used as a method of quantum state tomography. We perform feature extraction on the eigenvalue matrix of the density matrix after feature decomposition to achieve dimensionality reduction, proposed quantum principal component extraction algorithm (QPCE). Compared with the classic algorithm, this algorithm achieves an exponential speedup under certain conditions. The specific realization of the quantum circuit is given. And considering the limited computing power of the client, we propose a quantum homomorphic ciphertext dimension reduction scheme (QHEDR), the client can encrypt the quantum data and upload it to the cloud for computing. And through the quantum homomorphic encryption scheme to ensure security. After the calculation is completed, the client updates the key locally and decrypts the ciphertext result. We have implemented a quantum ciphertext dimensionality reduction scheme implemented in the quantum cloud, which does not require interaction and ensures safety. In addition, we have carried out experimental verification on the QPCE algorithm on IBM's real computing platform. Experimental results show that the algorithm can perform ciphertext dimension reduction safely and effectively.

DOI10.1109/TrustCom53373.2021.00127
Citation Keygong_quantum_2021