. . . . . "\"_:FOR/020603\"" . "\"_:FOR/080110\"" . . "\"_:contact/elija.t.perrier@student.uts.edu.au\"" . "./" . . . . . . . "2022-03-28T04:39:03.553Z" . "2022-03-28T04:39:03.553Z" . "The QDataSet comprises 52 datasets based on simulations of one- and two-qubit systems evolving in the presence and/or absence of noise subject to a variety of controls. It has been developed to provide a large-scale set of datasets for the training, benchmarking and competitive development of classical and quantum algorithms for common tasks in quantum sciences, including quantum control, quantum tomography and noise spectroscopy.\n\nIt has been generated using customised code drawing upon base-level Python packages in order to facilitate interoperability and portability across common machine learning and quantum programming platforms. Each dataset consists of 10,000 samples which in turn comprise a range of data relevant to the training of machine learning algorithms for solving optimisation problems.\n\nThe data includes a range of information (stored in list, matrix or tensor format) regarding quantum systems and their evolution, such as: quantum state vectors, drift and control Hamiltonians and unitaries, Pauli measurement distributions, time series data, pulse sequence data for square and Gaussian pulses and noise and distortion data. The total compressed size of the QDataSet (using Pickle and zip formats) is around 14TB (uncompressed, around 100TB).\n\nResearchers can use the QDataSet in a variety of ways to design algorithms for solving problems in quantum control, quantum tomography and quantum circuit synthesis, together with algorithms focused on classifying or simulating such data. We also provide working examples of how to use the QDataSet in practice and its use in benchmarking certain algorithms.\n\nThe associated paper provides in-depth detail on the QDataSet for researchers who may be unfamiliar with quantum computing, together with specifications for domain experts within quantum engineering, quantum computation and quantum machine learning.\n\nThe dataset details are set out in the link to raw files.\n\n\n" . "" . . "[70967290a59911eca9a84993133e6628, {\"@id\":\"_:local-id:public_ocfl:70967290a59911eca9a84993133e6628\",\"@type\":\"PropertyValue\",\"value\":\"70967290a59911eca9a84993133e6628\",\"name\":\"public_ocfl\"}]" . . "machine learning" . "quantum" . "\"_:license/http://creativecommons.org/licenses/by/3.0/au\"" . . "QDataSet: Quantum Datasets for Machine Learning" . . "2021-01-01/2021-01-01" . "2022" . "2022" . . . . "This is the UTS Research Data Portal. For any questions, please get in touch with us at eResearch-it@uts.edu.au" . . "UTS Research Data Portal" . . . "Oni ocfl tools" . "git+https://github.com/Arkisto-Platform/oni-ocfl.git" . . . "https://arxiv.org/abs/2108.06661" . "QDataset: Quantum Datasets for Machine Learning" . . "" . "0a5ced406a603943296693967f241226" . . "application/pdf" . "2108.06661.pdf" . . . "Christopher.Ferrie@uts.edu.au" . "Ferrie" . "Christopher" . "Christopher.Ferrie@uts.edu.au" . "Christopher Ferrie" . . "The data is publicly available via the URL: https://cloudstor.aarnet.edu.au/plus/s/rxYKXBS7Tq0kB8o, If this is no longer accessible, please contact elija.t.perrier@student.uts.edu.au.\n" . "The data is described below:\n\nG 1q X : (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: none; (iv) No\ndistortion.\n\nG 1q X D : (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: none; (iv)\nDistortion.\n\nG 1q XY: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii) Noise: none;\n(iv) No distortion.\n\nG 1q XY D : (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii) Noise: none;\n(iv) Distortion.\n\nG 1q XY XZ N1N5: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii) Noise:\nN1 on x-axis, N5 on z-axis; (iv) No distortion.\n\nG 1q XY XZ N1N5 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii)\nNoise: N1 on x-axis, N5 on z-axis; (iv) No distortion.\n\nG 1q XY XZ N1N6: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii) Noise:\nN1 on x-axis, N6 on z-axis; (iv) Distortion.\n\nG 1q XY XZ N1N6 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii)\nNoise: N1 on x-axis, N6 on z-axis; (iv) No distortion.\n\nG 1q XY XZ N3N6: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii) Noise:\nN1 on x-axis, N6 on z-axis; (iv) Distortion.\n\nG 1q XY XZ N3N6 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii)\nNoise: N1 on x-axis, N6 on z-axis; (iv) No distortion.\n\nG 1q X Z N1 : (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N1 on z-axis;\n(iv) No distortion.\n\nG 1q X Z N1 D: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N1 on z-axis;\n(iv) Distortion.\n\nG 1q X Z N2: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N2 on z-axis;\n(iv) No distortion.\n\nG 1q X Z N2 D: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N2 on z-axis;\n(iv) Distortion.\n\nG 1q X Z N3: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N3 on z-axis;\n(iv) No distortion.\n\nG 1q X Z N3 D: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N3 on z-axis;\n(iv) Distortion.\n\nG 1q X Z N4: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N4 on z-axis;\n(iv) No distortion.\n\nG 1q X Z N4 D: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N4 on z-axis;\n(iv) Distortion.\n\nG 2q IX-XI IZ-ZI N1-N6: (i) Qubits: two; (ii) Control: x-axis on both qubits, Gaussian;\n(iii) Noise: N1 and N6 z-axis on each qubit; (iv) No distortion.\n\nG 2q IX-XI IZ-ZI N1-N6 D: (i) Qubits: two; (ii) Control: x-axis on both qubits,\nGaussian; (iii) Noise: N1 and N6 z-axis on each qubit; (iv) Distortion.\n\nG 2q IX-XI-XX: (i) Qubits: two; (ii) Control: single x-axis control on both qubits and\nx-axis interacting control, Gaussian; (iii) Noise: none; (iv) No distortion.\n\nG 2q IX-XI-XX D: (i) Qubits: two; (ii) Control: single x-axis control on both qubits and\nx-axis interacting control, Gaussian; (iii) Noise: none; (iv) Distortion.\n\nG 2q IX-XI-XX IZZI N1-N5: (i) Qubits: two; (ii) Control: single x-axis control on both\nqubits and x-axis interacting control, Gaussian; (iii) Noise: N1 and N5 on z-axis\nnoise on each qubit; (iv) No distortion.\n\nG 2q IX-XI-XX IZZI N1-N5: (i) Qubits: two; (ii) Control: single x-axis control on both\nqubits and x-axis interacting control, Gaussian; (iii) Noise: N1 and N5 on z-axis\nnoise on each qubit; (iv) Distortion.\n\nS 1q X: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: none; (iv) No distortion.\n\nS 1q X D: (i) Qubits: one; (ii) Control: x-axis, Gaussquaresian; (iii) Noise: none; (iv)\nDistortion.\n\nS 1q XY: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise: none; (iv)\nNo distortion.\n\nS 1q XY D: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussquaresian; (iii) Noise:\nnone; (iv) Distortion.\n\nS 1q XY XZ N1N5: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise: N1\non x-axis, N5 on z-axis; (iv) No distortion.\n\nS 1q XY XZ N1N5 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, Gaussian; (iii)\nNoise: N1 on x-axis, N5 on z-axis; (iv) No distortion.\n\nS 1q XY XZ N1N6: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise: N1\non x-axis, N6 on z-axis; (iv) Distortion.\n\nS 1q XY XZ N1N6 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise:\nN1 on x-axis, N6 on z-axis; (iv) No distortion.\n\nS 1q XY XZ N3N6: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise:\nN1 on x-axis, N6 on z-axis; (iv) Distortion.\n\nS 1q XY XZ N3N6 D: (i) Qubits: one; (ii) Control: x-axis and y-axis, square; (iii) Noise:\nN1 on x-axis, N6 on z-axis; (iv) No distortion.\n\nS 1q X Z N1: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N1 on z-axis; (iv)\nNo distortion.\n\nS 1q X Z N1 D: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N1 on z-axis; (iv)\nDistortion.\n\nS 1q X Z N2 : (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N2 on z-axis; (iv)\nNo distortion.\n\nS 1q X Z N2 D: (i) Qubits: one; (ii) Control: x-axis, Gaussian; (iii) Noise: N2 on z-axis;\n(iv) Distortion.\n\nS 1q X Z N3: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N3 on z-axis; (iv)\nNo distortion.\n\nS 1q X Z N3 D: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N3 on z-axis; (iv)\nDistortion.\n\nS 1q X Z N4: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N4 on z-axis; (iv)\nNo distortion.\n\nS 1q X Z N4 D: (i) Qubits: one; (ii) Control: x-axis, square; (iii) Noise: N4 on z-axis;\n(iv) Distortion.\n\nS 2q IX-XI IZ-ZI N1-N6: (i) Qubits: two; (ii) Control: x-axis on both qubits, square; (iii)\nNoise: N1 and N6 z-axis on each qubit; (iv) No distortion.\n\nS 2q IX-XI IZ-ZI N1-N6 D: (i) Qubits: two; (ii) Control: x-axis on both qubits, square;\n(iii) Noise: N1 and N6 z-axis on each qubit; (iv) Distortion.\n\nS 2q IX-XI-XX: (i) Qubits: two; (ii) Control: single x-axis control on both qubits and\nx-axis interacting control, square; (iii) Noise: none; (iv) No distortion.\n\nS 2q IX-XI-XX D: (i) Qubits: two; (ii) Control: single x-axis control on both qubits and\nx-axis interacting control, square; (iii) Noise: none; (iv) Distortion.\n\nS 2q IX-XI-XX IZZI N1-N5: (i) Qubits: two; (ii) Control: x-axis on both qubits and xaxis interacting control, square; (iii) Noise: N1 and N5 z-axis on each qubit; (iv) No\ndistortion.\n\nS 2q IX-XI-XX IZZI N1-N5 D: (i) Qubits: two; (ii) Control: x-axis on both qubits and xaxis interacting control, square; (iii) Noise: N1 and N5 z-axis on each qubit; (iv)\nDistortion.\n\nS 2q IX-XI-XX IZZI N1-N6: (i) Qubits: two; (ii) Control: x-axis on both qubits and xaxis interacting control, square; (iii) Noise: N1 and N6 z-axis on each qubit; (iv) No\ndistortion.\n\nS 2q IX-XI-XX IZZI N1-N6 D: (i) Qubits: two; (ii) Control: x-axis on both qubits and xaxis interacting control, square; (iii) Noise: N1 and N6 z-axis on each qubit; (iv)\nDistortion." . "" . "Link to Raw Files" . . . "akram.youssry@eng.asu.edu.eg" . "Youssry" . "Akram" . "akram.youssry@eng.asu.edu.eg" . "Akram Youssry" . . . "dacheng.tao@sydney.edu.au" . "Tao" . "Dacheng" . "dacheng.tao@sydney.edu.au" . "Dacheng Tao" . . . "_:contact/elija.t.perrier@student.uts.edu.au" . "elija.t.perrier@student.uts.edu.au" . "Perrier" . "Elija" . "elija.t.perrier@student.uts.edu.au" . "Elija Perrier" . . . "Data record created" . "2022-03-28T04:39:03.553Z" . "Create" . . . . "2022-03-28T04:39:03.553Z" . "Publish" . . . . "Created RO-Crate using oni-ocfl" . . . . . "ro-crate-metadata.json" . . . "ro-crate-metadata.jsonld" . . "" . "simon.kruik@uts.edu.au" . "" . "" . "" . "" . . "repository" . "arcp://name,uts_public_data_repo/70967290a59911eca9a84993133e6628" . . "You are free to share (copy and redistribute the material in any medium or format) and adapt (remix, transform and build upon the material for any purpose, even commercially)." . "Attribution 4.0 International (CC BY 4.0)" . . "Data Manager" . "elija.t.perrier@student.uts.edu.au" . "_:contact/elija.t.perrier@student.uts.edu.au" . "" . . "_:FOR/020603" . "020603 - Quantum Information, Computation and Communication" . "_:FOR/020603" . . "_:FOR/080110" . "080110 - Simulation and Modelling" . "_:FOR/080110" . . "http://creativecommons.org/licenses/by/3.0/au" . "http://creativecommons.org/licenses/by/3.0/au" . . "https://www.uts.edu.au/" . "University of Technology Sydney" . . . "2025-07-18T14:01:34.444+02:00"^^ . . "RSA" . "MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEApbztY8l4lWqVF8L/djJ1knoc7Nm5kVHT9NqSe0fXO9Hel3DRO2IyxJYVEvThhllBuHNtZK32ww23AlglArokhxPCSBPKvVgQS6r46khF2D85tnd5htaBq+bfjMqL+LDlQh3LdBpAqrLmsmfsPkU65CCxSGufBs2v39p41z5FkRXE1JKJ/UZe+1OUq+CibjOfo1g1Nz6HO0fZML7GnQBj5X9lvU0llmDk/sqdNMxAJDSQh2/Zh0kz7+Dm7vJOx3mNEXU4FuzVzKBYwTotvEcJod7Vot1fPOJXPGoNDVNKMQffCala9o4pqT739LS7R7ZFVMjzPkLUxYCjnEgOZI5t6wIDAQAB" . 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