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Higgs analysis with quantum classifiers
We have developed two quantum classifier models for the ttH classification problem, both of which fall into the category of hybrid quantumclassical algorithms for Noisy Intermediate Scale Quantum devices (NISQ). Our results, along with other studies, serve as a proof of concept that Quantum Machine...
| Autores principales: | , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2021
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1051/epjconf/202125103070 http://cds.cern.ch/record/2764782 |
| _version_ | 1780971127027269632 |
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| author | Belis, Vasileios González-Castillo, Samuel Reissel, Christina Vallecorsa, Sofia Combarro, Elías F. Dissertori, Günther Reiter, Florentin |
| author_facet | Belis, Vasileios González-Castillo, Samuel Reissel, Christina Vallecorsa, Sofia Combarro, Elías F. Dissertori, Günther Reiter, Florentin |
| author_sort | Belis, Vasileios |
| collection | CERN |
| description | We have developed two quantum classifier models for the ttH classification problem, both of which fall into the category of hybrid quantumclassical algorithms for Noisy Intermediate Scale Quantum devices (NISQ). Our results, along with other studies, serve as a proof of concept that Quantum Machine Learning (QML) methods can have similar or better performance, in specific cases of low number of training samples, with respect to conventional ML methods even with a limited number of qubits available in current hardware. To utilise algorithms with a low number of qubits — to accommodate for limitations in both simulation hardware and real quantum hardware — we investigated different feature reduction methods. Their impact on the performance of both the classical and quantum models was assessed. We addressed different implementations of two QML models, representative of the two main approaches to supervised quantum machine learning today: a Quantum Support Vector Machine (QSVM), a kernel-based method, and a Variational Quantum Circuit (VQC), a variational approach. |
| id | cern-2764782 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2021 |
| record_format | invenio |
| spelling | cern-27647822023-02-25T03:39:17Zdoi:10.1051/epjconf/202125103070http://cds.cern.ch/record/2764782engBelis, VasileiosGonzález-Castillo, SamuelReissel, ChristinaVallecorsa, SofiaCombarro, Elías F.Dissertori, GüntherReiter, FlorentinHiggs analysis with quantum classifiersphysics.data-anOther Fields of Physicshep-exParticle Physics - Experimentcs.LGComputing and Computersquant-phGeneral Theoretical PhysicsWe have developed two quantum classifier models for the ttH classification problem, both of which fall into the category of hybrid quantumclassical algorithms for Noisy Intermediate Scale Quantum devices (NISQ). Our results, along with other studies, serve as a proof of concept that Quantum Machine Learning (QML) methods can have similar or better performance, in specific cases of low number of training samples, with respect to conventional ML methods even with a limited number of qubits available in current hardware. To utilise algorithms with a low number of qubits — to accommodate for limitations in both simulation hardware and real quantum hardware — we investigated different feature reduction methods. Their impact on the performance of both the classical and quantum models was assessed. We addressed different implementations of two QML models, representative of the two main approaches to supervised quantum machine learning today: a Quantum Support Vector Machine (QSVM), a kernel-based method, and a Variational Quantum Circuit (VQC), a variational approach.We have developed two quantum classifier models for the $t\bar{t}H(b\bar{b})$ classification problem, both of which fall into the category of hybrid quantum-classical algorithms for Noisy Intermediate Scale Quantum devices (NISQ). Our results, along with other studies, serve as a proof of concept that Quantum Machine Learning (QML) methods can have similar or better performance, in specific cases of low number of training samples, with respect to conventional ML methods even with a limited number of qubits available in current hardware. To utilise algorithms with a low number of qubits -- to accommodate for limitations in both simulation hardware and real quantum hardware -- we investigated different feature reduction methods. Their impact on the performance of both the classical and quantum models was assessed. We addressed different implementations of two QML models, representative of the two main approaches to supervised quantum machine learning today: a Quantum Support Vector Machine (QSVM), a kernel-based method, and a Variational Quantum Circuit (VQC), a variational approach.arXiv:2104.07692oai:cds.cern.ch:27647822021 |
| spellingShingle | physics.data-an Other Fields of Physics hep-ex Particle Physics - Experiment cs.LG Computing and Computers quant-ph General Theoretical Physics Belis, Vasileios González-Castillo, Samuel Reissel, Christina Vallecorsa, Sofia Combarro, Elías F. Dissertori, Günther Reiter, Florentin Higgs analysis with quantum classifiers |
| title | Higgs analysis with quantum classifiers |
| title_full | Higgs analysis with quantum classifiers |
| title_fullStr | Higgs analysis with quantum classifiers |
| title_full_unstemmed | Higgs analysis with quantum classifiers |
| title_short | Higgs analysis with quantum classifiers |
| title_sort | higgs analysis with quantum classifiers |
| topic | physics.data-an Other Fields of Physics hep-ex Particle Physics - Experiment cs.LG Computing and Computers quant-ph General Theoretical Physics |
| url | https://dx.doi.org/10.1051/epjconf/202125103070 http://cds.cern.ch/record/2764782 |
| work_keys_str_mv | AT belisvasileios higgsanalysiswithquantumclassifiers AT gonzalezcastillosamuel higgsanalysiswithquantumclassifiers AT reisselchristina higgsanalysiswithquantumclassifiers AT vallecorsasofia higgsanalysiswithquantumclassifiers AT combarroeliasf higgsanalysiswithquantumclassifiers AT dissertorigunther higgsanalysiswithquantumclassifiers AT reiterflorentin higgsanalysiswithquantumclassifiers |