* In 2018 IBM reported that there were over 80,000 users of the IBM Quantum Experience, who have collectively run over 3 million experiments.<ref>{{cite web|title=IBM Collaborating With Top Startups to Accelerate Quantum Computing|url=https://www.ibm.com/blogs/research/2018/04/ibm-startups-accelerate-quantum/|date=2018-04-05}}</ref>
* Many academic papers have been published by researchers who have conducted experiments using the service.<ref>{{cite web|title=QX Community papers|url=https://quantumexperience.ng.bluemix.net/qx/community?channel=papers}}</ref><ref>{{cite web|title=Reseach of the IBM Quantum Hub at the University of Melbourne|date=20 April 2021|url=https://www.unimelb.edu.au/quantumhub#research}}</ref><ref>{{cite journal|arxiv=1605.08922|last1=Rundle|first1=R. P.|last2=Tilma|first2=T.|last3=Samson|first3=J. H.|last4=Everitt|first4=M. J. |year=2017|title=Quantum state reconstruction made easy: a direct method for tomography|doi=10.1103/PhysRevA.96.022117|volume=96|issue=2|pages=022117|journal=Physical Review A|bibcode=2017PhRvA..96b2117R}}</ref><ref>{{cite arXiv|eprint=1606.09225|last=Corbett Moran |first=Christine |date=29 June 2016|title=Quintuple: a Python 5-qubit quantum computer simulator to facilitate cloud quantum computing |class=quant-ph }}</ref><ref>{{cite journal|last1=Huffman|first1=Emilie|last2=Mizel|first2=Ari|title=Violation of noninvasive macrorealism by a superconducting qubit: Implementation of a Leggett-Garg test that addresses the clumsiness loophole|journal=Physical Review A|date=29 March 2017|volume=95|issue=3|pages=032131|doi=10.1103/PhysRevA.95.032131|bibcode=2017PhRvA..95c2131H|arxiv=1609.05957}}</ref><ref>{{Cite journal|arxiv=1609.07459|last=Deffner|first=Sebastian|date=23 September 2016|title=Demonstration of entanglement assisted invariance on IBM's Quantum Experience|journal=Heliyon|volume=3|issue=11|pages=e00444|doi=10.1016/j.heliyon.2017.e00444|pmid=29159322|pmc=5683883}}</ref><ref>{{cite arXivjournal|eprintarxiv=1612.02886|date=9 December 2016|title=Homomorphic Encryption Experiments on IBM's Cloud Quantum Computing Platform|last1=Huang|first1=He-Liang|last2=Zhao|first2=You-Wei|last3=Li|first3=Tan|last4=Li|first4=Feng-Guang|last5=Du|first5=Yu-Tao|last6=Fu|first6=Xiang-Qun|last7=Zhang|first7=Shuo|last8=Wang|first8=Xiang|last9=Bao|first9=Wan-Su|classjournal=csFrontiers of Physics|volume=12|issue=1|page=120305|doi=10.CR1007/s11467-016-0643-9|bibcode=2017FrPhy..12l0305H|s2cid=17770053}}</ref><ref>{{cite journal|last1=Wootton|first1=James R|title=Demonstrating non-Abelian braiding of surface code defects in a five qubit experiment|journal=Quantum Science and Technology|date=1 March 2017|volume=2|issue=1|pages=015006|doi=10.1088/2058-9565/aa5c73|arxiv=1609.07774|bibcode=2017QS&T....2a5006W|s2cid=44370109}}</ref><ref>{{cite arXiv|eprint=1607.02398|date=8 July 2016|last=Fedortchenko|first=Serguei|title=A quantum teleportation experiment for undergraduate students|class=quant-ph}}</ref><ref>{{cite journal|last1=Berta|first1=Mario|last2=Wehner|first2=Stephanie|last3=Wilde|first3=Mark M|title=Entropic uncertainty and measurement reversibility|journal=New Journal of Physics|date=6 July 2016|volume=18|issue=7|pages=073004|doi=10.1088/1367-2630/18/7/073004|arxiv=1511.00267|bibcode=2016NJPh...18g3004B|s2cid=119186679}}</ref><ref>{{cite journal|arxiv=1611.07851|date=23 November 2016|title=Approximate Quantum Adders with Genetic Algorithms: An IBM Quantum Experience|last1=Li|first1=Rui|last2=Alvarez-Rodriguez|first2=Unai|last3=Lamata|first3=Lucas|last4=Solano|first4=Enrique|doi=10.1515/qmetro-2017-0001|volume=4|issue=1|journal=Quantum Measurements and Quantum Metrology|pages=1–7|bibcode=2017QMQM....4....1L|s2cid=108291239}}</ref><ref>{{Cite journal|arxiv=1701.02970|date=11 January 2017|title=Compressed quantum computation using the IBM Quantum Experience|journal=Phys. Rev. A|volume=95|issue=5|pages=052339|last1= Hebenstreit|first1=M.|last2= Alsina|first2=D.|last3= Latorre|first3=J. I.|last4= Kraus|author4-link=Barbara Kraus|first4=B.|doi=10.1103/PhysRevA.95.052339|s2cid=118958024}}</ref><ref>{{cite journal|last1=Alsina|first1=Daniel|last2=Latorre|first2=José Ignacio|title=Experimental test of Mermin inequalities on a five-qubit quantum computer|journal=Physical Review A|date=11 July 2016|volume=94|issue=1|pages=012314|doi=10.1103/PhysRevA.94.012314|arxiv=1605.04220|bibcode=2016PhRvA..94a2314A|s2cid=119189277}}</ref><ref>{{cite journal|last1=Linke|first1=Norbert M.|last2=Maslov|first2=Dmitri|last3=Roetteler|first3=Martin|last4=Debnath|first4=Shantanu|last5=Figgatt|first5=Caroline|last6=Landsman|first6=Kevin A.|last7=Wright|first7=Kenneth|last8=Monroe|first8=Christopher|title=Experimental comparison of two quantum computing architectures|journal=Proceedings of the National Academy of Sciences|date=28 March 2017|volume=114|issue=13|pages=3305–3310|doi=10.1073/pnas.1618020114|pmid=28325879|pmc=5380037|arxiv=1702.01852|doi-access=free}}</ref><ref>{{cite journal|last1=Devitt|first1=Simon J.|title=Performing quantum computing experiments in the cloud|journal=Physical Review A|date=29 September 2016|volume=94|issue=3|pages=032329|doi=10.1103/PhysRevA.94.032329|arxiv=1605.05709|bibcode=2016PhRvA..94c2329D|s2cid=119217150}}</ref><ref>{{Cite journal|arxiv=1612.08091|last1=Steiger|first1=Damian|last2=Haner|first2=Thomas|last3=Troyer|first3=Matthias |year=2018|title=ProjectQ: An Open Source Software Framework for Quantum Computing|journal=Quantum|volume=2|pages=49|doi=10.22331/q-2018-01-31-49|s2cid=6758479}}</ref><ref>{{cite journal|last1=Santos|first1=Alan C.|title=O Computador Quântico da IBM e o IBM Quantum Experience|journal=Revista Brasileira de Ensino de Física|date=2017|volume=39|issue=1|doi=10.1590/1806-9126-RBEF-2016-0155|arxiv=1610.06980}}</ref><ref>{{Cite journal|lastlast1=Caicedo-Ortiz|firstfirst1=H. E.|last2=Santiago-Cortés|first2=E.|date=2017|title=Construyendo compuertas cuánticas con IBM's cloud quantum computer|trans-title=Building quantum gates with IBM’s cloud quantum computer|url=http://jci.uniautonoma.edu.co/2017/2017-7.pdf|journal=Journal de Ciencia e Ingeniería|language=es|volume=9|pages=42–56|doi=10.46571/JCI.2017.1.7}}</ref>
* University professors have integrated examples and experiments based on the IBM Quantum service into their educational curricula.<ref>{{cite news|last1=Sheldon|first1=Sarah|title=Students try hand at cracking quantum code|url=https://www.ibm.com/blogs/research/2016/06/students-try-hand-cracking-quantum-code/|date=10 June 2016}}</ref>
* Dr. Christine Corbett Moran, a postdoctoral fellow at the [[California Institute of Technology]], used the IBM Quantum service while she was doing research in [[Antarctica]].<ref>{{cite news|last1=Nay|first1=Chris|title=Quantum Experiences: Q&A with Caltech’sCaltech's Christine Corbett Moran|url=https://www.ibm.com/blogs/research/2016/07/quantum-experiences-qa-caltechs-christine-corbett-moran/|date=26 July 2016}}</ref>
* Tara Tosic, a physics student at the [[École Polytechnique Fédérale de Lausanne]] (EPFL), used the IBM Quantum service while she was doing research in the [[Arctic]].<ref>{{Cite news|url=https://www.ibm.com/blogs/research/2018/11/ibm-q-arctic/|title=IBM Q in the Arctic: 76.4° North|last=Tosic|first=Tara|date=16 November 2018|work=IBM Research Blog}}</ref>
