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#ibmquantum — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #ibmquantum, aggregated by home.social.

  1. Exactly 10 years ago, the first #IBM Quantum System came online, accessible to the community via the cloud. Nowadays there are two data centres (US & EU) with the most performant quantum computers in the world.

    Try it out and run your first quantum circuit today for free: ibm.com/quantum/blog/open-plan

    #DecadeofQuantum #IBMQuantum #quantumcomputing #IQP #QuantumSystem

  2. Exactly 10 years ago, the first #IBM Quantum System came online, accessible to the community via the cloud. Nowadays there are two data centres (US & EU) with the most performant quantum computers in the world.

    Try it out and run your first quantum circuit today for free: ibm.com/quantum/blog/open-plan

    #DecadeofQuantum #IBMQuantum #quantumcomputing #IQP #QuantumSystem

  3. Exactly 10 years ago, the first #IBM Quantum System came online, accessible to the community via the cloud. Nowadays there are two data centres (US & EU) with the most performant quantum computers in the world.

    Try it out and run your first quantum circuit today for free: ibm.com/quantum/blog/open-plan

    #DecadeofQuantum #IBMQuantum #quantumcomputing #IQP #QuantumSystem

  4. Exactly 10 years ago, the first #IBM Quantum System came online, accessible to the community via the cloud. Nowadays there are two data centres (US & EU) with the most performant quantum computers in the world.

    Try it out and run your first quantum circuit today for free: ibm.com/quantum/blog/open-plan

    #DecadeofQuantum #IBMQuantum #quantumcomputing #IQP #QuantumSystem

  5. Exactly 10 years ago, the first #IBM Quantum System came online, accessible to the community via the cloud. Nowadays there are two data centres (US & EU) with the most performant quantum computers in the world.

    Try it out and run your first quantum circuit today for free: ibm.com/quantum/blog/open-plan

    #DecadeofQuantum #IBMQuantum #quantumcomputing #IQP #QuantumSystem

  6. IBM’s Quantum And AI Push Meets Healthcare As Valuation Shows Upside Potential

    Get insights on thousands of stocks from the global community of over 7 million individual investors at Simply…
    #NewsBeep #News #Healthcare #AU #Australia #collaborations #globalcommunity #Health #IBMIllinoisDiscoveryAcceleratorInstitute #IBMQuantum #individualinvestors #quantumcomputing
    newsbeep.com/au/613309/

  7. #ParityQC just came out with the largest #QFT on an #IBM Quantum device. The QFT was basically an example of how their ParityQC architecture is able to push the limits on what we can do with our #NISQ devices today.

    → press release: parityqc.com/parityqc-set-new-
    → pre-print: arxiv.org/abs/2604.12465

    #quantumcomputing #IBMQuantum

  8. #ParityQC just came out with the largest #QFT on an #IBM Quantum device. The QFT was basically an example of how their ParityQC architecture is able to push the limits on what we can do with our #NISQ devices today.

    → press release: parityqc.com/parityqc-set-new-
    → pre-print: arxiv.org/abs/2604.12465

    #quantumcomputing #IBMQuantum

  9. #ParityQC just came out with the largest #QFT on an #IBM Quantum device. The QFT was basically an example of how their ParityQC architecture is able to push the limits on what we can do with our #NISQ devices today.

    → press release: parityqc.com/parityqc-set-new-
    → pre-print: arxiv.org/abs/2604.12465

    #quantumcomputing #IBMQuantum

  10. #ParityQC just came out with the largest #QFT on an #IBM Quantum device. The QFT was basically an example of how their ParityQC architecture is able to push the limits on what we can do with our #NISQ devices today.

    → press release: parityqc.com/parityqc-set-new-
    → pre-print: arxiv.org/abs/2604.12465

    #quantumcomputing #IBMQuantum

  11. #ParityQC just came out with the largest #QFT on an #IBM Quantum device. The QFT was basically an example of how their ParityQC architecture is able to push the limits on what we can do with our #NISQ devices today.

    → press release: parityqc.com/parityqc-set-new-
    → pre-print: arxiv.org/abs/2604.12465

    #quantumcomputing #IBMQuantum

  12. I stress-tested Google’s new Colab MCP server with a real quantum workflow.

    An AI agent took a blank Colab notebook and:
    • installed dependencies
    • fixed Qiskit compatibility issues
    • ran a 15-point H2 scan
    • submitted a real job to IBM Quantum hardware

    This is where Colab gets interesting: not just notebook editing, but agent-operated cloud execution.

    Article on @thepracticaldev
    dev.to/axrisi/i-stress-tested-

    #AI #MCP #Colab #QuantumComputing #Qiskit #IBMQuantum #Python #CloudComputing

  13. @gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
    #QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
    github.com/JavierMartinAlonso1
    LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
    Collider data → #TensorNetworks → IBM QPUs
    doi.org/10.5281/zenodo.18672796
    #QuantumComputing

  14. @gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
    #QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
    github.com/JavierMartinAlonso1
    LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
    Collider data → #TensorNetworks → IBM QPUs
    doi.org/10.5281/zenodo.18672796
    #QuantumComputing

  15. @gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
    #QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
    github.com/JavierMartinAlonso1
    LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
    Collider data → #TensorNetworks → IBM QPUs
    doi.org/10.5281/zenodo.18672796
    #QuantumComputing

  16. @gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
    #QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
    github.com/JavierMartinAlonso1
    LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
    Collider data → #TensorNetworks → IBM QPUs
    doi.org/10.5281/zenodo.18672796
    #QuantumComputing

  17. @gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
    #QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
    github.com/JavierMartinAlonso1
    LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
    Collider data → #TensorNetworks → IBM QPUs
    doi.org/10.5281/zenodo.18672796
    #QuantumComputing

  18. RE: mastodon.social/@jmma1980/1159

    Step beyond toy models into a hybrid pipeline with real data. New repo: tensor-network prefiltering of #BelleII events (#SeeMPS, MPS/fermionic Gaussian states) selects entanglement‑relevant kinematics, then runs on #Qiskit / #IBMQuantum Heron to test squeezing channels and entanglement dominance under noise. From collider data → #TensorNetworks → IBM QPUs doi.org/10.5281/zenodo.18672796 github.com/JavierMartinAlonso1. #QCD #HighEnergyPhysics #QuantumEntanglement #SqueezedStates #MPS #BelleII #QuantumComputing

  19. RE: mastodon.social/@jmma1980/1159

    Step beyond toy models into a hybrid pipeline with real data. New repo: tensor-network prefiltering of #BelleII events (#SeeMPS, MPS/fermionic Gaussian states) selects entanglement‑relevant kinematics, then runs on #Qiskit / #IBMQuantum Heron to test squeezing channels and entanglement dominance under noise. From collider data → #TensorNetworks → IBM QPUs doi.org/10.5281/zenodo.18672796 github.com/JavierMartinAlonso1. #QCD #HighEnergyPhysics #QuantumEntanglement #SqueezedStates #MPS #BelleII #QuantumComputing

  20. Want to get involved in but feel it’s out of reach? 🧑‍💻

    Projects like and are lowering barriers through , building global talent pipelines, and welcoming new .

    Learn how they’re doing it from Linux Professional Institute (LPI) Editor Andrew Oram: lpi.org/s11i

    @LPI @ClassiqTechnologies

  21. New #openaccess publication #SciPost #Physics Core

    A solvable model for graph state decoherence dynamics

    Jérôme Houdayer, Haggai Landa, Grégoire Misguich
    SciPost Phys. Core 7, 009 (2024)
    scipost.org/SciPostPhysCore.7.

    #ParisSaclayUniversity #IBMQuantum

  22. Curious about quantum computing's real-world applications? Check out the MPI-PKS talk by Prof.Smith from the University of Nottingham, and learn with hands-on examples using the IBM Cloud quantum computers and @qiskit python library🧑‍💻

    🔗 enabla.com/set/92/pub/642/abou

    The lecture covers the basics of quantum mechanics necessary to understand quantum circuits and explores two applications in many-body physics: finding ground states and simulating non-equilibrium dynamics. Perfect for beginners and experts alike. Don't miss out!

    All #Enabla lectures are #free and #OpenAccess. If you like what we're doing, please support us by liking, sharing, following this account, leaving some comments under this post & asking questions on Enabla. Any of these actions help us a lot; thank you!🙏

    #QuantumComputing #IBMQuantum #Qiskit #QuantumCircuits #NISQ #ManyBodyPhysics

  23. Curious about quantum computing's real-world applications? Check out the MPI-PKS talk by Prof.Smith from the University of Nottingham, and learn with hands-on examples using the IBM Cloud quantum computers and @qiskit python library🧑‍💻

    🔗 enabla.com/set/92/pub/642/abou

    The lecture covers the basics of quantum mechanics necessary to understand quantum circuits and explores two applications in many-body physics: finding ground states and simulating non-equilibrium dynamics. Perfect for beginners and experts alike. Don't miss out!

    All #Enabla lectures are #free and #OpenAccess. If you like what we're doing, please support us by liking, sharing, following this account, leaving some comments under this post & asking questions on Enabla. Any of these actions help us a lot; thank you!🙏

    #QuantumComputing #IBMQuantum #Qiskit #QuantumCircuits #NISQ #ManyBodyPhysics

  24. Curious about quantum computing's real-world applications? Check out the MPI-PKS talk by Prof.Smith from the University of Nottingham, and learn with hands-on examples using the IBM Cloud quantum computers and @qiskit python library🧑‍💻

    🔗 enabla.com/set/92/pub/642/abou

    The lecture covers the basics of quantum mechanics necessary to understand quantum circuits and explores two applications in many-body physics: finding ground states and simulating non-equilibrium dynamics. Perfect for beginners and experts alike. Don't miss out!

    All #Enabla lectures are #free and #OpenAccess. If you like what we're doing, please support us by liking, sharing, following this account, leaving some comments under this post & asking questions on Enabla. Any of these actions help us a lot; thank you!🙏

    #QuantumComputing #IBMQuantum #Qiskit #QuantumCircuits #NISQ #ManyBodyPhysics

  25. Curious about quantum computing's real-world applications? Check out the MPI-PKS talk by Prof.Smith from the University of Nottingham, and learn with hands-on examples using the IBM Cloud quantum computers and @qiskit python library🧑‍💻

    🔗 enabla.com/set/92/pub/642/abou

    The lecture covers the basics of quantum mechanics necessary to understand quantum circuits and explores two applications in many-body physics: finding ground states and simulating non-equilibrium dynamics. Perfect for beginners and experts alike. Don't miss out!

    All #Enabla lectures are #free and #OpenAccess. If you like what we're doing, please support us by liking, sharing, following this account, leaving some comments under this post & asking questions on Enabla. Any of these actions help us a lot; thank you!🙏

    #QuantumComputing #IBMQuantum #Qiskit #QuantumCircuits #NISQ #ManyBodyPhysics

  26. Quantum users pov:
    - Enterprise developers and SW integration 👩‍💻
    - Quantum Computational Scientists 👨‍🔬
    - Quantum Physicist 👩‍🔬

    #ibmquantum

  27. New #openaccess publication #SciPost #Physics Core

    Nonlocal correlations in noisy multiqubit systems simulated using matrix product operators

    Haggai Landa, Grégoire Misguich
    SciPost Phys. Core 6, 037 (2023)
    scipost.org/SciPostPhysCore.6.

    #IBMQuantum
    #IPhT #ANR #ARO #ARL

  28. I’ve seen many fridges, but inspiring to see this state-of-art #quantum computer at the @ClevelandClinic in the center hall with @jaygambetta, @ITavernelli, Jamie Smith, Anh Pham @Deloitte, …

    Learned lots on #Healthcare future and intersection w/#QuantumComputing. #IBMQuantum t.co/hljK6MFm69

  29. New #openaccess publication #SciPost #Physics

    Codimension-2 defects and higher symmetries in (3+1)D topological phases

    Maissam Barkeshli, Yu-An Chen, Sheng-Jie Huang, Ryohei Kobayashi, Nathanan Tantivasadakarn, Guanyu Zhu
    SciPost Phys. 14, 065 (2023)
    scipost.org/SciPostPhys.14.4.0

    #JointQuantumInstitute
    #UMCP
    #HarvardUniversity
    #WalterBurkeInstituteforTheoreticalPhysics #IBMQuantum #NSF #DOE
    #UniversityofMaryland

  30. New #openaccess publication #SciPost #Physics

    Codimension-2 defects and higher symmetries in (3+1)D topological phases

    Maissam Barkeshli, Yu-An Chen, Sheng-Jie Huang, Ryohei Kobayashi, Nathanan Tantivasadakarn, Guanyu Zhu
    SciPost Phys. 14, 065 (2023)
    scipost.org/SciPostPhys.14.4.0

    #JointQuantumInstitute
    #UMCP
    #HarvardUniversity
    #WalterBurkeInstituteforTheoreticalPhysics #IBMQuantum #NSF #DOE
    #UniversityofMaryland

  31. New #openaccess publication #SciPost #Physics

    Codimension-2 defects and higher symmetries in (3+1)D topological phases

    Maissam Barkeshli, Yu-An Chen, Sheng-Jie Huang, Ryohei Kobayashi, Nathanan Tantivasadakarn, Guanyu Zhu
    SciPost Phys. 14, 065 (2023)
    scipost.org/SciPostPhys.14.4.0

    #JointQuantumInstitute
    #UMCP
    #HarvardUniversity
    #WalterBurkeInstituteforTheoreticalPhysics #IBMQuantum #NSF #DOE
    #UniversityofMaryland

  32. New #openaccess publication #SciPost #Physics

    Codimension-2 defects and higher symmetries in (3+1)D topological phases

    Maissam Barkeshli, Yu-An Chen, Sheng-Jie Huang, Ryohei Kobayashi, Nathanan Tantivasadakarn, Guanyu Zhu
    SciPost Phys. 14, 065 (2023)
    scipost.org/SciPostPhys.14.4.0

    #JointQuantumInstitute
    #UMCP
    #HarvardUniversity
    #WalterBurkeInstituteforTheoreticalPhysics #IBMQuantum #NSF #DOE
    #UniversityofMaryland

  33. New #openaccess publication #SciPost #Physics

    Codimension-2 defects and higher symmetries in (3+1)D topological phases

    Maissam Barkeshli, Yu-An Chen, Sheng-Jie Huang, Ryohei Kobayashi, Nathanan Tantivasadakarn, Guanyu Zhu
    SciPost Phys. 14, 065 (2023)
    scipost.org/SciPostPhys.14.4.0

    #JointQuantumInstitute
    #UMCP
    #HarvardUniversity
    #WalterBurkeInstituteforTheoreticalPhysics #IBMQuantum #NSF #DOE
    #UniversityofMaryland