#quantumcircuits — Public Fediverse posts

🎩🤹 Welcome to the magical world of #Qiskit, where mere mortals are expected to wrangle quantum circuits and operators as if they were coding wizards! 🤯✨ Meanwhile, your "intelligent" apps watch in awe, dreaming of a day when they too can understand what the heck an "extended quantum circuit" is. 🚀🔮
https://github.com/Qiskit/qiskit #QuantumComputing #QuantumCircuits #CodingWizards #TechMagic #HackerNews #ngated

🎩🤹 Welcome to the magical world of #Qiskit, where mere mortals are expected to wrangle quantum circuits and operators as if they were coding wizards! 🤯✨ Meanwhile, your "intelligent" apps watch in awe, dreaming of a day when they too can understand what the heck an "extended quantum circuit" is. 🚀🔮
https://github.com/Qiskit/qiskit #QuantumComputing #QuantumCircuits #CodingWizards #TechMagic #HackerNews #ngated

🎩🤹 Welcome to the magical world of #Qiskit, where mere mortals are expected to wrangle quantum circuits and operators as if they were coding wizards! 🤯✨ Meanwhile, your "intelligent" apps watch in awe, dreaming of a day when they too can understand what the heck an "extended quantum circuit" is. 🚀🔮
https://github.com/Qiskit/qiskit #QuantumComputing #QuantumCircuits #CodingWizards #TechMagic #HackerNews #ngated

🎩🤹 Welcome to the magical world of #Qiskit, where mere mortals are expected to wrangle quantum circuits and operators as if they were coding wizards! 🤯✨ Meanwhile, your "intelligent" apps watch in awe, dreaming of a day when they too can understand what the heck an "extended quantum circuit" is. 🚀🔮
https://github.com/Qiskit/qiskit #QuantumComputing #QuantumCircuits #CodingWizards #TechMagic #HackerNews #ngated

If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: https://enabla.com/pub/942/about

Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

#CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: https://enabla.com/pub/942/about

Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

#CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: https://enabla.com/pub/942/about

Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

#CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: https://enabla.com/pub/942/about

Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

#CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: https://enabla.com/pub/942/about

Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

#CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

Meet the new Enabla #OpenAccess lecture by Prof. Sergey Denisov from the Oslo Metropolitan University, where he discusses the theoretical and experimental aspects of parameterized circuits and their ability to simulate random unitaries, offering a deep dive into NISQ implementations and their potential for sampling random channels.

Have a question? Ask online through our website, and Sergey will help you understand the material better! A must-watch for anyone involved in quantum computing and random matrix theory!

🔗 Watch the full lecture here: https://enabla.com/pub/1122/about

Abstract: We consider the spectral properties of random quantum channels, both theoretically and experimentally, discuss parameterized circuits in their ability to simulate random unitaries, and present results confirming the ability of NISQ implementations of these circuits to sample certain ensembles of random channels

#ComputerScience #QuantumComputing #RandomMatrixTheory #QuantumCircuits #NISQ #OpenScience

Meet the new Enabla #OpenAccess lecture by Prof. Sergey Denisov from the Oslo Metropolitan University, where he discusses the theoretical and experimental aspects of parameterized circuits and their ability to simulate random unitaries, offering a deep dive into NISQ implementations and their potential for sampling random channels.

Have a question? Ask online through our website, and Sergey will help you understand the material better! A must-watch for anyone involved in quantum computing and random matrix theory!

🔗 Watch the full lecture here: https://enabla.com/pub/1122/about

Abstract: We consider the spectral properties of random quantum channels, both theoretically and experimentally, discuss parameterized circuits in their ability to simulate random unitaries, and present results confirming the ability of NISQ implementations of these circuits to sample certain ensembles of random channels

#ComputerScience #QuantumComputing #RandomMatrixTheory #QuantumCircuits #NISQ #OpenScience

Meet the new Enabla #OpenAccess lecture by Prof. Sergey Denisov from the Oslo Metropolitan University, where he discusses the theoretical and experimental aspects of parameterized circuits and their ability to simulate random unitaries, offering a deep dive into NISQ implementations and their potential for sampling random channels.

Have a question? Ask online through our website, and Sergey will help you understand the material better! A must-watch for anyone involved in quantum computing and random matrix theory!

🔗 Watch the full lecture here: https://enabla.com/pub/1122/about

Abstract: We consider the spectral properties of random quantum channels, both theoretically and experimentally, discuss parameterized circuits in their ability to simulate random unitaries, and present results confirming the ability of NISQ implementations of these circuits to sample certain ensembles of random channels

#ComputerScience #QuantumComputing #RandomMatrixTheory #QuantumCircuits #NISQ #OpenScience

Meet the new Enabla #OpenAccess lecture by Prof. Sergey Denisov from the Oslo Metropolitan University, where he discusses the theoretical and experimental aspects of parameterized circuits and their ability to simulate random unitaries, offering a deep dive into NISQ implementations and their potential for sampling random channels.

Have a question? Ask online through our website, and Sergey will help you understand the material better! A must-watch for anyone involved in quantum computing and random matrix theory!

🔗 Watch the full lecture here: https://enabla.com/pub/1122/about

Abstract: We consider the spectral properties of random quantum channels, both theoretically and experimentally, discuss parameterized circuits in their ability to simulate random unitaries, and present results confirming the ability of NISQ implementations of these circuits to sample certain ensembles of random channels

#ComputerScience #QuantumComputing #RandomMatrixTheory #QuantumCircuits #NISQ #OpenScience

Meet the new Enabla #OpenAccess lecture by Prof. Sergey Denisov from the Oslo Metropolitan University, where he discusses the theoretical and experimental aspects of parameterized circuits and their ability to simulate random unitaries, offering a deep dive into NISQ implementations and their potential for sampling random channels.

Have a question? Ask online through our website, and Sergey will help you understand the material better! A must-watch for anyone involved in quantum computing and random matrix theory!

🔗 Watch the full lecture here: https://enabla.com/pub/1122/about

Abstract: We consider the spectral properties of random quantum channels, both theoretically and experimentally, discuss parameterized circuits in their ability to simulate random unitaries, and present results confirming the ability of NISQ implementations of these circuits to sample certain ensembles of random channels

#ComputerScience #QuantumComputing #RandomMatrixTheory #QuantumCircuits #NISQ #OpenScience

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🧑‍💻

🔗 https://enabla.com/set/92/pub/642/about

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

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🧑‍💻

🔗 https://enabla.com/set/92/pub/642/about

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

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🧑‍💻

🔗 https://enabla.com/set/92/pub/642/about

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

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🧑‍💻

🔗 https://enabla.com/set/92/pub/642/about

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

“Measurement-induced phase transitions on dynamical quantum trees” by Xiaozhou Feng (heard about its posting from Brian Skinner on Twitter):

https://www.youtube.com/watch?v=GIAn1-kKPOc

#StatMech #Quantum #MIPT #QuantumCircuits