Superconducting qubits: Improving the performance of single qubit gates
Q-CTRL notebook - Superconducting qubits: Improving the performance of single qubit gates This is a code-based demonstration of Q-CTRL's AI and machine-learning tools, making it a great entry to advanced quantum computing concepts for computer scientists and software engineers
Superconducting qubits: Improving the performance of the cross resonance gate
Q-CTRL notebook: Superconducting qubits - Improving the performance of the cross resonance gate
Noise characterization and reconstruction
Q-CTRL notebook: Noise characterization and reconstruction
QSI Seminar: Dr Simon Devitt, QSI, Quantum Sneakernet: Backbone to the quantum internet, 20/04/2020
Nothing beats a trunk load of quantum hard drives hurtling down the highway for building a quantum internet
CQC2T Colloquium/QSI Seminar: Prof Zhengfeng Ji, QSI, Spooky Complexity at a Distance, 26/03/2020
Characterisation of the power of quantum multi-prover interactive proof systems, MIP*=RE
QSI Seminar: Prof Tom Stace, University of Queensland, A New Kind of Qubit, 14/04/2020
Building a bigger Hilbert space for superconducting devices, one Bloch state at a time
QSI Seminar: Dr Chris Jackson, CQuIC/UTS QSI, A Scalable Fermion Measurement, 06/04/2020
A scalable tomography for fermonic systems
Quantum fundamentals (ep2)
In this video we dive a bit deeper into how quantum computers work
An introduction to quantum computing (ep1)
Quantum computing is discussed nearly every day in the media