Starts With A Bang podcast #101 – Quantum Computing
We have a new podcast out, on the topic of quantum computing.
The science is fascinating, but so much of what you've heard surrounding it is hype, not reality.
Get the real info today!
https://t.co/LAAsRDRiil
We've finished it!
Today our quantum computing textbook will be published by @OUPAcademic Huge thanks to all who supported us! We sincerely hope it will be of great use to many. Get it with 30% off at OUP website using the promo code "ASPROMP8"
https://t.co/pipwEf9V4W
In our preprint on the arxiv today: https://t.co/MM1jmNxbe1
We (Matt Fishman, @MStoudenmire, Dries Sels and myself) show how an accurate, efficient tensor network calculation can be done for the Kicked Ising model recently simulated by IBM on their Eagle quantum processor.
@Liv_Lanes@qiskit mm.. the term "Hamiltonian" may be commonly associated with quantum mechanics, but it is actually a fundamental concept in classical mechanics, where it represents the total energy of the system. No quantum needed
We are pleased to announce that "Quantum Information Science" by Riccardo Manenti and @MMotta314, an introduction to the fascinating fields of #QuantumInformation and #QuantumComputation, will be publishing this June!
https://t.co/ikmJmM8Jjo
Here's a tutorial on how to emulate *any* QPU—Google's or otherwise—in Python with the QVM: https://t.co/RRZSrYsiy4
SDK is here. Even comes with a compiler: https://t.co/IySbu40T4n
QVM source code is here: https://t.co/qtm3EtvIqE
Thanks for the shout out @sundarpichai 🙃
Routing control lines without adding design complexity is important for scaling superconducting quantum devices. Our work published this week in Applied Physics Letters introduces a method to integrate microwave and flux lines into a single “XYZ line.”
https://t.co/G58YRb0XmY