Quantum information science | Quantum computing
D-Wave Systems Inc. is a Canadian quantum computing company, based in Burnaby, British Columbia, Canada. D-Wave was the world's first company to sell computers to exploit quantum effects in their operation. D-Wave's early customers include Lockheed Martin, University of Southern California, Google/NASA and Los Alamos National Lab. In 2015, D-Wave's 2X Quantum Computer with more than 1,000 qubits was installed at the Quantum Artificial Intelligence Lab at NASA Ames Research Center. They have subsequently shipped systems with 2,048 qubits. In 2019, D-Wave announced a 5000-qubit system available mid-2020, using their new Pegasus chip with 15 connections per qubit. D-Wave does not implement a generic quantum computer; instead, their computers implement specialized quantum annealing. However, D-Wave announced plans in 2021 that they will work on universal gate-base quantum computers as well in the future. (Wikipedia).
Inside the D-Wave Quantum Computer
An animation showing the different systems inside D-Wave's quantum computers. Video made by: Dominic Walliman https://twitter.com/DominicWalliman Learn more about D-Wave and the first commercial quantum computers at https://www.dwavesys.com/
From playlist Videos I made for D-Wave Systems
Sending a Problem to the D-Wave Quantum Computer
Animation showing the process when a user submits a problem to the D-Wave quantum computer. Video made by: Dominic Walliman https://twitter.com/DominicWalliman Learn more about D-Wave and the first commercial quantum computers at https://www.dwavesys.com/
From playlist Videos I made for D-Wave Systems
D-Wave Lab Tour: The Infrastructure of the D-Wave Quantum Computer (Part 1)
In this video we look at the different systems that make up a D-Wave quantum computer. We show what the cooling system involves, the electromagnetic shielding and how the electronics system programs the quantum processor. Want to find out more? Check out our website https://www.dwavesys.c
From playlist Videos I made for D-Wave Systems
D-Wave Lab Tour: The D-Wave Processor (Part 2)
In this video we look at the quantum annealing processor. We look at how it differs from regular processors, and how qubits encode 0s and 1s. Want to find out more? Check out our website https://www.dwavesys.com/ This is the third video of three that describe different aspects of the D-W
From playlist Videos I made for D-Wave Systems
Solution to problems dealing with the Doppler effect.
From playlist Physics - Waves
Solution to problems dealing with the Doppler effect.
From playlist Physics - Waves
An explanation of quantum annealing at D-Wave including the applications and the relationship with other forms of quantum computing. Find out more on our website https://www.dwavesys.com/quantum-computing Get one free minute of direct access to a D-Wave quantum computer when you sign up f
From playlist Videos I made for D-Wave Systems
Lecture 14: Resonance and the S-Matrix
MIT 8.04 Quantum Physics I, Spring 2013 View the complete course: http://ocw.mit.edu/8-04S13 Instructor: Allan Adams In this lecture, Prof. Adams discusses the resonance structure of a potential barrier/well. He begins with the case of simple plane waves and then moves on to the case of w
From playlist MIT 8.04 Quantum Physics I, Spring 2013 (2013)
Waves and Particles B4 De Broglie Wavelength
The quantum mechanical model of the atom.
From playlist Physics - Wave Particle Duality
Waves, Resonances and Instabilities in Stratified Rotating Flows (Lecture 1) by Patrice Le Gal
DISCUSSION MEETING WAVES, INSTABILITIES AND MIXING IN ROTATING AND STRATIFIED FLOWS (ONLINE) ORGANIZERS: Thierry Dauxois (CNRS & ENS de Lyon, France), Sylvain Joubaud (ENS de Lyon, France), Manikandan Mathur (IIT Madras, India), Philippe Odier (ENS de Lyon, France) and Anubhab Roy (IIT M
From playlist Waves, Instabilities and Mixing in Rotating and Stratified Flows (ONLINE)
Jérémie Szeftel The resolution of the bounded L2 curvature conjecture in General Relativity (Part 1)
In order to control locally a space-time which satisfies the Einstein equations, what are the minimal assumptions one should make on its curvature tensor? The bounded L2 curvature conjecture roughly asserts that one should only need L2 bounds of the curvature tensor on a given space-like
From playlist Ecole d'été 2014 - Analyse asymptotique en relativité générale
Reducibility for the Quasi-Periodic Liner Schrodinger and Wave Equations - Lars Hakan Eliasson
Lars Hakan Eliasson University of Paris VI; Institute for Advanced Study February 21, 2012 We shall discuss reducibility of these equations on the torus with a small potential that depends quasi-periodically on time. Reducibility amounts to "reduce” the equation to a time-independent linea
From playlist Mathematics
Lecture 14: Resonance and the S-Matrix
MIT 8.04 Quantum Physics I, Spring 2013 View the complete course: http://ocw.mit.edu/8-04S13 Instructor: Allan Adams In this lecture, Prof. Adams discusses the resonance structure of a potential barrier/well. He begins with the case of simple plane waves and then moves on to the case of w
From playlist 8.04 Quantum Physics I - Prof. Allan Adams
16. Describing Functions (continued)
MIT Electronic Feedback Systems (1985) View the complete course: http://ocw.mit.edu/RES6-010S13 Instructor: James K. Roberge License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT Electronic Feedback Systems (1985)
Perturbation methods for nonlinear PDEs (Lecture - 04) by Vishal Vasan
ICTS Lecture by Vishal Vasan on 1, 3, 7, & 8th May, 2019 at 11:00 AM Title : Perturbation methods for nonlinear PDEs Speaker : Vishal Vasan, ICTS – TIFR, Bangalore Date : 01/05/2019 (Lecture 1) 03/05/2019 (Lectu
From playlist Seminar Series
Class 1, Part 2: Economic Growth Theory and the Direct Elements in Innovation
MIT STS.081 Innovation Systems for Science, Technology, Energy, Manufacturing, and Health, Spring 2017 Instructor: William B. Bonvillian View the complete course: https://ocw.mit.edu/STS-081S17 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP61GOiMKYgTzHpf8x6iiblaV Part
From playlist MIT STS.081J/17.395J Innovation Systems for Science, Tech, Energy, Manufacturing & Health, Spring 2017
Developing my research code: https://github.com/gpue-group/gpue -- Watch live at https://www.twitch.tv/simuleios
From playlist research
Gravity: Newtonian, post-Newtonian, Relativistic (Lecture 8) by Clifford M Will
DATES Monday 25 Jul, 2016 - Friday 05 Aug, 2016 VENUE Madhava Lecture Hall, ICTS Bangalore APPLY Over the last three years ICTS has been organizing successful summer/winter schools on various topics of gravitational-wave (GW) physics and astronomy. Each school from this series aimed at foc
From playlist Summer School on Gravitational-Wave Astronomy
Examples using phasors to examine the interference of waves.
From playlist Physics - Waves