Eric Ladizinsky visited the Quantum AI Lab at Google LA to give a talk "Evolving Scalable Quantum Computers." This talk took place on March 5, 2014. Abstract: EVOLVING QUANTUM COMPUTERS: "The nineteenth century was known as the machine age, the twentieth century will go down in history as the information age. I believe the twenty-first century will be the quantum age". Paul Davies Quantum computation represents a fundamental paradigm shift in information processing. By harnessing strange, counterintuitive quantum phenomenon, quantum computers promise computational capabilities far exceeding any conceivable classical computing systems for certain applications. These applications may include the core hard problems in machine learning and artificial intelligence, complex optimization, and simulation of molecular dynamics .. the solutions of which could provide huge benefits to humanity. Realizing this potential requires a concerted scientific and technological effort combining multiple disciplines and institutions ... and rapidly evolving quantum processor designs and algorithms as learning evolves. D-Wave Systems has built such a mini-Manhattan project like effort and in just a under a decade, created the first, special purpose, quantum computers in a scalable architecture that can begin to address real world problems. D-Wave's first generation quantum processors (now being explored in conjunction with Google/NASA as well as Lockheed and USC) are showing encouraging signs of being at a "tipping point" .. matching state of the art solvers for some benchmark problems (and sometimes exceeding them) ... portending the exciting possibility that in a few years D-Wave processors could exceed the capabilities of any existing classical computing systems for certain classes of important problems in the areas of machine learning and optimization. In this lecture, Eric Ladizinsky, Co-Founder and Chief Scientist at D-Wave will describe the basic ideas behind quantum computation , Dwave's unique approach, and the current status and future development of D-Wave's processors. Included will be answers to some frequently asked questions about the D-Wave processors, clarifying some common misconceptions about quantum mechanics, quantum computing, and D-Wave quantum computers. Speaker Info Eric Ladizinsky is a physicist, Co-founder, and Chief Scientist of D-Wave Systems. Prior to his involvement with D-Wave, Mr. Ladizinsky was a senior member of the technical staff at TRW's Superconducting Electronics Organization (SCEO) in which he contributed to building the world's most advanced Superconducting Integrated Circuit capability intended to enable superconducting supercomputers to extend Moore's Law beyond CMOS. In 2000, with the idea of creating a quantum computing mini -Manhattan-project like effort, he conceived, proposed, won and ran a multi-million dollar, multi-institutional DARPA program to develop a prototype quantum computer using (macroscopic quantum) superconducting circuits. Frustrated with the pace of that effort Mr. Ladizinsky, in 2004, teamed with D-Wave's original founder (Geordie Rose) to transform the then primarily IP based company to a technology development company modeled on his mini-Manhattan-project vision. He is also responsible for designing the superconducting (SC) IC process that underlies the D-Wave quantum processors ... and transferring that process to state of art semiconductor production facilities to create the most advanced SC IC process in the world.

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1. In this lecture, Eric Ladizinsky, Co-Founder and Chief Scientist at D-Wave will describe the basic ideas behind quantum computation , Dwave's unique approach, and the current status and future development of D-Wave's processors. Included will be answers to some frequently asked questions about the D-Wave processors, clarifying some common misconceptions about quantum mechanics, quantum computing, and D-Wave quantum computers.
   
   Speaker Info
2. This was in 2014, where has the technology evolved in 2017?
3. this day and age humanity needs thease difficult problems solved once
   and for..
   .. all .. for good!God bless!!
4. I dunno, but that little flash of him X's 2 @55:38 is ironically freakin weird.
5. I want a quantum DAC for my HiFi made by D-Wave 😉
6. this is a repost of https://www.youtube.com/watch?v=eIEy1KHk0rk
7. Great stuff .... I now understand quantum mechanics .... NOT, but getting there ; - ).
8. The wave function of the guy asking questions at 1:10:10 seems to be collapsing.
9. Google has working quantum computers and selfdriving cars, but they haven't yet mastered the arcane science of audio mixing.
10. Define other uses, Google. What other uses could there be for this.
11. Fascinating talk, especially from the engineering perspective.  This does not delve deeply into how to propose a problem for solution using QC, but the challenges of building a practical machine are well described.  I have to agree with another commenter that there are some blasts of noise in the soundtrack that nearly sent me over backward in my desk chair.  I'm sorry I didn't note the times.  The subtitling is pretty good and you can pause when he puts up his graphics so that you can read both, thereby allowing one to listen on mute.
12. #Google hires the best programmers on the planet but yet cannot fucking remove the ears killing noise from their recording.
13. thanks.
14. This is nice and all but can I play games at 4k resolution with 60 fps? If not what a waste of time huehuehue
15. i cant wait when i get quantum computer in my cellphone (PCphone by that time?)
16. did anyone notice Eric do some weird quantum shift at 55:38 
17. I would like to know if i am allowed to share this video?
18. the guy with the plaid shirt knows way more about quantum computing, so this must be the most boring presentation he's ever been to.
19. what do they do about cosmic radiation? What to do about neutrinos? You can't really shield it.
20. 16:30 rip ears