13,005 research outputs found
Quantum Computing in the NISQ era and beyond
Noisy Intermediate-Scale Quantum (NISQ) technology will be available in the
near future. Quantum computers with 50-100 qubits may be able to perform tasks
which surpass the capabilities of today's classical digital computers, but
noise in quantum gates will limit the size of quantum circuits that can be
executed reliably. NISQ devices will be useful tools for exploring many-body
quantum physics, and may have other useful applications, but the 100-qubit
quantum computer will not change the world right away --- we should regard it
as a significant step toward the more powerful quantum technologies of the
future. Quantum technologists should continue to strive for more accurate
quantum gates and, eventually, fully fault-tolerant quantum computing.Comment: 20 pages. Based on a Keynote Address at Quantum Computing for
Business, 5 December 2017. (v3) Formatted for publication in Quantum, minor
revision
Review of 'The Outer Limits of Reason' by Noson Yanofsky 403p (2013) (review revised 2019)
I give a detailed review of 'The Outer Limits of Reason' by Noson Yanofsky from a unified perspective of Wittgenstein and evolutionary psychology. I indicate that the difficulty with such issues as paradox in language and math, incompleteness, undecidability, computability, the brain and the universe as computers etc., all arise from the failure to look carefully at our use of language in the appropriate context and hence the failure to separate issues of scientific fact from issues of how language works. I discuss Wittgenstein's views on incompleteness, paraconsistency and undecidability and the work of Wolpert on the limits to computation. To sum it up: The Universe According to Brooklyn---Good Science, Not So Good Philosophy.
Those wishing a comprehensive up to date framework for human behavior from the modern two systems view may consult my book âThe Logical Structure of Philosophy, Psychology, Mind and Language in Ludwig Wittgenstein and John Searleâ 2nd ed (2019). Those interested in more of my writings may see âTalking Monkeys--Philosophy, Psychology, Science, Religion and Politics on a Doomed Planet--Articles and Reviews 2006-2019 3rd ed (2019) and Suicidal Utopian Delusions in the 21st Century 4th ed (2019
Non-classical computing: feasible versus infeasible
Physics sets certain limits on what is and is not computable. These limits are very far from having been reached by current technologies. Whilst proposals for hypercomputation are almost certainly infeasible, there are a number of non classical approaches that do hold considerable promise. There are a range of possible architectures that could be implemented on silicon that are distinctly different from the von Neumann model. Beyond this, quantum simulators, which are the quantum equivalent of analogue computers, may be constructable in the near future
Virtual learning environment for interactive engagement with advanced quantum mechanics
A virtual learning environment can engage university students in the learning
process in ways that the traditional lectures and lab formats can not. We
present our virtual learning environment \emph{StudentResearcher} which
incorporates simulations, multiple-choice quizzes, video lectures and
gamification into a learning path for quantum mechanics at the advanced
university level. \emph{StudentResearcher} is built upon the experiences
gathered from workshops with the citizen science game Quantum Moves at the
high-school and university level, where the games were used extensively to
illustrate the basic concepts of quantum mechanics. The first test of this new
virtual learning environment was a 2014 course in advanced quantum mechanics at
Aarhus University with 47 enrolled students. We found increased learning for
the students who were more active on the platform independent of their previous
performances.Comment: 8 pages, 6 figure
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