Quantum computing is the exploitation of collective properties of quantum states, such as superposition and entanglement, to perform computation. The devices that perform quantum computations are known as quantum computers. They are believed to be able to solve certain computational problems, such as integer factorization (which underlies RSA encryption), substantially faster than classical computers. The study of quantum computing is a subfield of quantum information science. Expansion is expected in the next few years as the field shifts toward real-world use in pharmaceutical, data security and other applications.Quantum computing began in 1980 when physicist Paul Benioff proposed a quantum mechanical model of the Turing machine. Richard Feynman and Yuri Manin later suggested that a quantum computer had the potential to simulate things a classical computer could not feasibly do. In 1994, Peter Shor developed a quantum algorithm for factoring integers with the potential to decrypt RSA-encrypted communications. Despite ongoing experimental progress since the late 1990s, most researchers believe that "fault-tolerant quantum computing [is] still a rather distant dream." In recent years, investment in quantum computing research has increased in the public and private sectors. On 23 October 2019, Google AI, in partnership with the U.S. National Aeronautics and Space Administration (NASA), claimed to have performed a quantum computation that was infeasible on any classical computer.There are several types of quantum computers (also known as quantum computing systems), including the quantum circuit model, quantum Turing machine, adiabatic quantum computer, one-way quantum computer, and various quantum cellular automata. The most widely used model is the quantum circuit, based on the quantum bit, or "qubit", which is somewhat analogous to the bit in classical computation. A qubit can be in a 1 or 0 quantum state, or in a superposition of the 1 and 0 states. When it is measured, however, it is always 0 or 1; the probability of either outcome depends on the qubit's quantum state immediately prior to measurement.
Efforts towards building a physical quantum computer focus on technologies such as transmons, ion traps and topological quantum computers, which aim to create high-quality qubits. These qubits may be designed differently, depending on the full quantum computer's computing model, whether quantum logic gates, quantum annealing, or adiabatic quantum computation. There are currently a number of significant obstacles to constructing useful quantum computers. It is particularly difficult to maintain qubits' quantum states, as they suffer from quantum decoherence and state fidelity. Quantum computers therefore require error correction.Any computational problem that can be solved by a classical computer can also be solved by a quantum computer. Conversely, any problem that can be solved by a quantum computer can also be solved by a classical computer, at least in principle given enough time. In other words, quantum computers obey the Church–Turing thesis. This means that while quantum computers provide no additional advantages over classical computers in terms of computability, quantum algorithms for certain problems have significantly lower time complexities than corresponding known classical algorithms. Notably, quantum computers are believed to be able to quickly solve certain problems that no classical computer could solve in any feasible amount of time—a feat known as "quantum supremacy." The study of the computational complexity of problems with respect to quantum computers is known as quantum complexity theory.
of interest:
---diogenesNY
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By JOHN MARKOFFMARCH 4, 2015
NYT: Scientists at the [PLAIN]http://topics.nytimes.com/topics/reference/timestopics/organizations/u/university_of_california/index.html?inline=nyt-org[/URL], and at Google reported on Wednesday...
What is your reason for studying physics and what do you want to do with it. I actually got thrown into my schools physics program by accident. I began at a community college studying nanotechnology and when i transferred schools it was supposed to be a two-plus two program meaning I would get...
Hi I am an undergrad student in an Electrical engineering program and going for my masters and undergrad degree at the same time (special program i am in). I an very interested on the hardware side of quantum computing as to have a future career in this field (eventually will go for a PhD). I...
Dear fellows, please help me to imagine the physical working of a quantum computer (QC).
I have read here ( http://www.cs.rice.edu/~taha/teaching/05F/210/news/2005_09_16.htm ) that the basic idea behind it is the phenomenon that you can find in the Mach–Zehnder interferometer
But how come this...
If you haven't followed what this company has been doing, you probably don't understand my trepidations at posting about it here - but I do want to hear reaction to Professor Matthias Troyer test results from this sector of the Physics community. It involves "Engineering", "Quantum Physics"...
Does quantum computer can to send the information faster than light ??
I have read many of paper about quantum computer that come from quantum entanglement. The Quantum Entanglement may be use in Quantum computer.Does it can use to send the information faster than light or it can surpass the...
Ok so I'm reading up on quantum computers , and I want to ask some question to clear some things up.
So in simple terms a quantum computer or the chip itself would have to be made of something , a enclosure somekind that can hold single particles seperated, that have spins (most common probably...
So last year I took a course in quantum computing, but I didn't understand how can you build quantum computer?
I mean do you have literature on the technical issues of physically engineering such an apparatus?
The course I took was really theoretical, but I don't understand yet of how to...
The most serious challenge to engineering a quantum computer is protecting it from decoherence. But FMO proteins in photosynthetic complexes can exhibit entanglement for a few picoseconds as reported here and here, among other places. So would it be possible to build a working, useful quantum...
I'm a computer science and engineering student, who has recently developed interest about quantum computers. I can understand that quantum computers are totally linked with quantum mechanics. But I would like to learn whether there is any relation between quantum computing and quantum field...
First of all, I haven't the slightest idea how a quantum computer actually works but I understand that it is theoretically possible to make them and they could, in theory, be used to compute things that a classical computer would take too long to compute. (i.e. large combinatorial problems like...
Has anyone ever had the opportunity to have a theoretical quantum computer running on your PC (being simulated) and write software for it? If you have, could you tell me what you used for the quantum computer and maybe some "Hello World" code (a book explaining the 'language' and some of the...
D-Wave has claimed that they offer a commercial quantum computer, using a 128-qubit chipset. What exactly is going on here?
I'm sure that this is not the traditional quantum computer, since the record of http://www.physorg.com/news/2011-04-quantum-bits-physicists-limits.html" was reached only a...
[I've searched for posts on this issue, but haven't found anything quite specific.]
By 'real' I mean something you might actually buy in, say, 2015 and actually performs those pesky problems that involve an infinity of potential solutions.
If a quantum entity actually does have definite...
Hey guys a friend of mine found this article about the world's first commercially available quantum computer.
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I remain slightly skeptical given controversy and criticism surround D-wave in the past.
http://en.wikipedia.org/wiki/D-Wave_Systems#Criticism"
So I was hoping members of...
In a standard quantum computer, the computing machinery is kept in a superposition of states, with each state doing the computation on different data. It's like having the superposition of a bunch of cats in a box with each cat doing a calculation on different data. The more complex the cat...
Hi, after reading this article, I was left wondering how the heck a quantum computer can be simulated. To begin with, how is a quantum computer of 42 qubits built up? And the how could this computer possibly be simulated? I mean, the wave function of one qubit is a three dimensional scalar...
I was curious if it would be possible to construct an incredibly simple and most likely trivial computer based on an interferometer style setup which could generate random numbers based on the quantum mechanical nature of light. Namely, with a basic laser pointer, some mirrors, and a beam...
I am interested in the field of Quantum computer/Quantum computing. with which books I should start, and what are the 'must read' books in this domain?
I've been reading "Programming the Universe" by Seth Lloyd, a quantum computer scientist. He goes on and on about the power of quantum computers and their ability, for example, to factor large numbers using massive parallelism. He also states that quantum parallelism is different than classical...
Suppose you have a quantum apparatus that takes two 3-qubit registers as input, multiplies them, and produces output in a 6-qubit register. If the inputs are initialized as a superposition with equal probability of being each number 000 to 111, then the output will be the superposition of all...
Dear participants and visitors of a forum!
Whether it is possible - to create the quantum computer on the basis of DNA?:
http://www.sciencedaily.com/releases/2007/03/070321093451.htm
http://divinecosmos.com/index.php?option=com_content&task=view&id=365&Itemid=70...
What physical processes input information into and extract information out of a quantum computer? What I really want to know is: How do you get a qubit or quantum dot to take on a particular state and cause its' entangled partner to choose a state?
Thank you!
i am not getting how a quantum computer will work.
what i know is that for input they will use a superposition having states with different amplitudes.Then hermitian or unitary operators will interct with the input superposition to give the output superposition. Then error coding will give an...
I find it hard to believe that they got 16 qubits working... and they say they'd have 512 or 1024 by the end of next year!
http://www.dailytech.com/article.aspx?newsid=6102
but there are so many tech sites that cover this computer...
Engadget...
Came across http://science.slashdot.org/science/07/02/08/1355255.shtml" yesterday. Slashdot does rather badly on upcoming science so I'm not taking it too seriously. I'm curious what you guys think, though.
I Read About Richard Feynmann's Idea Of Using All The 32 Quantum States Of An Electron To Construct A Supercomputer Which Would Be Much Faster Than The Present Ones That Use Only The Two Binary States.i Do Not Understand How Data Could Be Stored This Way And How Such A Computer Could Be Built...
I heard one of the problems with quantum computers is there is not a certin output for each input, meaning there is some randomness in their computations. Can this randomness some how be reduced until it becomes negligible? My question is basicly can a quantum computer perform most of the...
I have been thinking for the past week on how the mind works, and classical physics theory has plenty of holes in it.
The most convincing aspect of my new theory is with how the brain and memory work. When you wish to remember something, could the brain and its neurons be sending an advance...
I am having a science project at school about the quantum computer next week, so I wanted to know if anyone knows any good books/articles/e-books about the subject. I would be very interrested in the most simple of it, I know nothing about the Quantum computer/theory is simple, but some of them...
Has anyone heard of RSA? Its the cipher used by the NSA, CIA and probably most other government agencies. Its a cipher that uses one way arithimetic(easy to do almost impossible to undo). Anyway a type of computer is being developed to crack this form cipher called the Quantum computer and I was...