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University of Michigan develops quantum processor
"We levitate the atom in the chip by applying certain electrical signals to the tiny nearby electrodes," explained Professor Christopher Monroe, University of Michigan Physics professor and co-inventor of the chip. While other researchers use neutral atoms, Monroe's chip traps ions - atoms with missing or extra electrons - on his chip.
Quantum computing is seen as a great leap forward in computing – a kind of Holy Grail of sorts. However, Quantum processors will probably not find their way into a computer near you any time soon – apart from being highly experimental (not to mention hideously expensive), they can excel in computations involving waveform analysis or cryptography, but perform poorly when tasked with such applications as Microsoft Word or checking email.
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User Comments (31)
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vigilante
on January 19, 2006 3:27 PM |
Holographic storage has been hanging around for years. And we are likely still years away.Virtual Hard Drive technology has been around like forever, when RAM disks could be created in DOS. But that is temporary storage.I'd like to see what happens if, say, I could install a game to RAM, and not use the HDD at all. That would be a cool expirement. |
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fiziks
on January 19, 2006 5:53 PM |
i think we need to redesign computers altogether, the eletrical computers based on transistors is, in my vision, just step one in a long line of computers which work and process differently, i think we should explore all these ideas and if one just thinks theoreticly for a second how the idea of this ion will most likely change the course or create another subdivision of computing... modern basic computers are quite quick and have many uses, but they can't do EVERYTHING...I agree this ion most likely cannot (without spending ungodly amounts of money and time, and being completely inefficient) be utilized using hardware and software design concepts we have now...plud i'd forget all your ideas about utilizing this on your desktop, i think when nanotechnology advances this may become a reality... also, it really seems to me like this ion is a simulation of logic in a way, could this be implemented in robotics?I'm curious to see where this will lead[Edited by fiziks on 2006-01-19 18:01:08] |
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fiziks
on January 19, 2006 5:56 PM |
and yes... you can install things to ram, as you probably could to any chip with a sufficient amount of space and and a constant electrical feed. |
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fury
on January 19, 2006 8:24 PM |
[b]Originally posted by exscind:[/b][quote]Quantum processors really won't find a way in a home PC anytime soon. Quantum processing doesn't use the conventional boolean (binary) computing used currently. If cultivated, sure it would extend everything as we know it, kind of like opening a new dimension. Quantum processing uses multivariable forms to accomplish calculations, which becomes more convoluted when the processor has to make checks into each action it performs. At the moment, it is only useful for a few task-specific actions which utilizes the features of quantum computing; anything else is either a waste of its abilities or even performs worse in comparison to a normal PC because of the unconventional checksums.[/quote]Agreed. All programs in existence today, as well as the tools developers use to make them, are built upon the foundation of using groups of 1s and 0s to represent /everything/ - right down to the final pixels drawn on the screen.Quantum computing is a whole different ball game. It's not about simple 1s and 0s, so it is not a simple task to create a program for them. They are not binary computers. Each "switch" has potentially an infinite amount of states instead of the on and off (1 and 0) combination like in a binary computer.In order for quantum computers to support the same kind of applications that users have today in conventional systems, a whole new framework (programming language, programs, communication standards, etc) would have to be built from the ground up. Pretty much all of the work done towards binary computer applications would have to be thrown out the window.That's why it can't do something like Word or email. There is literally no infrastructure out there that's compatible with quantum technology. The internet is a bunch of 1s and 0s. Data stored on hard disks is a bunch of 1s and 0s. Programming languages compile code into 1s and 0s.Incidentally, they're up to millions of transistors (switches that hold the 1s or 0s) in current binary processors, and this quantum processor has just one ion. Yes, it will be a while before they are up to the task of performing end user applications on par with existing binary tech. But, in the mean time, quantum computing is a leap forward for applications requiring more precision than a group of 1s and 0s, and will certainly advance any scientific application that makes use of it.The only use I can think of right now for a quantum computer in a consumer product is to simulate physics for games/distributed computing projects and the like, which are quite hard on existing processors as you get higher in precision (for instance, Folding@home reportedly takes a day on a modern computer to simulate a microsecond of one protein fold sequence)[Edited by fury on 2006-01-19 20:30:52][Edited by fury on 2006-01-19 20:41:11] |
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gamingmage
on January 19, 2006 9:41 PM |
Wow this is an idea that should be embraced and ran with. |
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markmdb
on July 29, 2007 7:56 PM |
Yeah, a new architecture is in demand for a quantum processing unit. The possibility is really mind boggling that a chip can hold ions with electrodes and have electrical fields applied to them to process information. Researchers have develpoed a system where lasers can dictate the value of the ion's single free electron to either a 1 or a 0 value. They call these values quantum bits or qubits, because they can also contain 1 and 0 simultaneously. When another qubit is added to a quantum system, the computing power doubles, thus making the quantum machine crunch numbers exponentially faster than conventional processors. The main problem is that the current processors can only hold a few atoms, or qubits, making it difficult to build a quantum chip that can hold thousands or more of these atomic ions.Basic personal applications aren't seen anywhere on the roadmap yet, but undoubtedly we will be there and it will be amazing. =)(and expensive) |
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