IBM Builds A Limited Quantum Computer

phr1 writes "IBM has announced and Yahoo has noted that the first working implementation of Shor's factoring algorithm. Using NMR techniques they built a seven-qubit quantum computer and factored the number 15 into the factors 3 and 5. This is by far the most complicated quantum computation ever done. It's quite an amazing feat--many people thought quantum computing was just a theoretical curiosity and Shor's algorithm could never be implemented in practice."

Re:if a quantum computer takes the same time

[Anml4ixoye]

Mainly because of the number of molecules it takes to perform that feat. "IBM chemists designed and made a new molecule that has seven nuclear spins" - exactly enough to solve the simple factor. You need many more spins than that to perform complex calculations.

But once the molecules are put together and they can control them properly, then nothing really stops it. That is why they say that a fundamental change in cryptography is on the horizon.

An Introduction...

[GFish4]

My brother found this for me not too long ago. The math involved can get rather intense, but I think it 's worth pointing out:

An Introduction to to Quantum Computing for Non-Physicists - Available in PDF, PostScript, and others.

If you do a google search, you probably can find it elsewhere, also.

--GFish4

Crud!

[Pathos78]

And I thought my 4-bit key's were safe!
Damn the relentless progress of computing!

Meow

[KarmaBlackballed]

If you put a cat inside this computer, will it die?

Re:IBM's largest computer ever

[Hank+Reardon]

So what about the 2 ton behemoths everyone's been buying for years? ;-)

Big fucking atoms...

You Heard It Here First...

[cybrpnk]

Looks like the number of qbits available in a quantum computer is doubling every 18 months. The article notes the 2 qbit computer was built in 1998, the 4 qbit unit in August 2000 and now a 7 qbit computer in December 2001....they've still got another couple of months to get the 8th qbit....

Almost there!

[Black+Parrot]

7 Qbits already? That's great! No one should ever need more than 640 Qbits.

Re:Frightening implications

[internic]

While I have also often heard stories of the NSA having much more advanced equipment and techniques than the private sector, or at least than the non-classified private sector, in the case of quantum computing this is unlikely. First, it's a relatively new subject. Shore's algorithm, for example, was only discovered in the 80's. There really hasn't been enough time for them to get so far ahead. Second, the NSA is full mostly of mathematicians and computer scientsts, not physicists, so they really don't have the right staff for that. Third, most of the academic research is funded by the NSA.

Finally, though it's hard to say exactly how far this technology is from being useful (or alternately the probability that it will EVER be useful), it is probably safe to say it will be quite a while from now. Moreover, it is probably also safe to say that it only gets harder from here. Larger computations will involve the same problems as these only on larger scales plus a whole new, tougher, slew of problems that these avoid. These are chiefly quantum decoherence and entangling large numbers of quantum states.

Quantum decoherence is the loss of the special quantum information (quantum phase relations) that allows quantum computers to do their funky magic. This happens over time in any system that has any interaction with the outside world. I think these small calculations largely avoid this problem because they are reasonably fast. Larger ones involve more steps and thus will run up against these problems. Some error correcting quantum codes have been developed, but these involve even more qubits, which exaserbates the other problems, and are still largely in the formative stages.

The other big hurdle is entangling much larger numbers of particles in one state. These take advantage of the interactions between different nuclei in the same molecule. Once you need many more qubits, you will need to come up with a more general scheme for entangling the quantum states, because it's unlikely that you'll be able to engineer a molicule for the purpose. Also, the bigger you make your system, the more strongly it interacts with the outside world and the worse decoherence becomes....Life's a bitch, ain't it?

So, I think this is really exciting and quantum computers have great promise, but I don't expect to have a quantum co-processor in my PC any time soon, nor do I really think it's likely that the NSA has a quantum supercomputer sitting in the back room decrypting my credit card information.

Old news

[sharkey]

7 qubits!?!? Sheesh, Noah's Ark was 300 qubits long, by 50 wide, by 30 high. And seven is supposed to be impressive thousands of years later?

You're exactly right and wrong!

[HiredMan]

You're right that the NSA knew about Differential Cryptanalysis years before anyone. I extrapolated this largely using the same facts - but if you read _AC_ carefully they openly acknowledge this.

But you're wrong in the fact that DES IS resistant to DC. The bit S-box design the NSA gave IBM are designed to make it STRONGER against DC NOT weaker.

"As in choosing the key length , another of the NSA'a design criteria was based on making the algorithm [DES] resistant to differential cryptanalysis..." _AC_ first edition Schneier page 238

If you want to bust the NSA's chops complain that they made the key length go from 128 to (effectively) 56 bits. Now that hurt...

=tkk