People of IPR
Fri January 3, 2014
The NSA's Quantum Code-Breaking Research Is No Secret
Originally published on Fri January 3, 2014 7:43 pm
So the world's most clandestine spy agency is working on something called a quantum computer, The Washington Post tells us. It's based on rules Einstein himself described as "spooky," and it can crack almost any code. That's got to be top-secret stuff, right?
Guess again. The second physicist I called for today's story, a guy named Christopher Monroe at the University of Maryland, not only knew the National Security Agency did this research; he had actually worked with the agency.
"It's all in the open," he says.
The reasons for trying to build a quantum computer are no secret. Most of the world's computers encrypt their data using very large numbers. To break the code, spy agencies have to divide the numbers by other numbers — prime numbers. Finding the right prime numbers can take a while.
"A thousand-digit number might take a full year of a team of supercomputers," says Monroe. "You can add another hundred digits, and forget it — you won't be able to ever do it."
That's where a quantum computer comes in. Most computers work using bits of data — ones and zeros. The bits in quantum computers can be both one and zero at the same time. What's more, these quantum bits can all be interconnected in a fundamental way. Known as entanglement, this connecting of bits effectively allows the computer to try many numbers at once.
"It can look at them all at the same time and there's a huge speed-up by doing that," Monroe says.
A code that was impossible to break could be cracked in weeks, days — maybe even hours. That's why the NSA needs to pay attention to quantum computers.
"The NSA just wouldn't be doing their job if they weren't following it," says Scott Aaronson, a computer scientist at MIT who specializes in quantum computing.
While the NSA's interest is clear, the documents leaked by Edward Snowden to the Washington Post seem to indicate that the agency's progress on a quantum computer is slow. The modest advances described in one area, semiconducting quantum bits, seem to be roughly equal to what's happening in the open world.
Aaronson's not surprised. Quantum computers are fragile and very, very difficult to build. It could be decades, or even centuries, before one is fully realized.
The NSA needs to be involved with what scientists are doing, but it doesn't need to spend billions on a crash program to build a quantum computer. It already has plenty of ways to read people's emails.
"The NSA has been doing many more low-tech things like giving itself back doors into encryption standards or just strong-arming Google or Microsoft into giving it access to things," Aaronson says.
AUDIE CORNISH, HOST:
The National Security Agency is pursuing a new kind of computer that could crack almost any code, codes like the ones that protect email and bank accounts and medical records, that revelation today courtesy of leaker Edward Snowden. The documents were published in the Washington Post.
As NPR science correspondent Geoff Brumfiel reports, this code-cracking project is still in its infancy.
GEOFF BRUMFIEL, BYLINE: So the world's most clandestine spy agency is building something called a quantum computer. It's based on rules Einstein himself described as spooky. That's got to be top-secret stuff, right? Guess again.
CHRISTOPHER MONROE: It's all in the open.
BRUMFIEL: That's Christopher Monroe, a physicist at the University of Maryland who studies quantum computing. He's not surprised the NSA is involved.
MONROE: They have funded, through various ways, my own research.
BRUMFIEL: Really? Are you allowed to say that?
MONROE: Yeah, I believe so.
BRUMFIEL: In fact the NSA funds a lot of unclassified basic research in this area, and here's why it's interested: Most of the world's computers encrypt their data using really large numbers. To break the code, spy agencies have to divide the numbers by other numbers, prime numbers. Finding the right prime numbers can take awhile.
MONROE: A thousand-digit number might take a full year of a team of supercomputers. And again, all you have to do is add another digit, it gets twice as hard. You can add another hundred digits, and forget it, you won't be able to ever do it.
BRUMFIEL: That's where a quantum computer comes in. Rather than just trying one number at a time, it can try all the numbers.
MONROE: It can look at them all at the same time and there's a huge speed up by doing that.
BRUMFIEL: A code that was impossible to break could be cracked in weeks, days, maybe even hours. And that's why the NSA needs to be working on quantum computers.
MONROE: If you think about it, it would be worrisome if they would not pay attention to this field because it could shake them to their roots. If somebody comes up with a quantum computer, and they're not prepared for it, that would not be good for this country.
BRUMFIEL: But if you're worried the NSA might soon be snooping with a quantum computer, don't. They're really hard to build.
MONROE: The technology is way behind anything that could be useful at this point.
BRUMFIEL: The documents leak today seemed to indicate the agency hasn't made much more progress than researchers like Monroe, and as another researcher pointed out to me, the NSA already has plenty of secret tricks and legal tools for reading the world's emails. Who needs a quantum computer when you've got a court order? Geoff Brumfiel, NPR News.
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