Nicholas Sze of Yahoo Finds Two-Quadrillionth Digit of Pi

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Nicholas Sze of Yahoo Finds Two-Quadrillionth Digit of Pi

Posted by timothy on Thursday September 16, 2010 @10:40AM from the I'm-a-good-guesser-in-binary-too dept.

gregg writes "A researcher has calculated the 2,000,000,000,000,000th digit of pi — and a few digits either side of it. Nicholas Sze, of technology firm Yahoo, determined that the digit — when expressed in binary — is 0."

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Re:What are the odds? by The+Living+Fractal · 2010-09-16 11:05 · Score: 2, Insightful

Apparently, 100%. :D

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Re:an so are an infinite other digits in that numb by HungryHobo · 2010-09-16 11:11 · Score: 2, Insightful

does this bit from TFA strike anyone else as a bit odd?
"The computation took 23 days on 1,000 of Yahoo's computers, racking up the equivalent of more than 500 years of a single computer's efforts."
So.... 1000 machines, 23 days, assuming embarrassingly parallel that's 23000 days of computation on 1 machine.
23000/365 = 63.0136986 years
now each of those could have 8 cores and they meant 500 years on a single core processor of course.
but still odd phrasing.
Confirmation ? by mbone · 2010-09-16 11:13 · Score: 2, Insightful

And, we know this is correct how ?
Re:Oh yeah? by cmdahler · 2010-09-16 11:17 · Score: 3, Insightful

Really? You "could care less"? So... that means that you actually do care, right? I mean, since you just said it is possible for you to care less than you do. I'm just sayin'... Just for your edification, the proper way to say what you are trying to say is, "I could not care less." And with regard to the subject at hand in this thread, the idea that someone's poor English skills could have any bearing whatsoever on his or her skills at mathematics is just laughable and shows how little anyone presuming such preposterously arrogant nonsense actually knows about mathematics or the history of the brilliant minds in non-English-speaking cultures who have contributed to it. In other words, total bullshit.
fine, and I have calculated the last digit of pi. by Nadaka · 2010-09-16 12:14 · Score: 3, Insightful

It is 1 in binary.
Re:What are the odds? by MichaelSmith · 2010-09-16 12:31 · Score: 2, Insightful

the digit — when expressed in binary — is 0.
Jeez, what are the odds of that?
1 in 10

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Re:an so are an infinite other digits in that numb by jd · 2010-09-16 14:13 · Score: 2, Insightful

You're forgetting all the zombie networks that connect to Yahoo. There's probably a few billion nodes there, and there's not a friggin' chance Yahoo will admit to knowing about them.

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Re:So, what is the digit in decimal? by kenj0418 · 2010-09-16 14:54 · Score: 2, Insightful

I can calculate it completely in base pi: 10.0 done. What's all the fuss about? You just need to be smarter when picking your bases and you can avoid all this trouble.
Re:A serious question by Chris+Snook · 2010-09-16 15:29 · Score: 2, Insightful

Pi has the property that all binary strings of a given length occur with equal frequency, making it an excellent source of fair pseudorandom bits. There are plenty of applications in which 2 quadrillion pseudorandom bits is grossly insufficient.

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