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If we use the GNFS, how in the world will we find a computer powerful enough to solve the matrix?
the 1024 bit key has a $100,000 prize. We should apply whatever we do here and win it.
O(exp((c+o(1)) * log(n)^(1/3) * log log (n)^2/3)
I only think that people would more or less be willing to do it if all the had to do was put a program on their computer, that could easily be uninstalled by removing one file.
wouldn't it be best to start at sqrt(n) and work either up or down (both if adventuresome) because don't the factors usually have about half as many digits as n? so, they'd be closer to sqrt(n) than 3 or n/3.
Also, for anyone thinking about Trial Division, I promise it won't work. If you write a program that starts with three, and adds two to every number after that, it will take absolutely forever.
Will you set [a BOINC project] up, Lionel?
1024 bits is 128 bytes. That is a big number. It would be impossible with a ti-84.
Anyway, one positive thing about this is that it could maybe spark interest from non-calc communities as well
I hate to be a party pooper, but the computer power required to do something like this is inconceivable.
Assuming that the computing power in 2015(and that we don't die in 2012) is powerful enough to crack one in 2 years(which is a big assumption), the nspire would likely be replaced or on the verge of replacement, going off of TI's previous release cycles.
I think the TI-Nspire is going to be the last "true" graphic calculator made by TI.As you aren't using a mechanical calculator, I think we won't be using graphic calculators any more in 10 years.What we'll be using will be a little portable computer (netbook? pocketPC? PDA? phone?...) with a non-math oriented OS, but running a math-software.
I was thinking: if we used ndless, could we ever access the area of the memory to change the factor required? We could make our own rsa key and replace ti's (making a key takes like 3 seconds)