"1 million factorial"의 두 판 사이의 차이

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(Have you got a current driving licence? http://auhaqypi.myscorpions.com lolitas dirty What a great light skin ass, and she is really Hot with the blonde hair running into the skin color of oher body)
 
(사용자 85명의 중간 판 184개는 보이지 않습니다)
1번째 줄: 1번째 줄:
Have you got a current driving licence? http://auhaqypi.myscorpions.com lolitas dirty  What a great light skin ass, and she is really Hot with the blonde hair running into the skin color of oher body witch makes this vid even more Hot
+
#ril https://www.quora.com/What-is-an-efficient-algorithm-to-find-the-factorial-of-huge-numbers-which-lie-in-the-range-100000-1000000
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== just by using [http://www.manpagez.com/man/1/bc/ bc] ==
http://moodle.irrelombardia.it/user/view.php?id=15460&course=1 zeps guide lolita
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rewrote a factorial function not to use recursive calling.
  She looks fine. Did nobody else notice the head of the penis on the second guy?  It's discolored. Either it's an STD or it's damaged. This ruins the video for me.
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<syntaxhighlight lang="c">
http://qaydoqosy.pornlivenews.com Non Nude Preteen Models
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define g(x) {
  I like the fact that Alexis never does black but when is she going to do anal!? Not racist lol I actually really liked this video.
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    answer=1;
 +
    for(i=1;i<x+1;i++) {
 +
        answer *= i;
 +
    }
 +
    return answer;
 +
}
 +
 
 +
g(1000000);
 +
</syntaxhighlight>
 +
real    578m28.905s<br>
 +
user    450m56.192s<br>
 +
sys    12m33.006s<br>
 +
(with poor computing power (centOS virtual machine on windows7. i5 processor))
 +
5,565,709 digits starting <div style='word-wrap: break-word;'>82639316883312400623766461031726662911353479789638730451677758855633796110356450844465305113114639733516068042108785885414647469506478361823012109754232995901156417462491737988838926919341417654578323931987280247219893964365444552161533920583519938798941774206240841593987701818807223169252057737128436859815222389311521255279546829742282164292748493887784712443572285950934362117645254493052265841197629905619012120241419002534128319433065076207004051595915117186613844750900755834037427137686877042093751023502633401248341314910217684549431273636399066971952961345733318557782792616690299056202054369409707066647851950401003675381978549679950259346666425613978573559764142083506&hellip; </div>ending with 249,998 zeros(about 4.49% of the whole digits)
 +
* more easy way to get the number of trailing zeros(from [http://answers.yahoo.com/question/index?qid=20071017145425AAaGkd2 here])
 +
<blockquote>
 +
Every multiple of 5 contributes a zero.<br>
 +
Every multiple of 25 contributes a second zero<br>
 +
Every multiple of 125 contributes a third zero<br>
 +
Every multiple of 625 contributes a fourth zero<br>
 +
etc.<br>
 +
<br>
 +
floor(1000000/5) + floor(1000000/25) + ... floor(1000000/5^8)<br>
 +
= 200,000 + 40,000 + 8,000 +1,600 +320 + 64 +12 + 2 <br>
 +
= 249,998 trailing zeros
 +
</blockquote>
 +
* someone can get this in about only 10sec!! [http://www.makewebgames.com/showthread.php/24362-Factorial-Program-in-C-1-Million-Factorial here]<br>He's saying he used FFT
 +
== ref ==
 +
http://www.luschny.de/math/factorial/FastFactorialFunctions.htm
 +
 
 +
http://www.luschny.de/math/factorial/csharp/FactorialPrimeSwing.cs.html
 +
 
 +
http://answers.google.com/answers/threadview/id/509662.html
 +
 
 +
http://en.wikipedia.org/wiki/Elliptic_curve_factorization

2017년 6월 19일 (월) 12:19 기준 최신판

  1. ril https://www.quora.com/What-is-an-efficient-algorithm-to-find-the-factorial-of-huge-numbers-which-lie-in-the-range-100000-1000000

just by using bc

rewrote a factorial function not to use recursive calling. 

define g(x) {
    answer=1;
    for(i=1;i<x+1;i++) {
        answer *= i;
    }
    return answer;
}

g(1000000);

real 578m28.905s
user 450m56.192s
sys 12m33.006s
(with poor computing power (centOS virtual machine on windows7. i5 processor))

5,565,709 digits starting

82639316883312400623766461031726662911353479789638730451677758855633796110356450844465305113114639733516068042108785885414647469506478361823012109754232995901156417462491737988838926919341417654578323931987280247219893964365444552161533920583519938798941774206240841593987701818807223169252057737128436859815222389311521255279546829742282164292748493887784712443572285950934362117645254493052265841197629905619012120241419002534128319433065076207004051595915117186613844750900755834037427137686877042093751023502633401248341314910217684549431273636399066971952961345733318557782792616690299056202054369409707066647851950401003675381978549679950259346666425613978573559764142083506…

ending with 249,998 zeros(about 4.49% of the whole digits)

  • more easy way to get the number of trailing zeros(from here)

Every multiple of 5 contributes a zero.
Every multiple of 25 contributes a second zero
Every multiple of 125 contributes a third zero
Every multiple of 625 contributes a fourth zero
etc.

floor(1000000/5) + floor(1000000/25) + ... floor(1000000/5^8)
= 200,000 + 40,000 + 8,000 +1,600 +320 + 64 +12 + 2
= 249,998 trailing zeros

  • someone can get this in about only 10sec!! here
    He's saying he used FFT

ref

http://www.luschny.de/math/factorial/FastFactorialFunctions.htm

http://www.luschny.de/math/factorial/csharp/FactorialPrimeSwing.cs.html

http://answers.google.com/answers/threadview/id/509662.html

http://en.wikipedia.org/wiki/Elliptic_curve_factorization

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