Main program run:
Job start : 6th June 1997 22:29:06
Job end : 8th June 1997 03:32:17
Elapsed time : 29:03:11
Main memory : 212 GB
Algorithm : Borweins' 4-th order convergent algorithm
Verification program run:
Job start : 4th July 1997 22:11:42
Job end : 6th July 1997 11:19:58
Elapsed time : 37:08:16
Main memory : 188 GB
Algorithm : Gauss-Legendre algorithm(Brent-Salamin)
Optimized main program run:
Job start : 1st August 1997 23:04:15
Job end : 3rd August 1997 00:18:47
Elapsed time : 25:14:32
Main memory : 212 GB
Algorithm : Borweins' 4-th order convergent algorithm
3 hours = 3 hours PAST 12 o'clock = (3 x 1 billion) - 4.6 billion = 3 billion - 4.6 billion = -1.6 billion years = 1.6 billion years ago6 hours = 6 hours PAST 12 o'clock = -1.6 billion years + (3 x 1 billion) = -1.6 billion + 3 billion = 1.4 billion years ago
1 billion seconds is 277,777.7778 hours.
The duration of The Billion Dollar Hobo is 1.6 hours.
100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 billion hours
114,079.46 years! thats a lot!
After several hours, my supercomputer brain came up with the answer! It is 14.
60 minutes = 1 hour ⇒ 740 billion minutes = 740 billion ÷ 60 hours = 121/3 billion hours
3 hours = 3 hours PAST 12 o'clock = (3 x 1 billion) - 4.6 billion = 3 billion - 4.6 billion = -1.6 billion years = 1.6 billion years ago6 hours = 6 hours PAST 12 o'clock = -1.6 billion years + (3 x 1 billion) = -1.6 billion + 3 billion = 1.4 billion years ago
1 billion seconds is 277,777.7778 hours.
16,666,666.666 hours in 1 billion minutes
4 billion years = 3.50632511 × 1013 hours
One billion years is approximately 8,765,810,000,000 hours.
11,666,666,666 hours 11.6 billion hours which is 486 million days which is 1.33 million years
A billion...Nanoseconds (0.00027777777777777777777777.....)Microseconds (0.27777777777777777777777777.....)Milliseconds (277.77777777777777777777777777.....)Seconds (277,777.7777777777777777777777777.....)Minutes (16,666,666.66666666666666666666666.....)Hours (1 billion)Days (24 billion)Weeks (168 billion)Years (8,766 billion, or 8.766 trillion)
Hello my friend sorry for taking so long dfor this question , when pi was calculated 2037 in 1949 it took 70 hours to do on the ENIAC computer. 70 hours.
The duration of Mr. Billion is 1.48 hours.
1 billion hours = 114,077.1 years Using: 1 year = 365.25 days