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
60 minutes = 1 hour ⇒ 740 billion minutes = 740 billion ÷ 60 hours = 121/3 billion 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
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