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09.08.2015
/956026386
Cobie Smulders - Maria Hill 23514560145
Hugh jackman - Wolverine 801539193
Paul Rudd - Ant Man 497349000
Listing 2
testlist.txt
22 April 1984
7.04.1985
30 March 1986
19 April 1987
03
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05.08.2024
= [size][size]int {{0},{0},}
08
09 for i := 0; i < size; i++ {
10 for j := 0; j < size; j++ {
11 array[i][j]++
12 }
13 }
14
15
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30.11.2020
):
11
12 s = 0.0
13 s += h * f(a)
14 for i in range(1, n):
15 s += 2.0 * h * f(a + i*h)
16 # end for
17 s += h * f(b)
18 return (s/2.)
19 # end def
20
21
22 # Main section
23 comm = MPI
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07.11.2011
print str(id) + ' Total waste of CPU cycles!'
08
09 if '__main__' == __name__:
10
11 for i in xrange(20):
12 Process(target = waste, args = (i,)).start()
The counting.py
program delays
19%
13.12.2018
_64 3/4
19 Verifying : bzip2-1.0.6-13.el7.x86_64 4/4
20
21 Installed:
22 mssql-server.x86_64 0:14.0.3026.27-2
23
24 Dependency
19%
17.06.2017
real :: diameter
08 real :: radius
09 real :: area
10 end type meta_data
11
12 contains
13 subroutine meta_comp(r, item)
14 type(meta_data) :: item
15 item%diameter = 2.0
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10.04.2015
]
20 }
21 ]
22 }
23 ]
24 }
The script that performs the rsync operation, sync.sh, will look like Listing 3. Your script might be more complex (e.g., by adding some sort
19%
01.06.2024
* argv[])
08 {
09 long niter = 1000000000;
10 int myid; //holds process's rank id
11 double x,y; //x,y value for the random coordinate
12 int i;
13
19%
18.07.2013
backend3.example.com server;
05 backend4.example.com server down;
06 backend5.example.com backup server;
07 }
08
09 upstream fallback {
10 fallback1.example.com server: 8081;
11 }
12
13
14 server {
15 %
16
19%
20.10.2013
database [for details use: -P show]
ATA Version is: 8
ATA Standard is: ACS-2 (unknown minor revision code: 0x001f)
Local Time is: Sun Oct 13 09:12:15 2013 EDT
SMART support is: Available - device has SMART
