27%
26.02.2014
device (lo).
Listing 3: Parsed Bash Statistics
[laytonjb@home4 2]$ ./network_test2.py
Interface: eth0
total bytes: sent: 16.90 G recv: 114.04 M
27%
23.02.2012
/bin/gfortran
setenv F77 $topdir/bin/gfortran
setenv F90 $topdir/bin/gfortran
prepend-path PATH $topdir/include
prepend-path PATH $topdir/bin
prepend
27%
28.03.2012
--------><----------Disks-----------><----------Network---------->
#cpu sys inter ctxsw KBRead Reads KBWrit Writes KBIn PktIn KBOut PktOut
3 1 1421 2168 0 0 41000 90 0 2 0 0
3 2 1509 2198 64 2 49712
27%
27.08.2014
.5 GB 2.8% (79.4% cumulative)
35.8 GB 2.6% (82.0% cumulative)
38.0 GB 2.4% (84.4% cumulative)
40.3 GB 2.2% (86.6% cumulative)
42.5 GB 2.0% (88.6% cumulative)
44.7 GB 1.8% (90.4% cumulative)
47.0 GB 1
27%
21.04.2016
MPI_COMM_SIZE(MPI_COMM_WORLD, size, ierror)
call MPI_COMM_RANK(MPI_COMM_WORLD, rank, ierror)
print*, 'node', rank, ': Hello world'
call MPI_FINALIZE(ierror)
end
The code was compiled with mpif90
to create the binary. Running the binary
27%
25.03.2021
with 100 partitions, and 10 consumer instances. You start getting a lot of data coming into the 100-partition topic, so you turn up the number of consumers to 100, expecting to get 90 consumers with one
27%
15.08.2016
_COMM_SIZE(MPI_COMM_WORLD, size, ierror)
call MPI_COMM_RANK(MPI_COMM_WORLD, rank, ierror)
print*, 'node', rank, ': Hello world'
call MPI_FINALIZE(ierror)
end
The code was compiled with mpif90 to create the binary
27%
25.09.2023
represents hundreds of terawatt hours and, potentially, 90 million tons of CO2 released into the atmosphere [1].
Although data center efficiency and sustainability have advanced in leaps and bounds over
27%
18.07.2012
Currently Loaded Modulefiles:
1) compilers/open64/5.0
[laytonjb@n0001 ~]$ more test.f90
program test
write(6,*) ‘hello world’
stop
end
[laytonjb@n0001 ~]$ openf90 test.f90 -o test
[laytonjb@n0001
27%
15.02.2012
94
550
94
90
90
90
246
512KB < < 1MB
629
43
692
42
38
49
50
479
1MB < < 10MB
1
