20%
13.12.2022
.2 MB/s | 11 MB 00:05
Rocky Linux 8 - BaseOS 1.4 MB/s | 9.0 MB 00:06
Rocky Linux 8 - Extras
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21.08.2012
6 ### 8/5/2012
7
8 ### Set the job name
9 #PBS -N mpi_pi_fortran90
10
11 ### Run in the queue named “batch”
12 #PBS -q batch
13
14 ### Specify the number of cpus for your job. This example
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01.08.2012
| 358 kB 00:00
(4/12): hwloc-1.1-0.1.el6.x86_64.rpm | 1.0 MB 00:00
(5/12): libX11-1.3-2.el6.x86_64.rpm
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14.06.2017
to compress the data to 91.53% of its uncompressed size, or to 328MB (327.34MB).
Notice that I used the time
command to time how long it took to run the command. The results were:
real 0m7.675s
user 0m
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14.08.2017
that I used the time command to time how long it took to run the command. The results were:
real 0m7.675s user 0m29.074s sys 0m1.002s
This looks to be pretty fast for compressing 358MB of data (on an SSD
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01.08.2012
mpi/mpich2/1.5b1 modulefile
#%Module1.0#####################################################################
##
## modules mpi/mpich2/1.5b1
##
## modulefiles/mpi/mpich2/2.1.5b1 Written by Jeff
20%
17.02.2015
Xino-Lime
Linux
All-winner A10 processor
Single ARM Cortex-A8 @1GHz
Mali-400
512MB DDR3
SATA connector, 2 USB, Fast Ethernet, USB OTG, HDMI
1.9W
$44/EUR 30
19%
21.01.2021
processors running at 167MHz. It had options for 128, 256, or 512MB of SRAM main memory and was the first supercomputer to sustain greater than 1GFLOPS (10^9 floating point operations per second
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21.08.2012
in the VNFS by appending the following lines to the file:
update-hz 3
port 19150
allow-host 10.1.0.250
fs-interval 2
nfs-interval 16
inet-interval 0
Then, on the master node (i.e., IP address 10.1.0
19%
30.01.2020
()
12724903 3.878 0.000 3.878 0.000 {built-in method builtins.min}
1 2.649 2.649 2.727 2.727 md_002.py:10(init)
50 0.168 0.003 0.168 0.003 md_002.py:127(update
