6%
15.08.2012
(32-bit).
The examples used in this column were built and run on a Limulus personal cluster running Scientific Linux 6.2 on an Intel i5-2400S with 4GB of memory. If don't want to bother building
6%
13.06.2016
in Figure 4 shows the example of a case where the user has configured two compression logical instances for a process called SSL. The userspace process may then access these logical instances by calling cpa
6%
04.11.2011
cases, administrators turn to projects such as Parallel SSH [4] to handle SSH automation for cluster administration.
Another important part of administration is hardware monitoring to identify
6%
07.10.2014
.
The third summary line (Figure 4) presents CPU information. Moving left to right, the first number here is the percent CPU from userspace (%us, i.e., user applications), which is 13.4% in my example
6%
14.06.2017
block sizes other than the typical 4KB has created some difficulties for SquashFS.
SquashFS doesn’t decompress the blocks into the kernel pagecache. This means that SquashFS has its own caches: one
6%
16.07.2019
+=x[i]
return total
x = numpy.arange(10_000_000);
%time sum(x)
CPU times: user 145 ms, sys: 4.02 ms, total: 149 ms
Wall time: 149 ms
A speedup is nice to see, but believe it or not, quite a bit of the time
6%
10.06.2024
) in the summer and 50°F (10°C) in the winter, HPC relative to the rest of the world is very small: 0.2%. Even if the HPC world doubled their power use in the next year, it would still only be roughly 0.4
6%
26.01.2012
information about the lseek() functions.
Table 4 below contains information on the lseek function usage in various input and output files used by the application.
Table 4 - Lseek Function calls
File
6%
31.05.2012
Octave
R
JavaScript
v3f670da0
v2.7.1
vR2011a
v3.4
v2.14.2
v8 3.6.6.11
fib
1.97
31.47
1,336.37
2
6%
15.02.2012
information about the lseek() functions.
Table 4 below contains information on the lseek function usage in various input and output files used by the application.
Table 4 - Lseek Function calls
File
