27%
03.02.2022
authorized outbound mail servers. Although designed in 2004, SPF only became the standard recommended by the Internet Engineering Task Force (IETF) in 2014 [2]. From a sample of more than 3,000 domains
27%
04.12.2024
in the configuration. To prepare the AIDE database with the current status, trigger the database init with the command:
aide --init
In our lab, this took north of one and a half minutes for around 318,000 files. AIDE
27%
30.11.2025
scalability in particular: From environments with 200 systems in small to medium-sized enterprises through 70,000 interfaces in an enterprise environment, OpenNMS [1] scales without any problems, says
27%
24.09.2015
that is 80% parallelizable (20% is serial, primarily because of I/O). For one process, the wall clock time is assumed to be 1,000 seconds, which means that 200 seconds is the serial portion of the application
27%
25.01.2018
2,400 lines of stats (one for each core). If you have 100 nodes, in one minute you have gathered 24,000 lines of stats for the cluster. In one day, this is 34,560,000 lines of stats for the 100 nodes
27%
13.10.2020
be parallelized). For one process, the wall clock time is assumed to be 1,000 seconds, which means that 200 seconds of the wall clock time is the serial portion of the application. From Amdahl’s Law, the minimum
27%
24.02.2022
B?
Most of the time, IOPS are reported as a plain number (e.g., 100,000). Because IOPS has no standard definition, the number is meaningless because it does not define the payload size. However, over time
27%
10.04.2015
EUR5,000 per year for 10,000 mailboxes. Admittedly, that is not exactly cheap, but the number has little meaning.
Figure 1: The license for the S3 plugin
27%
02.02.2021
cannot be parallelized). For one process, the wall clock time is assumed to be 1,000 seconds, which means that 200 seconds of the wall clock time is the serial portion of the application. From Amdahl's Law
27%
02.08.2021
/write):
rd0: ios=0/0, merge=0/0, ticks=0/0, in_queue=0, util=0.00%
You will observe similar results with random read operations (Listings 6 and 7). The HDD produces about 2.5MBps, whereas the RAM drive
