17%
16.03.2021
B/s-1404kB/s), io=80.5MiB (84.4MB), run=60145-60145msec
Disk stats (read/write):
md0: ios=100/20614, merge=0/0, ticks=0/0, in_queue=0, util=0.00%, aggrios=103/20776, aggrmerge=0/0, aggrticks=12
17%
13.12.2018
of the data was still residing in the kernel's page cache [6], waiting eventually to be persisted to disk. This resulted in an impressive (and impossible for the hardware) 885MBps transfer rate, but not to disk
17%
30.11.2025
processor cores. Depending on the functional scope, the prices are between US$ 1,000 and US$ 5,000, including 12 months of free upgrades, news, and information.
For server virtualization newcomers, Citrix ... Version 5.6 of Citrix XenServer is a feature-stripped version of the virtualization product and is available free, in addition to the commercial Advanced, Enterprise, and Platinum editions.
17%
18.07.2013
D revision 1
10 Supported: 7 6 5 4
11 Configuration:
12 Logical max current
13 cylinders 16383 16383
14 heads 16 16
15
17%
04.08.2011
. Depending on the functional scope, the prices are between US$ 1,000 and US$ 5,000 including 12 months of free upgrades, news, and information.
For newcomers to the world of server virtualization, Citrix ... Version 5.6 of Citrix XenServer is a feature-stripped version of the virtualization product and is available free, in addition to the commercial Advanced, Enterprise, and Platinum editions.
17%
04.06.2013
. (Each Ivy Bridge socket has 12 cores and each Xeon Phi socket has 57.) Each node consists of two Ivy Bridge sockets and three Intel Xeon Phi sockets; the system has a total of 16,000 nodes. Each node has
16%
25.03.2021
[1] sdc1[0]
244065408 blocks super 1.2 [2/2] [UU]
[=>...................] resync = 6.4% (15812032/244065408) finish=19.1min speed=198449K/sec
bitmap: 2/2 pages [8KB], 65536KB chunk
16%
26.02.2014
of time writing: 0 ms
sdd1 :
Number of reads: 1,544 Number of bytes: 77.75 M Read Rate: 0.00 B/s
Amount of time reading: 12,477 ms
Number of writes: 18,263 Number of bytes: 148.16 M
16%
15.02.2012
call count for the MB range intervals. Figure 6 plots the write IO function call count for the GB range intervals. Figure 7 plots the write IO function call count for the TB range intervals
16%
26.01.2012
call count for the MB range intervals. Figure 6 plots the write IO function call count for the GB range intervals. Figure 7 plots the write IO function call count for the TB range intervals
