22%
30.11.2025
: In LR-DIMMs, all of the signal lines (including the data) run through an intermediate chip; this reduces the electrical load on the memory controller.
LR-DIMMs have an Isolation Memory Buffer (iMB
22%
03.02.2022
eMMC (not populated)
Network
1x Topaz networking switch
2x GbE LAN
1x Ethernet WAN
1x MiniPCIe slot
USB
1x USB 3.0
22%
26.04.2012
: In LR-DIMMs, all of the signal lines (including the data) run through an intermediate chip; this reduces the electrical load on the memory controller.
LR-DIMMs have an Isolation Memory Buffer (iMB
22%
25.09.2013
: Stream Benchmarks
Name
Kernel
Bytes/Iteration
FLOPS/Iteration
COPY
a(i) = b(i)
16
0
SCALE
a(i) = q*b(i)
16
1
SUM
21%
10.06.2015
sounds very much like open source, Nessus became a proprietary product by Tenable Network Security 10 years ago. Up to version 3.0, the product was released under the GPL, but this stopped in October 2005
21%
13.06.2016
-securestring -string "P@ssw0rd" -asplaintext -force) -DomainName contoso.int -Language en-us
> New-VM -Name nanos1 -MemoryStartupBytes 512MB -SwitchName external -VHDPath c:\vm\nanos1\nanos1.vhd -Path c:\vm\nanos1
21%
21.08.2012
just two nodes: test1, which is the master node, and n0001, which is the first compute node):
[laytonjb@test1 ~]$ pdsh -w test1,n0001 uptime
test1: 18:57:17 up 2:40, 5 users, load average: 0.00, 0
21%
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
21%
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
21%
20.06.2012
-mounted on the compute nodes:
[laytonjb@test1 ~]$ ssh 10.1.0.1
Last login: Sat May 26 11:45:39 2012 from 10.1.0.250[laytonjb@n0001 ~]$
I didn’t have to supply a password while ssh
ing into the compute nodes this time
