17%
20.02.2012
time: 11.79 secs
Data transferred: 2.47 MB
Response time: 0.22 secs
Transaction rate: 35.79 trans/sec
Throughput: 0
17%
23.07.2012
.13.134.52):
Not shown: 994 filtered ports
PORT STATE SERVICE VERSION
22/tcp open ssh OpenSSH 4.3 (protocol 2.0)
25/tcp closed smtp
53/tcp open domain ISC BIND 9.3
17%
05.12.2018
nmon
.
htop
Written in C and curses, h
top
is a very popular replacement tool for top
and displays charts at the top of the interface.
A good article and a YouTube video
17%
17.03.2020
:
$ cat /proc/partitions|grep nvme
259 0 244198584 nvme0n1
259 3 97654784 nvme0n1p1
259 4 96679936 nvme0n1p2
I will be using partition 1 for the L2ARC read cache, so to enable
17%
27.09.2021
Ubuntu Startup Improvement
Distribution
AMI Tested
OS Boot (s)
Service Start (s)
Total (s)
Trusty (14.04)
ami-05dc324761386f3a9
14.581
3
17%
20.06.2022
_domains = "*"
# Keycloak configuration
oidc_issuer_url = "http://localhost:8080/realms/testrealm"
provider = "keycloak-oidc"
client_id = "proxy"
client_secret = "t1BmFL4HHk7xC6nPYJEMfiprMfw1QK7b"
# Cookie settings
cookie
17%
28.11.2022
/s, 133M issued at 133M/s, 81.6M total
0B repaired, 163.06% done, no estimated completion time
scan: resilvered (draid1:3d:5c:1s-0) 20.2M in 00:00:00 with 0 errors on Mon Oct 24 17:11:22 2022
17%
18.02.2018
code is written and compiled in one of three classic HPC languages: Fortran [2], C++ [3], or C [4].
Why these languages? Because they have enabled generation of very efficient code for a long time
17%
02.06.2020
around the GIL is to run computationally intensive code outside of Python with tools such as Cython [1] and ctypes [2]. You can even use F2PY [3] with compiled C functions.
All of the previously mentioned
17%
02.06.2020
on a local NVMe device:
$ cat /proc/partitions|grep nvme
259 0 244198584 nvme0n1
259 3 97654784 nvme0n1p1
259 4 96679936 nvme0n1p2
I will be using partition 1 for the L2ARC read
