31%
09.12.2019
to check follows
a, b = 1,2
c = a + b
# Code to check ends
end_time = time.time()
time_taken = (end_time- start_time)
print(" Time taken in seconds: {0} s").format(time_taken_in_micro)
If a section of code
31%
30.01.2020
()
12724903 3.878 0.000 3.878 0.000 {built-in method builtins.min}
1 2.649 2.649 2.727 2.727 md_002.py:10(init)
50 0.168 0.003 0.168 0.003 md_002.py:127(update
31%
12.05.2021
Power condition transitions [pct]
0x2f Informational exceptions [ie]
0x37 Cache (seagate) [c_se]
0x38
0x3e Factory (seagate) [f_se]
As you can see, you can observe data for write, read
31%
02.08.2021
results [str]
0x15 Background scan results [bsr]
0x18 Protocol specific port [psp]
0x1a Power condition transitions [pct]
0x2f Informational exceptions [ie]
0
31%
07.07.2020
SERVER PORT DEV FSID FSC
v4 c0a8010d 801 0:53 7867b2b773c843a1:83c2d5c0f7015194 no
For the NFS client, you can install FS-Cache on the desktop:
$ sudo apt-get install cachefilesd -y
By default, the cachefilesd
package
31%
16.03.2021
identified the following physical drives that I will be using in my examples:
$ cat /proc/partitions |grep -e sd[c,d] -e nvm
259 0 244198584 nvme0n1
259 2 244197543 nvme0n1p1
8 32
31%
11.05.2021
Cores
N
Elapsed Time (secs)
GFLOPS
Elapsed Time (secs)
GFLOPS
Elapsed Time (secs)
GFLOPS
Elapsed Time (secs)
GFLOPS
2
0
31%
25.09.2023
says.
In other quantum computing news, Google recently announced (https://security.googleblog.com/2023/08/toward-quantum-resilient-security-keys.html) a quantum-resilient FIDO2 security key ... ; IEEE Releases New Standard for LiFi Communications; EU Health Sector Security Risks; and JupyterLab 4.0.
31%
28.11.2022
CKSUM
myvol2 ONLINE 0 0 0
draid1:3d:5c:1s-0 ONLINE 0 0 0
sdb ONLINE 0 0 0
sdc
31%
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
