16%
25.09.2023
compete with x86 chips from Intel and AMD, or even the best many-core ARM offerings, but it shows great promise and is therefore worth tinkering with.
Figure
16%
07.04.2022
://github.com/weaveworks/footloose/releases | grep download | grep linux-x86_64 | awk -F '"' '{print $2}'|head -1)" -o /usr/local/bin/footloose && chmod +x /usr/local/bin/footloose
If you don't have sudo privileges on your machine, use
16%
23.03.2022
laytonjb laytonjb 19946519 Nov 20 2020 Lmod-8.4.15.tar.gz
31988342 drwxrwxr-x 2 laytonjb laytonjb 4096 Oct 27 14:22 mpibzip2-0.6
31988329 -rw-rw-r-- 1 laytonjb laytonjb 92160 Oct 27 14:18 mpibzip
16%
07.04.2022
,BROADCAST,RUNNING,MULTICAST> mtu 1460
inet 10.0.0.2 netmask 255.255.255.255 broadcast 0.0.0.0
inet6 fe80::bfd3:1a4b:f76b:872a prefixlen 64 scopeid 0x20
ether 42:01:0a:80:00:02 txqueuelen 1000
16%
24.02.2022
.255.255.255 broadcast 0.0.0.0
inet6 fe80::bfd3:1a4b:f76b:872a prefixlen 64 scopeid 0x20
ether 42:01:0a:80:00:02 txqueuelen 1000 (Ethernet)
RX packets 11919 bytes 61663030 (58.8 Mi
16%
17.05.2017
, ALLOCATABLE, TARGET :: DATA(:,:) ! Data to write
18 INTEGER :: RANK = 2 ! Dataset rank
19
20 CHARACTER(MPI_MAX_PROCESSOR_NAME) HOSTNAME
21 CHARACTER(LEN=100) :: FILENAME ! File name
22 CHARACTER(LEN=3) :: C
16%
01.06.2024
is 20x because only 95 percent of the algorithm can execute in parallel (compute the fraction 1/20 from that 5% number). That limitation led to a search for embarrassingly parallel
algorithms
16%
13.04.2023
7: Loading Lmod (laytonjb)
[laytonjb@warewulf ~]$ module avail
--------------------------- /opt/modulefiles/Core ----------------------------
anaconda.22.9.0 gnu/8.5 lmod nvhpc/20.11 settarg
16%
28.11.2022
: 42 Celsius
federico@voronoi:~$
Infos
Sound-proofing a Picocluster: https://twitter.com/0xF2/status/1244422315011645444
Noctua NF-A6x25 PWM, Premium Quiet Fan, 4-Pin (60mm): https
15%
30.01.2024
Dell Precision Workstation T7910
Power
1,300W
CPU
2x Intel Xeon Gold E5-2699 V4, 22 cores, 2.4GHz, 55MB of cache, LGA 2011-3
GPU, NPU
n/a*
Memory
