17%
17.02.2015
_axs", "period"], {"semaj_axs":{"$lt":100}})
12 x_lab = "Semi-major axis / [AU]"
13 x_vals = ro.FloatVector([x**3 for x in rep.df.rx2(1)])
14
15 y_lab = "Orbital Period / [Years]"
16 y_vals = ro.FloatVector([x**2
17%
14.01.2016
3700 IOPS: 15,900
Optane IOPS: 70,300 (4.42x)
P3700 latency: 58µ
Optane latency: 9µ (6.44x)
Test 2
P3700 IOPS: 13,400
Optane IOPS: 95,600 (7.13x)
P3700
17%
03.12.2015
Benchmarks
Test 1
P3700 IOPS: 15,900
Optane IOPS: 70,300 (4.42x)
P3700 latency: 58µ
Optane latency: 9µ (6.44x)
Test 2
P3700 IOPS: 13,400
Optane IOPS: 95,600
17%
12.05.2021
.M.A.R.T.), you can use the smartmontools
package and, again, more specifically, the smartctl
binary (Listing 4).
Listing 4: smartctl
on SAS Drive
$ sudo smartctl -a /dev/sdc
smartctl 7.1 2019-12-30 r5022 [x86
17%
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
17%
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
17%
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
17%
30.11.2020
):
11
12 s = 0.0
13 s += h * f(a)
14 for i in range(1, n):
15 s += 2.0 * h * f(a + i*h)
16 # end for
17 s += h * f(b)
18 return (s/2.)
19 # end def
20
21
22 # Main section
23 comm = MPI
17%
25.03.2020
is '^]'.
220 smtp.gmail.com ESMTP x20sm3297437wrg.52 - gsmtp
HELP
214 2.0.0 https://www.google.com/search?btnI=RFC+5321 x20sm3297437wrg.52 - gsmtp
QUIT
221 2.0.0 closing connection x20sm3297437
17%
07.04.2022
a redundant power supply or hard disks. Its Intel Xeon 4110 processor has eight CPU cores and 32GB of RAM.
Its bigger siblings, the SNS 3655 and SNS 3695, come with 12 CPU cores on the Intel Xeon 4116 CPU
