14%
17.02.2015
Xino-Lime
Linux
All-winner A10 processor
Single ARM Cortex-A8 @1GHz
Mali-400
512MB DDR3
SATA connector, 2 USB, Fast Ethernet, USB OTG, HDMI
1.9W
$44/EUR 30
14%
01.06.2024
fashion when promised double-digit speedups like 10x by a vendor who has yet to see your code. Accomplishing a 10x speedup requires that 90 percent of the execution time be parallelized.
The span of your
14%
31.10.2025
immediately notice about this device is its excellent equipment, with USB 3.0 (4x plus 4x USB2.0!), eSATA, and HDMI, optional 10Gb Ethernet (PCI Express slot), and a Sandy Bridge processor. You can retrofit
14%
30.01.2013
, for a library that uses a specific compiler and MPI library, you would end up with a module names like atlas-3.10.0-opempi-1.6.2-open64-5.0
. The name is useful because it tells the user the library version
14%
07.06.2019
version 10.4 to version 12.3. A safe version range, then, would be to stay within version 10.4. Of course, it's entirely up to you what risks to take and what you consider a safe version range.
To update
14%
12.09.2013
: 1.0
05 Release: 1%{?dist}
06 License: GPL v2 or later
07 Source0: local.te
08 Source1: local.fc
09 Source2: local.if
10 Group: Development/Tools
11 Summary
14%
14.03.2018
is like adding a virtual cable between your two VPCs (Figure 3). You need to accept this peering in a separate step. So that the VMs can find their way out of the outer VPC later on, you now need to create
14%
14.08.2017
:14.064
90.49%
1MiB
03:47.730
88.71%
lzma
128KiB
03:10.494
90.48%
1MiB
03:44.004
88.78%
Pretty obviously
14%
04.08.2020
in the standard Python built-ins [2] and in the NumPy library [3].
Figure 1: IPython session comparing two implementations of a round routine.
Unless you
14%
22.12.2017
:1039619585(0) win 512
a:60:b2:3d:fc:af d3:7c:5b:36:4a:61 0.0.0.0.17578 > 0.0.0.0.4432: S 727135709:727135709(0) win 512
18:75:26:4c:a8:23 10:81:2a:12:e1:be 0.0.0.0.42271 > 0.0.0.0.61161: S 1071867223
