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25.09.2013
the code states should be good enough for caches up to 20MB. The Stream FAQ recommends you use a problem size such that each array is four times the sum of the caches (L1, L2, and L3). You can either change
29%
09.01.2013
http://opennebula.org/repo/ openSUSE/12.3/stable/x86_64 opennebula
zypper refresh
zypper install opennebula
zypper install opennebula-sunstone
For Debian and Ubuntu, a tarball is available with several
29%
10.06.2024
in gigaflops per watt over time. The first Green500 list was in June 2013. The number 1 system used GPUs even then (NVIDIA K20 with QDR InfiniBand). The energy efficiency was 3,208.8Mflops/W (0.32Gflops
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17.09.2013
–17 (seven orders of magnitude difference). The lower number is just about one error per gigabit of memory per hour. The upper number indicates roughly one error every 1,000 years per gigabit of memory
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21.12.2011
clock time = 46.156027 seconds
cpu clock time = 46.160000 seconds
Iterations = 7
Final Relative Residual Norm = 3.535135e-07
[openss]: Converting raw data from /home/jeg/chaos_4_x86_64_ib
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05.12.2014
(colour = guide_legend(override.aes = list(size=3)))
+ theme(axis.text.x
= element_text(face = "bold", color="black"), axis.text.y
= element_text(face = "bold", color="black"), axis.title.x
= element
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08.06.2021
numpy as np
nx = 100
ny = 100
a = np.random.rand(nx,ny)
b = np.random.rand(ny)
x = np.linalg.solve(a, b)
Array a
and the second part of the tuple, b
,
are created by a random number generator with random
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05.08.2024
: hardly any difference here. Bear in mind, I set up a comparison between 10x10 arrays, 100 elements defined as integers on a 64-bit processor, totaling 8,000 bytes. Even on the dated Core i5 processor used
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28.07.2025
series, which were originally developed for gaming and professional visualization but are also suitable for AI because of their good compute power and CUDA compatibility.
With 24GB of GDDR6X memory and up
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17.06.2017
+ X3 +
1 X4 + X5 + X6
-----------------------------
11111111112222222222
12345678901234567890123456789
By default, F77 defines variables starting with (upper- or lowercase) i, j
