1 |
#/usr/bin/python |
2 |
# $Id:$ |
3 |
|
4 |
# |
5 |
# COPYRIGHT ACcESS 2004 - All Rights Reserved |
6 |
# |
7 |
# This software is the property of ACcESS. No part of this code |
8 |
# may be copied in any form or by any means without the expressed written |
9 |
# consent of ACcESS. Copying, use or modification of this software |
10 |
# by any unauthorised person is illegal unless that |
11 |
# person has a software license agreement with ACcESS. |
12 |
# |
13 |
|
14 |
""" |
15 |
some benchmarks for tetsing the finley solver. |
16 |
|
17 |
@var __author__: name of author |
18 |
@var __licence__: licence agreement |
19 |
var __url__: url entry point on documentation |
20 |
@var __version__: version |
21 |
@var __date__: date of the version |
22 |
""" |
23 |
|
24 |
__author__="Lutz Gross, l.gross@uq.edu.au" |
25 |
__licence__="contact: esys@access.uq.edu.au" |
26 |
__url__="http://www.iservo.edu.au/esys/escript" |
27 |
__version__="$Revision:$" |
28 |
__date__="$Date:$" |
29 |
|
30 |
from esys.finley.finleybench import * |
31 |
from esys.escript.benchmark import BenchmarkSuite,Benchmark |
32 |
|
33 |
# thlist=[1,2,4,8,16] |
34 |
thlist=[1,2,4,8,16,32] |
35 |
# thlist=[1,2,4,8,16,32,64,128] |
36 |
# thlist=[1,2,4,8,16,32,64,128] |
37 |
show=True |
38 |
ff=FinleyFilter() |
39 |
|
40 |
opt1=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.JACOBI,verbose=show) |
41 |
opt2=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.ILU0,verbose=show) |
42 |
opt3=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.RILU,verbose=show) |
43 |
# opt4=FinleyOptions(solver_method=LinearPDE.DIRECT,verbose=show) |
44 |
|
45 |
bm_L2Do1=Benchmark(name="Laplace 2D (order 1)") |
46 |
bm_L2Do1.addProblem(Laplace2DOrder1_30k()) |
47 |
bm_L2Do1.addProblem(Laplace2DOrder1_60k()) |
48 |
bm_L2Do1.addProblem(Laplace2DOrder1_120k()) |
49 |
bm_L2Do1.addProblem(Laplace2DOrder1_240k()) |
50 |
bm_L2Do1.addProblem(Laplace2DOrder1_480k()) |
51 |
bm_L2Do1.addProblem(Laplace2DOrder1_960k()) |
52 |
bm_L2Do1.addProblem(Laplace2DOrder1_1920k()) |
53 |
bm_L2Do1.addProblem(Laplace2DOrder1_3840k()) |
54 |
bm_L2Do1.addProblem(Laplace2DOrder1_7680k()) |
55 |
bm_L2Do1.addProblem(Laplace2DOrder1_15360k()) |
56 |
bm_L2Do1.addOptions(opt1) |
57 |
bm_L2Do1.addOptions(opt2) |
58 |
bm_L2Do1.addOptions(opt3) |
59 |
|
60 |
bm_L2Do2=Benchmark("Laplace 2D (order 2)") |
61 |
bm_L2Do2.addProblem(Laplace2DOrder2_30k()) |
62 |
bm_L2Do2.addProblem(Laplace2DOrder2_60k()) |
63 |
bm_L2Do2.addProblem(Laplace2DOrder2_120k()) |
64 |
bm_L2Do2.addProblem(Laplace2DOrder2_240k()) |
65 |
bm_L2Do2.addProblem(Laplace2DOrder2_480k()) |
66 |
bm_L2Do2.addProblem(Laplace2DOrder2_960k()) |
67 |
bm_L2Do2.addProblem(Laplace2DOrder2_1920k()) |
68 |
bm_L2Do2.addProblem(Laplace2DOrder2_3840k()) |
69 |
bm_L2Do2.addProblem(Laplace2DOrder2_7680k()) |
70 |
bm_L2Do2.addProblem(Laplace2DOrder2_15360k()) |
71 |
bm_L2Do2.addOptions(opt1) |
72 |
bm_L2Do2.addOptions(opt2) |
73 |
bm_L2Do2.addOptions(opt3) |
74 |
|
75 |
bm_L3Do1=Benchmark("Laplace 3D (order 1)") |
76 |
bm_L3Do1.addProblem(Laplace3DOrder1_30k()) |
77 |
bm_L3Do1.addProblem(Laplace3DOrder1_60k()) |
78 |
bm_L3Do1.addProblem(Laplace3DOrder1_120k()) |
79 |
bm_L3Do1.addProblem(Laplace3DOrder1_240k()) |
80 |
bm_L3Do1.addProblem(Laplace3DOrder1_480k()) |
81 |
bm_L3Do1.addProblem(Laplace3DOrder1_960k()) |
82 |
bm_L3Do1.addProblem(Laplace3DOrder1_1920k()) |
83 |
bm_L3Do1.addProblem(Laplace3DOrder1_3840k()) |
84 |
bm_L3Do1.addProblem(Laplace3DOrder1_7680k()) |
85 |
bm_L3Do1.addProblem(Laplace3DOrder1_15360k()) |
86 |
bm_L3Do1.addOptions(opt1) |
87 |
bm_L3Do1.addOptions(opt2) |
88 |
bm_L3Do1.addOptions(opt3) |
89 |
|
90 |
bm_L3Do2=Benchmark("Laplace 3D (order 2)") |
91 |
bm_L3Do2.addProblem(Laplace3DOrder2_30k()) |
92 |
bm_L3Do2.addProblem(Laplace3DOrder2_60k()) |
93 |
bm_L3Do2.addProblem(Laplace3DOrder2_120k()) |
94 |
bm_L3Do2.addProblem(Laplace3DOrder2_240k()) |
95 |
bm_L3Do2.addProblem(Laplace3DOrder2_480k()) |
96 |
bm_L3Do2.addProblem(Laplace3DOrder2_960k()) |
97 |
bm_L3Do2.addProblem(Laplace3DOrder2_1920k()) |
98 |
bm_L3Do2.addProblem(Laplace3DOrder2_3840k()) |
99 |
bm_L3Do2.addProblem(Laplace3DOrder2_7680k()) |
100 |
bm_L3Do2.addProblem(Laplace3DOrder2_15360k()) |
101 |
bm_L3Do2.addOptions(opt1) |
102 |
bm_L3Do2.addOptions(opt2) |
103 |
bm_L3Do2.addOptions(opt3) |
104 |
|
105 |
bm_A2Do1g30=Benchmark("Anisotropic 2D (gamma=30, order=1)") |
106 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_30k()) |
107 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_60k()) |
108 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_120k()) |
109 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_240k()) |
110 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_480k()) |
111 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_960k()) |
112 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_1920k()) |
113 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_3840k()) |
114 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_7680k()) |
115 |
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_15360k()) |
116 |
bm_A2Do1g30.addOptions(opt1) |
117 |
bm_A2Do1g30.addOptions(opt2) |
118 |
bm_A2Do1g30.addOptions(opt3) |
119 |
|
120 |
bm_A2Do1g45=Benchmark("Anisotropic 2D (gamma=45, order=1)") |
121 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_30k()) |
122 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_60k()) |
123 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_120k()) |
124 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_240k()) |
125 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_480k()) |
126 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_960k()) |
127 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_1920k()) |
128 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_3840k()) |
129 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_7680k()) |
130 |
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_15360k()) |
131 |
bm_A2Do1g45.addOptions(opt1) |
132 |
bm_A2Do1g45.addOptions(opt2) |
133 |
bm_A2Do1g45.addOptions(opt3) |
134 |
|
135 |
bm_A2Do2g30=Benchmark("Anisotropic 2D (gamma=30, order=2)") |
136 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_30k()) |
137 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_60k()) |
138 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_120k()) |
139 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_240k()) |
140 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_480k()) |
141 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_960k()) |
142 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_1920k()) |
143 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_3840k()) |
144 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_7680k()) |
145 |
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_15360k()) |
146 |
bm_A2Do2g30.addOptions(opt1) |
147 |
bm_A2Do2g30.addOptions(opt2) |
148 |
bm_A2Do2g30.addOptions(opt3) |
149 |
|
150 |
|
151 |
bm_A2Do2g45=Benchmark("Anisotropic 2D (gamma=45, order=2)") |
152 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_30k()) |
153 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_60k()) |
154 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_120k()) |
155 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_240k()) |
156 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_480k()) |
157 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_960k()) |
158 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_1920k()) |
159 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_3840k()) |
160 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_7680k()) |
161 |
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_15360k()) |
162 |
bm_A2Do2g45.addOptions(opt1) |
163 |
bm_A2Do2g45.addOptions(opt2) |
164 |
bm_A2Do2g45.addOptions(opt3) |
165 |
|
166 |
|
167 |
bm_A3Do1g30=Benchmark("Anisotropic 3D (gamma=30, order=1)") |
168 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_30k()) |
169 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_60k()) |
170 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_120k()) |
171 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_240k()) |
172 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_480k()) |
173 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_960k()) |
174 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_1920k()) |
175 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_3840k()) |
176 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_7680k()) |
177 |
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_15360k()) |
178 |
bm_A3Do1g30.addOptions(opt1) |
179 |
bm_A3Do1g30.addOptions(opt2) |
180 |
bm_A3Do1g30.addOptions(opt3) |
181 |
|
182 |
bm_A3Do1g45=Benchmark("Anisotropic 3D (gamma=45, order=1)") |
183 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_30k()) |
184 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_60k()) |
185 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_120k()) |
186 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_240k()) |
187 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_480k()) |
188 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_960k()) |
189 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_1920k()) |
190 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_3840k()) |
191 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_7680k()) |
192 |
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_15360k()) |
193 |
bm_A3Do1g45.addOptions(opt1) |
194 |
bm_A3Do1g45.addOptions(opt2) |
195 |
bm_A3Do1g45.addOptions(opt3) |
196 |
|
197 |
bm_A3Do2g30=Benchmark("Anisotropic 3D (gamma=30, order=2)") |
198 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_30k()) |
199 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_60k()) |
200 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_120k()) |
201 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_240k()) |
202 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_480k()) |
203 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_960k()) |
204 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_1920k()) |
205 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_3840k()) |
206 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_7680k()) |
207 |
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_15360k()) |
208 |
bm_A3Do2g30.addOptions(opt1) |
209 |
bm_A3Do2g30.addOptions(opt2) |
210 |
bm_A3Do2g30.addOptions(opt3) |
211 |
|
212 |
bm_A3Do2g45=Benchmark("Anisotropic 3D (gamma=45, order=2)") |
213 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_30k()) |
214 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_60k()) |
215 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_120k()) |
216 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_240k()) |
217 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_480k()) |
218 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_960k()) |
219 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_1920k()) |
220 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_3840k()) |
221 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_7680k()) |
222 |
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_15360k()) |
223 |
bm_A3Do2g45.addOptions(opt1) |
224 |
bm_A3Do2g45.addOptions(opt2) |
225 |
bm_A3Do2g45.addOptions(opt3) |
226 |
|
227 |
|
228 |
bms=BenchmarkSuite("Paso/Finley") |
229 |
bms.addBenchmark(bm_L2Do1) |
230 |
bms.addBenchmark(bm_L2Do2) |
231 |
bms.addBenchmark(bm_L3Do1) |
232 |
bms.addBenchmark(bm_L3Do2) |
233 |
bms.addBenchmark(bm_A2Do1g30) |
234 |
bms.addBenchmark(bm_A2Do1g45) |
235 |
bms.addBenchmark(bm_A2Do2g30) |
236 |
bms.addBenchmark(bm_A2Do2g45) |
237 |
bms.addBenchmark(bm_A3Do1g30) |
238 |
bms.addBenchmark(bm_A3Do1g45) |
239 |
bms.addBenchmark(bm_A3Do2g30) |
240 |
bms.addBenchmark(bm_A3Do2g45) |
241 |
bms.run(scale=thlist) |
242 |
out=bms.getHTML(filter=ff) |
243 |
print out |