test/python/runbenchmark.py

#/usr/bin/python
# $Id:$

#
#      COPYRIGHT ACcESS 2004 -  All Rights Reserved
#
#   This software is the property of ACcESS.  No part of this code
#   may be copied in any form or by any means without the expressed written
#   consent of ACcESS.  Copying, use or modification of this software
#   by any unauthorised person is illegal unless that
#   person has a software license agreement with ACcESS.
#

"""
some benchmarks for tetsing the finley solver.

@var __author__: name of author
@var __licence__: licence agreement
var __url__: url entry point on documentation
@var __version__: version
@var __date__: date of the version
"""

__author__="Lutz Gross, l.gross@uq.edu.au"
__licence__="contact: esys@access.uq.edu.au"
__url__="http://www.iservo.edu.au/esys/escript"
__version__="$Revision:$"
__date__="$Date:$"

from esys.finley.finleybench import *
from esys.escript.benchmark import BenchmarkSuite,Benchmark

# thlist=[1,2,4,8,16]
thlist=[1,2,4,8,16,32]
# thlist=[1,2,4,8,16,32,64,128]
# thlist=[1,2,4,8,16,32,64,128]
show=True
ff=FinleyFilter()

opt1=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.JACOBI,verbose=show)
opt2=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.ILU0,verbose=show)
opt3=FinleyOptions(solver_method=LinearPDE.PCG,preconditioner=LinearPDE.RILU,verbose=show)
# opt4=FinleyOptions(solver_method=LinearPDE.DIRECT,verbose=show)

bm_L2Do1=Benchmark(name="Laplace 2D (order 1)")
bm_L2Do1.addProblem(Laplace2DOrder1_30k())
bm_L2Do1.addProblem(Laplace2DOrder1_60k())
bm_L2Do1.addProblem(Laplace2DOrder1_120k())
bm_L2Do1.addProblem(Laplace2DOrder1_240k())
bm_L2Do1.addProblem(Laplace2DOrder1_480k())
bm_L2Do1.addProblem(Laplace2DOrder1_960k())
bm_L2Do1.addProblem(Laplace2DOrder1_1920k())
bm_L2Do1.addProblem(Laplace2DOrder1_3840k())
bm_L2Do1.addProblem(Laplace2DOrder1_7680k())
bm_L2Do1.addProblem(Laplace2DOrder1_15360k())
bm_L2Do1.addOptions(opt1)
bm_L2Do1.addOptions(opt2)
bm_L2Do1.addOptions(opt3)

bm_L2Do2=Benchmark("Laplace 2D (order 2)")
bm_L2Do2.addProblem(Laplace2DOrder2_30k())
bm_L2Do2.addProblem(Laplace2DOrder2_60k())
bm_L2Do2.addProblem(Laplace2DOrder2_120k())
bm_L2Do2.addProblem(Laplace2DOrder2_240k())
bm_L2Do2.addProblem(Laplace2DOrder2_480k())
bm_L2Do2.addProblem(Laplace2DOrder2_960k())
bm_L2Do2.addProblem(Laplace2DOrder2_1920k())
bm_L2Do2.addProblem(Laplace2DOrder2_3840k())
bm_L2Do2.addProblem(Laplace2DOrder2_7680k())
bm_L2Do2.addProblem(Laplace2DOrder2_15360k())
bm_L2Do2.addOptions(opt1)
bm_L2Do2.addOptions(opt2)
bm_L2Do2.addOptions(opt3)

bm_L3Do1=Benchmark("Laplace 3D (order 1)")
bm_L3Do1.addProblem(Laplace3DOrder1_30k())
bm_L3Do1.addProblem(Laplace3DOrder1_60k())
bm_L3Do1.addProblem(Laplace3DOrder1_120k())
bm_L3Do1.addProblem(Laplace3DOrder1_240k())
bm_L3Do1.addProblem(Laplace3DOrder1_480k())
bm_L3Do1.addProblem(Laplace3DOrder1_960k())
bm_L3Do1.addProblem(Laplace3DOrder1_1920k())
bm_L3Do1.addProblem(Laplace3DOrder1_3840k())
bm_L3Do1.addProblem(Laplace3DOrder1_7680k())
bm_L3Do1.addProblem(Laplace3DOrder1_15360k())
bm_L3Do1.addOptions(opt1)
bm_L3Do1.addOptions(opt2)
bm_L3Do1.addOptions(opt3)

bm_L3Do2=Benchmark("Laplace 3D (order 2)")
bm_L3Do2.addProblem(Laplace3DOrder2_30k())
bm_L3Do2.addProblem(Laplace3DOrder2_60k())
bm_L3Do2.addProblem(Laplace3DOrder2_120k())
bm_L3Do2.addProblem(Laplace3DOrder2_240k())
bm_L3Do2.addProblem(Laplace3DOrder2_480k())
bm_L3Do2.addProblem(Laplace3DOrder2_960k())
bm_L3Do2.addProblem(Laplace3DOrder2_1920k())
bm_L3Do2.addProblem(Laplace3DOrder2_3840k())
bm_L3Do2.addProblem(Laplace3DOrder2_7680k())
bm_L3Do2.addProblem(Laplace3DOrder2_15360k())
bm_L3Do2.addOptions(opt1)
bm_L3Do2.addOptions(opt2)
bm_L3Do2.addOptions(opt3)

bm_A2Do1g30=Benchmark("Anisotropic 2D (gamma=30, order=1)")
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_30k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_60k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_120k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_240k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_480k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_960k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_1920k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_3840k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_7680k())
bm_A2Do1g30.addProblem(Anisotropic2DOrder1Gamma30_15360k())
bm_A2Do1g30.addOptions(opt1)
bm_A2Do1g30.addOptions(opt2)
bm_A2Do1g30.addOptions(opt3)

bm_A2Do1g45=Benchmark("Anisotropic 2D (gamma=45, order=1)")
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_30k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_60k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_120k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_240k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_480k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_960k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_1920k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_3840k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_7680k())
bm_A2Do1g45.addProblem(Anisotropic2DOrder1Gamma45_15360k())
bm_A2Do1g45.addOptions(opt1)
bm_A2Do1g45.addOptions(opt2)
bm_A2Do1g45.addOptions(opt3)

bm_A2Do2g30=Benchmark("Anisotropic 2D (gamma=30, order=2)")
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_30k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_60k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_120k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_240k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_480k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_960k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_1920k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_3840k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_7680k())
bm_A2Do2g30.addProblem(Anisotropic2DOrder2Gamma30_15360k())
bm_A2Do2g30.addOptions(opt1)
bm_A2Do2g30.addOptions(opt2)
bm_A2Do2g30.addOptions(opt3)


bm_A2Do2g45=Benchmark("Anisotropic 2D (gamma=45, order=2)")
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_30k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_60k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_120k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_240k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_480k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_960k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_1920k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_3840k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_7680k())
bm_A2Do2g45.addProblem(Anisotropic2DOrder2Gamma45_15360k())
bm_A2Do2g45.addOptions(opt1)
bm_A2Do2g45.addOptions(opt2)
bm_A2Do2g45.addOptions(opt3)


bm_A3Do1g30=Benchmark("Anisotropic 3D (gamma=30, order=1)")
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_30k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_60k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_120k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_240k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_480k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_960k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_1920k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_3840k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_7680k())
bm_A3Do1g30.addProblem(Anisotropic3DOrder1Gamma30_15360k())
bm_A3Do1g30.addOptions(opt1)
bm_A3Do1g30.addOptions(opt2)
bm_A3Do1g30.addOptions(opt3)

bm_A3Do1g45=Benchmark("Anisotropic 3D (gamma=45, order=1)")
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_30k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_60k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_120k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_240k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_480k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_960k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_1920k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_3840k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_7680k())
bm_A3Do1g45.addProblem(Anisotropic3DOrder1Gamma45_15360k())
bm_A3Do1g45.addOptions(opt1)
bm_A3Do1g45.addOptions(opt2)
bm_A3Do1g45.addOptions(opt3)

bm_A3Do2g30=Benchmark("Anisotropic 3D (gamma=30, order=2)")
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_30k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_60k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_120k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_240k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_480k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_960k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_1920k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_3840k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_7680k())
bm_A3Do2g30.addProblem(Anisotropic3DOrder2Gamma30_15360k())
bm_A3Do2g30.addOptions(opt1)
bm_A3Do2g30.addOptions(opt2)
bm_A3Do2g30.addOptions(opt3)

bm_A3Do2g45=Benchmark("Anisotropic 3D (gamma=45, order=2)")
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_30k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_60k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_120k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_240k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_480k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_960k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_1920k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_3840k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_7680k())
bm_A3Do2g45.addProblem(Anisotropic3DOrder2Gamma45_15360k())
bm_A3Do2g45.addOptions(opt1)
bm_A3Do2g45.addOptions(opt2)
bm_A3Do2g45.addOptions(opt3)


bms=BenchmarkSuite("Paso/Finley")
bms.addBenchmark(bm_L2Do1)
bms.addBenchmark(bm_L2Do2)
bms.addBenchmark(bm_L3Do1)
bms.addBenchmark(bm_L3Do2)
bms.addBenchmark(bm_A2Do1g30)
bms.addBenchmark(bm_A2Do1g45)
bms.addBenchmark(bm_A2Do2g30)
bms.addBenchmark(bm_A2Do2g45)
bms.addBenchmark(bm_A3Do1g30)
bms.addBenchmark(bm_A3Do1g45)
bms.addBenchmark(bm_A3Do2g30)
bms.addBenchmark(bm_A3Do2g45)
bms.run(scale=thlist)
out=bms.getHTML(filter=ff)
print out
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