/[escript]/trunk/finley/test/python/time_chunks.py
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Contents of /trunk/finley/test/python/time_chunks.py

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Revision 1565 - (show annotations)
Thu May 22 10:19:47 2008 UTC (11 years, 3 months ago) by gross
File MIME type: text/x-python
File size: 4467 byte(s)
some small fixes for openmp
1 NUM_THREADS=8
2 import os
3 TEST_STR="timing: per iteration step:"
4 REPEAT=10
5 HEADER="""from esys.escript import *
6 from esys.finley import Rectangle,Brick
7 from esys.escript.linearPDEs import LinearPDE
8 SOLVER_TOL=1.e-4
9 REL_TOL=1.e-1
10 OPTIMIZE=False
11 SOLVER_VERBOSE=True
12 FAC_DIAG=1.
13 FAC_OFFDIAG=-0.4
14
15 setNumberOfThreads(%d)
16 """
17
18 DOM_2_1="dom=Rectangle(NE,NE,order=1, useFullElementOrder=False,optimize=OPTIMIZE)"
19 DOM_2_2="dom=Rectangle(NE,NE,order=2, useFullElementOrder=False,optimize=OPTIMIZE)"
20 DOM_3_1="dom=Brick(NE,NE,NE,order=1, useFullElementOrder=True,optimize=OPTIMIZE)"
21 DOM_3_2="dom=Brick(NE,NE,NE,order=2, useFullElementOrder=True,optimize=OPTIMIZE)"
22
23 TEST_2_s="""x=Solution(dom).getX()
24 u_ex=Scalar(0,Solution(dom))
25 u_ex=1.+2.*x[0]+3.*x[1]
26 g_ex=Data(0.,(2,),Solution(dom))
27 g_ex[0]=2.
28 g_ex[1]=3.
29 pde=LinearPDE(dom,numEquations=1)
30 mask=whereZero(x[0])
31 pde.setValue(r=u_ex,q=mask)
32 pde.setValue(A=kronecker(2),y=inner(g_ex,dom.getNormal()))
33 """
34 TEST_2_v="""x=Solution(dom).getX()
35 x=Solution(dom).getX()
36 u_ex=Vector(0,Solution(dom))
37 u_ex[0]=1.+2.*x[0]+3.*x[1]
38 u_ex[1]=-1.+3.*x[0]+2.*x[1]
39 g_ex=Data(0.,(2,2),Solution(dom))
40 g_ex[0,0]=2.
41 g_ex[0,1]=3.
42 g_ex[1,0]=3.
43 g_ex[1,1]=2.
44 pde=LinearPDE(dom,numEquations=2)
45 mask=whereZero(x[0])
46 pde.setValue(r=u_ex,q=mask*numarray.ones(2,))
47 A=Tensor4(0,Function(dom))
48 A[0,:,0,:]=kronecker(2)
49 A[1,:,1,:]=kronecker(2)
50 Y=Vector(0.,Function(dom))
51 Y[0]=u_ex[0]*FAC_DIAG+u_ex[1]*FAC_OFFDIAG
52 Y[1]=u_ex[1]*FAC_DIAG+u_ex[0]*FAC_OFFDIAG
53 pde.setValue(A=A, D=kronecker(2)*(FAC_DIAG-FAC_OFFDIAG)+numarray.ones((2,2))*FAC_OFFDIAG, Y=Y, y=matrixmult(g_ex,dom.getNormal()))
54 """
55
56 TEST_3_s="""x=Solution(dom).getX()
57 u_ex=1.+2.*x[0]+3.*x[1]+4.*x[2]
58 g_ex=Data(0.,(3,),Solution(dom))
59 g_ex[0]=2.
60 g_ex[1]=3.
61 g_ex[2]=4.
62 pde=LinearPDE(dom,numEquations=1)
63 mask=whereZero(x[0])
64 pde.setValue(r=u_ex,q=mask)
65 pde.setValue(A=kronecker(3),y=inner(g_ex,dom.getNormal()))
66 """
67
68 TEST_3_v="""x=Solution(dom).getX()
69 u_ex=Vector(0,Solution(dom))
70 u_ex[0]=1.+2.*x[0]+3.*x[1]+4.*x[2]
71 u_ex[1]=-1.+4.*x[0]+1.*x[1]-2.*x[2]
72 u_ex[2]=5.+8.*x[0]+4.*x[1]+5.*x[2]
73 g_ex=Data(0.,(3,3),Solution(dom))
74 g_ex[0,0]=2.
75 g_ex[0,1]=3.
76 g_ex[0,2]=4.
77 g_ex[1,0]=4.
78 g_ex[1,1]=1.
79 g_ex[1,2]=-2.
80 g_ex[2,0]=8.
81 g_ex[2,1]=4.
82 g_ex[2,2]=5.
83 pde=LinearPDE(dom,numEquations=3)
84 mask=whereZero(x[0])
85 pde.setValue(r=u_ex,q=mask*numarray.ones(3,))
86 A=Tensor4(0,Function(dom))
87 A[0,:,0,:]=kronecker(3)
88 A[1,:,1,:]=kronecker(3)
89 A[2,:,2,:]=kronecker(3)
90 Y=Vector(0.,Function(dom))
91 Y[0]=u_ex[0]*FAC_DIAG+u_ex[2]*FAC_OFFDIAG+u_ex[1]*FAC_OFFDIAG
92 Y[1]=u_ex[1]*FAC_DIAG+u_ex[0]*FAC_OFFDIAG+u_ex[2]*FAC_OFFDIAG
93 Y[2]=u_ex[2]*FAC_DIAG+u_ex[1]*FAC_OFFDIAG+u_ex[0]*FAC_OFFDIAG
94 pde.setValue(A=A,
95 D=kronecker(3)*(FAC_DIAG-FAC_OFFDIAG)+numarray.ones((3,3))*FAC_OFFDIAG,
96 Y=Y,
97 y=matrixmult(g_ex,dom.getNormal()))
98 """
99
100 SOLVE_AND_TEST="""pde.setTolerance(SOLVER_TOL)
101 pde.setSolverMethod(pde.PCG,pde.JACOBI)
102 pde.setSolverPackage(pde.PASO)
103 u=pde.getSolution(verbose=SOLVER_VERBOSE)
104 error=Lsup(u-u_ex)/Lsup(u_ex)
105 if error>REL_TOL*Lsup(u_ex): raise RuntimeError("solution error %s is too big."%error)
106 """
107
108
109 for n in [1000, 10000, 50000, 100000]:
110 # for n in [1000, 10000]:
111 for prop in [ (1,2), (2,2), (1,3), (2,3) ]:
112 for tp in [ "s", "v" ]:
113 # create code:
114 prog=HEADER%NUM_THREADS
115 dim=prop[1]
116 if isinstance(prop[0], int):
117 o=prop[0]
118 NE=int(float(n)**(1./dim)/o)+1
119 prog+="NE=%d\n"%NE
120 if dim==2:
121 if o==1:
122 prog+=DOM_2_1
123 else:
124 prog+=DOM_2_2
125 else:
126 if o==1:
127 prog+=DOM_3_1
128 else:
129 prog+=DOM_3_2
130 prog+="\n"
131 if dim==2:
132 if tp =="s":
133 prog+=TEST_2_s
134 else:
135 prog+=TEST_2_v
136 else:
137 if tp =="s":
138 prog+=TEST_3_s
139 else:
140 prog+=TEST_3_v
141 print "l= %d, dim= %d, type=%s, order=%s"%((o*NE+1)**dim,dim,tp,o)
142
143 prog+=SOLVE_AND_TEST
144 # run code:
145 print >> file("__prog","w"), prog
146 for CHUNK in [-1,10,100,1000,10000, 100000]:
147 if CHUNK <= n:
148 time_per_iter=0
149 for i in range(REPEAT):
150 os.system("export OMP_NUM_THREADS=%d;export PASO_CHUNK_SIZE_MVM=%d; python __prog > __out;"%(NUM_THREADS,CHUNK))
151 out=file("__out","r").read()
152 for i in out.split("\n"):
153 if i.startswith(TEST_STR): time_per_iter+=float(i[len(TEST_STR):-3].strip())
154 print CHUNK,time_per_iter/REPEAT
155

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