| /petsc/src/ts/tutorials/hamiltonian/output/ |
| H A D | ex2_two_stream_rt.out | 4 c:0 [x_a,x_b] = 0.000000000000000,0.349066666666667 -> cell weight = 0.352539638258674
5 c:1 [x_a,x_b] = 0.349066666666667,0.698133333333333 -> cell weight = 0.352434113281987
6 c:2 [x_a,x_b] = 0.698133333333333,1.047200000000000 -> cell weight = 0.352226269666591
7 c:3 [x_a,x_b] = 1.047200000000000,1.396266666666667 -> cell weight = 0.351922422665025
8 c:4 [x_a,x_b] = 1.396266666666667,1.745333333333333 -> cell weight = 0.351531804557746
9 c:5 [x_a,x_b] = 1.745333333333333,2.094400000000000 -> cell weight = 0.351066284133648
10 c:6 [x_a,x_b] = 2.094400000000000,2.443466666666667 -> cell weight = 0.350540006061240
11 c:7 [x_a,x_b] = 2.443466666666667,2.792533333333333 -> cell weight = 0.349968961108035
12 c:8 [x_a,x_b] = 2.792533333333333,3.141600000000000 -> cell weight = 0.349370500266919
13 c:9 [x_a,x_b] = 3.141600000000000,3.490666666666667 -> cell weight = 0.348762807552540
[all …]
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| H A D | ex2_two_stream_c0.out | 4 c:0 [x_a,x_b] = 0.000000000000000,0.349066666666667 -> cell weight = 0.352539638258674
5 c:1 [x_a,x_b] = 0.349066666666667,0.698133333333333 -> cell weight = 0.352434113281987
6 c:2 [x_a,x_b] = 0.698133333333333,1.047200000000000 -> cell weight = 0.352226269666591
7 c:3 [x_a,x_b] = 1.047200000000000,1.396266666666667 -> cell weight = 0.351922422665025
8 c:4 [x_a,x_b] = 1.396266666666667,1.745333333333333 -> cell weight = 0.351531804557746
9 c:5 [x_a,x_b] = 1.745333333333333,2.094400000000000 -> cell weight = 0.351066284133648
10 c:6 [x_a,x_b] = 2.094400000000000,2.443466666666667 -> cell weight = 0.350540006061240
11 c:7 [x_a,x_b] = 2.443466666666667,2.792533333333333 -> cell weight = 0.349968961108035
12 c:8 [x_a,x_b] = 2.792533333333333,3.141600000000000 -> cell weight = 0.349370500266919
13 c:9 [x_a,x_b] = 3.141600000000000,3.490666666666667 -> cell weight = 0.348762807552540
[all …]
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| H A D | ex2_uniform_equilibrium_1d.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.256640000000000
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.256640000000000
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256640000000000
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.256640000000000
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.256640000000000
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.256640000000000
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.256639999999999
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640000000001
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.256640000000001
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.256639999999999
[all …]
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| H A D | ex2_landau_damping_1d_dg.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.268395728819320
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.263905419667826
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256639954596585
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.249374506867984
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.244884243120080
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.244884299241914
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.249374653796754
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640136210245
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.263905566595814
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.268395784939883
[all …]
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| H A D | ex2_uniform_primal_1d_real.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.268395728819320
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.263905419667826
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256639954596585
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.249374506867984
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.244884243120080
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.244884299241914
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.249374653796754
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640136210245
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.263905566595814
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.268395784939883
[all …]
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| H A D | ex2_landau_damping_1d_mixed.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.268395728819320
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.263905419667826
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256639954596585
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.249374506867984
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.244884243120080
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.244884299241914
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.249374653796754
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640136210245
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.263905566595814
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.268395784939883
[all …]
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| H A D | ex2_uniform_equilibrium_1d_real.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.256640000000000
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.256640000000000
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256640000000000
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.256640000000000
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.256640000000000
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.256640000000000
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.256639999999999
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640000000001
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.256640000000001
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.256639999999999
[all …]
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| H A D | ex2_landau_damping_1d_c0.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.268395728819320
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.263905419667826
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256639954596585
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.249374506867984
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.244884243120080
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.244884299241914
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.249374653796754
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640136210245
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.263905566595814
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.268395784939883
[all …]
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| H A D | ex2_uniform_primal_1d_real_pfak.out | 4 c:0 [x_a,x_b] = 0.000000000000000,1.256640000000000 -> cell weight = 1.268395728819320
5 c:1 [x_a,x_b] = 1.256640000000000,2.513280000000000 -> cell weight = 1.263905419667826
6 c:2 [x_a,x_b] = 2.513280000000000,3.769920000000000 -> cell weight = 1.256639954596585
7 c:3 [x_a,x_b] = 3.769920000000000,5.026560000000000 -> cell weight = 1.249374506867984
8 c:4 [x_a,x_b] = 5.026560000000000,6.283200000000000 -> cell weight = 1.244884243120080
9 c:5 [x_a,x_b] = 6.283200000000000,7.539840000000000 -> cell weight = 1.244884299241914
10 c:6 [x_a,x_b] = 7.539840000000000,8.796479999999999 -> cell weight = 1.249374653796754
11 c:7 [x_a,x_b] = 8.796479999999999,10.053120000000000 -> cell weight = 1.256640136210245
12 c:8 [x_a,x_b] = 10.053120000000000,11.309760000000001 -> cell weight = 1.263905566595814
13 c:9 [x_a,x_b] = 11.309760000000001,12.566400000000000 -> cell weight = 1.268395784939883
[all …]
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| /petsc/src/dm/impls/stag/ |
| H A D | stagmulti.c | 86 static PetscErrorCode SetInterpolationWeight1d_Private(PetscScalar ax, PetscScalar weight[]) in SetInterpolationWeight1d_Private() argument
89 weight[0] = 1.0 - ax; in SetInterpolationWeight1d_Private()
90 weight[1] = ax; in SetInterpolationWeight1d_Private()
94 …tscErrorCode SetInterpolationWeight2d_Private(PetscScalar ax, PetscScalar ay, PetscScalar weight[]) in SetInterpolationWeight2d_Private() argument
97 weight[0] = (1.0 - ax) * (1.0 - ay); in SetInterpolationWeight2d_Private()
98 weight[1] = ax * (1.0 - ay); in SetInterpolationWeight2d_Private()
99 weight[2] = (1.0 - ax) * ay; in SetInterpolationWeight2d_Private()
100 weight[3] = ax * ay; in SetInterpolationWeight2d_Private()
104 static PetscErrorCode MergeInterpolationWeightToLeft2d_Private(PetscScalar weight[]) in MergeInterpolationWeightToLeft2d_Private() argument
107 weight[0] += weight[1]; in MergeInterpolationWeightToLeft2d_Private()
[all …]
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| /petsc/lib/petsc/bin/maint/abi-compliance-checker/modules/Internals/Styles/ |
| H A D | Report.css | 24 font-weight:bold;
31 font-weight:bold;
56 font-weight:normal;
61 font-weight:bold;
74 font-weight:bold;
77 font-weight:bold;
82 font-weight:bold;
86 font-weight:bold;
90 font-weight:normal;
149 font-weight:bold;
[all …]
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| H A D | SymbolsList.css | 18 font-weight:bold;
23 font-weight:bold;
35 font-weight:bold;
44 font-weight:bold;
47 font-weight:normal;
52 font-weight:normal;
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| /petsc/src/snes/tutorials/ |
| H A D | ex31.c | 44 PetscReal L, *weight; /* L is size of the domain */ in main() local
68 PetscCall(PetscMalloc2(blasius->N - 3, &blasius->x, blasius->N - 3, &weight)); in main()
69 PetscCall(PetscDTGaussQuadrature(blasius->N - 3, -1., 1., blasius->x, weight)); in main()
116 PetscCall(PetscFree2(blasius->x, weight)); in main()
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| /petsc/src/mat/graphops/coarsen/impls/hem/ |
| H A D | hem.c | 393 PetscReal weight; member
400 PetscReal va = ((Edge *)a)->weight, vb = ((Edge *)b)->weight; in gamg_hem_compare()
641 Edges[nEdges].weight = tt; in MatCoarsenApply_HEM_private()
656 Edges[nEdges].weight = tt; in MatCoarsenApply_HEM_private()
696 …Part(lid_max_ew[lid0]) >= e->weight - MY_MEPS, PETSC_COMM_SELF, PETSC_ERR_SUP, "edge weight %e > m… in MatCoarsenApply_HEM_private()
697 …T "), diff0 = %10.4e\n", rank, gid0, gid1, (double)(PetscRealPart(lid_max_ew[lid0]) - e->weight))); in MatCoarsenApply_HEM_private()
699 if (PetscRealPart(lid_max_ew[lid0]) > e->weight + MY_MEPS) { in MatCoarsenApply_HEM_private()
701 …0.14e, w = %20.14e\n", rank, (double)e->weight, gid0, gid1, (double)(PetscRealPart(lid_max_ew[lid0… in MatCoarsenApply_HEM_private()
702 (double)e->weight)); in MatCoarsenApply_HEM_private()
707 if (PetscRealPart(lid_max_ew[lid1]) > e->weight + MY_MEPS) { in MatCoarsenApply_HEM_private()
[all …]
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| /petsc/src/ksp/ksp/tutorials/output/ |
| H A D | ex55_hypre_device.out | 43 Relax weight (all) 1.
44 Outer relax weight (all) 1.
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| H A D | ex55_hypre_device_alt.out | 41 Relax weight (all) 1.
42 Outer relax weight (all) 1.
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| H A D | ex49_hypre_nullspace_alt.out | 36 Relax weight (all) 1.
37 Outer relax weight (all) 1.
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| H A D | ex49_hypre_nullspace.out | 37 Relax weight (all) 1.
38 Outer relax weight (all) 1.
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| /petsc/src/snes/tests/ |
| H A D | ex15.c | 321 PetscScalar *weight; in InitializeWeights() local
327 PetscCall(DMSwarmGetField(sw, "w_q", NULL, NULL, (void **)&weight)); in InitializeWeights()
330 weight[p] = 1.0 / Np; in InitializeWeights()
331 weightsum += PetscRealPart(weight[p]); in InitializeWeights()
336 PetscCall(DMSwarmRestoreField(sw, "w_q", NULL, NULL, (void **)&weight)); in InitializeWeights()
397 PetscReal *weight, totalCharge, totalWeight = 0., gmin[3], gmax[3]; in InitializeConstants() local
405 PetscCall(DMSwarmGetField(sw, "w_q", NULL, NULL, (void **)&weight)); in InitializeConstants()
406 for (p = 0; p < Np; ++p) totalWeight += weight[p]; in InitializeConstants()
408 PetscCall(DMSwarmRestoreField(sw, "w_q", NULL, NULL, (void **)&weight)); in InitializeConstants()
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| /petsc/lib/petsc/bin/maint/ |
| H A D | petscdt_create_quadrature_headers.py | 57 x, y, weight = tuple(mpfr(s) for s in re.split('\s+',f.readline().strip()))
59 rule['weights'].append(weight)
110 … w, x, y, z, weight = tuple(mpfr(s) for s in re.split('\s+',f.readline().strip()))
112 rule['weights'].append((weight * 4) / 3)
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| /petsc/src/ksp/ksp/tests/output/ |
| H A D | ex3_hypre.out | 29 Relax weight (all) 1.
30 Outer relax weight (all) 1.
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| H A D | ex3_hypre_alt.out | 29 Relax weight (all) 1.
30 Outer relax weight (all) 1.
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| /petsc/src/ksp/pc/tests/output/ |
| H A D | ex10_1.out | 20 Relax weight (all) 1.
21 Outer relax weight (all) 1.
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| /petsc/lib/petsc/bin/ |
| H A D | petsc_tas_style.mplstyle | 5 font.weight : bold
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| /petsc/src/ts/tutorials/hamiltonian/ |
| H A D | ex2.c | 517 PetscReal *E, *x, *weight; in MonitorEField() local
534 PetscCall(DMSwarmGetField(sw, "w_q", NULL, NULL, (void **)&weight)); in MonitorEField()
543 chargesum += ctx->charges[0] * weight[p]; in MonitorEField()
559 PetscCall(DMSwarmRestoreField(sw, "w_q", NULL, NULL, (void **)&weight)); in MonitorEField()
596 PetscReal *weight, *pos, *vel; in MonitorInitialConditions() local
618 PetscCall(DMSwarmGetField(sw, "w_q", NULL, NULL, (void **)&weight)); in MonitorInitialConditions()
620 PetscCall(PetscDrawHGAddWeightedValue(ctx->drawhgic_x, pos[p * dim], weight[p])); in MonitorInitialConditions()
621 PetscCall(PetscDrawHGAddWeightedValue(ctx->drawhgic_v, vel[p * dim], weight[p])); in MonitorInitialConditions()
625 PetscCall(DMSwarmRestoreField(sw, "w_q", NULL, NULL, (void **)&weight)); in MonitorInitialConditions()
644 PetscReal *weight, *vel; in MonitorVelocity() local
[all …]
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