| /dports/textproc/rasqal/rasqal-0.9.33/tests/sparql/survey/ |
| H A D | result-survey-10.ttl | 8 rs:solution
13 rs:solution
18 rs:solution
23 rs:solution
28 rs:solution
33 rs:solution
38 rs:solution
43 rs:solution
48 rs:solution
53 rs:solution
[all …]
|
| /dports/math/R-cran-quadprog/quadprog/tests/ |
| H A D | TalbotKatz.Rout.save | 2 R version 2.10.1 (2009-12-14)
3 Copyright (C) 2009 The R Foundation for Statistical Computing
6 R is free software and comes with ABSOLUTELY NO WARRANTY.
10 R is a collaborative project with many contributors.
12 'citation()' on how to cite R or R packages in publications.
16 Type 'q()' to quit R.
42 $solution
63 $solution
84 $solution
106 $solution
[all …]
|
| H A D | test2.Rout.save | 2 R version 2.10.1 (2009-12-14)
3 Copyright (C) 2009 The R Foundation for Statistical Computing
6 R is free software and comes with ABSOLUTELY NO WARRANTY.
10 R is a collaborative project with many contributors.
12 'citation()' on how to cite R or R packages in publications.
16 Type 'q()' to quit R.
26 $solution
46 $solution
68 > print(crv2 <- (crossprod(res$solution, Dmat)/2-dvec)%*%res$solution)
87 $solution
[all …]
|
| H A D | test1.Rout.save | 2 R version 2.10.1 (2009-12-14)
3 Copyright (C) 2009 The R Foundation for Statistical Computing
6 R is free software and comes with ABSOLUTELY NO WARRANTY.
10 R is a collaborative project with many contributors.
12 'citation()' on how to cite R or R packages in publications.
16 Type 'q()' to quit R.
40 $solution
60 $solution
82 > print(crv2 <- (crossprod(res$solution, Dmat)/2-dvec)%*%res$solution)
104 $solution
[all …]
|
| /dports/math/cmlib/cmlib-3.0_8/doc/fishpak/ |
| H A D | hwsplr | 43 C = 1 If the solution is specified at R = A and R = B.
45 C the solution with respect to R is specified at R = B.
46 C = 3 If the derivative of the solution with respect to R is
48 C = 4 If the derivative of the solution with respect to R is
49 C specified at R = A (see note below) and the solution is
51 C = 5 If the solution is unspecified at R = A = 0 and the
52 C solution is specified at R = B.
53 C = 6 If the solution is unspecified at R = A = 0 and the
54 C derivative of the solution with respect to R is specified
62 C of the derivative of the solution with respect to R at R = A.
[all …]
|
| H A D | hwscyl | 44 C = 1 If the solution is specified at R = A and R = B.
46 C the solution with respect to R is specified at R = B.
47 C = 3 If the derivative of the solution with respect to R is
49 C = 4 If the derivative of the solution with respect to R is
50 C specified at R = A (see note below) and the solution is
52 C = 5 If the solution is unspecified at R = A = 0 and the
53 C solution is specified at R = B.
54 C = 6 If the solution is unspecified at R = A = 0 and the
55 C derivative of the solution with respect to R is specified
63 C of the derivative of the solution with respect to R at R = A.
[all …]
|
| H A D | hwscsp | 128 C = 1 If the solution is specified at R = RS and R = RF.
130 C of the solution with respect to R is specified at R = RF.
131 C = 3 If the derivative of the solution with respect to R is
133 C = 4 If the derivative of the solution with respect to R is
134 C specified at RS and the solution is specified at R = RF.
135 C = 5 If the solution is unspecified at R = RS = 0 (see note
136 C below) and the solution is specified at R = RF.
137 C = 6 If the solution is unspecified at R = RS = 0 (see note
143 C solution is unspecified at R = 0, the latter
150 C of the derivative of the solution with respect to R at R = RS.
[all …]
|
| H A D | hstplr | 43 C = 1 If the solution is specified at R = A and R = B.
45 C = 2 If the solution is specified at R = A and the derivative
46 C of the solution with respect to R is specified at R = B.
49 C = 3 If the derivative of the solution with respect to R is
52 C = 4 If the derivative of the solution with respect to R is
53 C specified at R = A (see note 2 below) and the solution is
56 C = 5 If the solution is unspecified at R = A = 0 and the solution
59 C = 6 If the solution is unspecified at R = A = 0 and the
86 C values of the solution at R = B. When MBDCND = 1,4, or 5,
125 C former indicates that the solution is specified at R = 0; the
[all …]
|
| H A D | hstcsp | 161 C = 1 If the solution is specified at R = C and R = D.
163 C = 2 If the solution is specified at R = C and the derivative
164 C of the solution with respect to R is specified at
167 C = 3 If the derivative of the solution with respect to R is
170 C = 4 If the derivative of the solution with respect to R is
171 C specified at R = C and the solution is specified at
174 C = 5 If the solution is unspecified at R = C = 0 (See note 2
175 C below) and the solution is specified at R = D.
177 C = 6 If the solution is unspecified at R = C = 0 (See note 2
194 C values of the solution at R = C. When NBDCND = 1 or 2,
[all …]
|
| H A D | hstcyl | 46 C = 1 If the solution is specified at R = A (see note below) and
49 C = 2 If the solution is specified at R = A (see note below) and
50 C the derivative of the solution with respect to R is
53 C = 3 If the derivative of the solution with respect to R is
56 C = 4 If the derivative of the solution with respect to R is
57 C specified at R = A (see note below) and the solution is
60 C = 5 If the solution is unspecified at R = A = 0 and the solution
63 C = 6 If the solution is unspecified at R = A = 0 and the
64 C derivative of the solution with respect to R is specified at
76 C values (if any) of the solution at R = A. When MBDCND = 1 or 2,
[all …]
|
| /dports/graphics/wings/wings-8d019ebe48/plugins_src/primitives/ |
| H A D | wpc_torus_fr.lang | 7 {2,"Résolution U"},
8 {3,"Résolution V"},
17 {2,"Résolution U"},
18 {3,"Résolution V"},
27 {2,"Résolution U"},
28 {3,"Résolution V"},
|
| /dports/math/suitesparse-klu/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-graphblas/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-config/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-amd/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-ldl/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-rbio/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-mongoose/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-cholmod/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-colamd/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-ccolamd/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-spqr/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-slip_lu/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-camd/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|
| /dports/math/suitesparse-btf/SuiteSparse-5.10.1/UMFPACK/MATLAB/ |
| H A D | umfpack_demo.m.out | 10 Difference between UMFPACK and MATLAB solution: 0
14 Factorizing [L, U, P, Q, R] = umfpack (A)
16 P * (R\A) * Q - L*U should be zero:
17 norm (P*(R\A)*Q - L*U, 1) = 2.77556e-16 (exact) 1.21864e-16 (estimated)
20 x = Q * (U \ (L \ (P * (R \ b))))
28 Difference between UMFPACK and MATLAB solution: 1.77636e-14
36 Difference between UMFPACK and MATLAB solution: 1.77636e-15
42 same as the solution to Ax=b for the original A.
44 P * (R\C) * Q - L*U should be zero:
45 norm (P*(R\C)*Q - L*U, 1) = 1.17961e-16 (exact) 5.60533e-17 (estimated)
[all …]
|