| /dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/src/thermo/ |
| H A D | DebyeHuckel.cpp | 943 m_IionicMolality += m_molalities[k] * z_k * z_k; in s_update_lnMolalityActCoeff()
987 m_lnActCoeffMolal[k] = - z_k * z_k * numTmp; in s_update_lnMolalityActCoeff()
1047 - z_k * z_k * numTmp / (1.0 + denomTmp) in s_update_lnMolalityActCoeff()
1081 - z_k * z_k * numTmp / (1.0 + denomTmp); in s_update_lnMolalityActCoeff()
1118 - 2.0 * z_k * z_k * m_A_Debye * tmpLn / in s_update_lnMolalityActCoeff()
1209 - z_k * z_k * numdAdTTmp / (1.0 + denomTmp); in s_update_dlnMolalityActCoeff_dT()
1245 - z_k * z_k * numdAdTTmp / (1.0 + denomTmp) in s_update_dlnMolalityActCoeff_dT()
1351 - z_k * z_k * numd2AdT2Tmp / (1.0 + denomTmp) in s_update_d2lnMolalityActCoeff_dT2()
1426 - z_k * z_k * numdAdPTmp / (1.0 + denomTmp); in s_update_dlnMolalityActCoeff_dP()
1463 - z_k * z_k * numdAdPTmp / (1.0 + denomTmp) in s_update_dlnMolalityActCoeff_dP()
[all …]
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| /dports/science/siconos/siconos-4.4.0/numerics/src/QP/ |
| H A D | ConvexQP_ProjectedGradient.c | 97 double * z_k; in convexQP_ProjectedGradient() local
102 z_k = (double *)malloc(n * sizeof(double)); in convexQP_ProjectedGradient()
166 cblas_dcopy(n, z, 1, z_k, 1); in convexQP_ProjectedGradient()
194 cblas_dcopy(n, z_k, 1, z, 1); in convexQP_ProjectedGradient()
216 cblas_daxpy(n, -1, z_k, 1, direction, 1); in convexQP_ProjectedGradient()
227 cblas_dcopy(n, z, 1, z_k, 1); in convexQP_ProjectedGradient()
271 free(z_k); in convexQP_ProjectedGradient()
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| /dports/math/py-pystan/pystan-2.19.0.0/pystan/stan/lib/stan_math/stan/math/prim/mat/fun/ |
| H A D | simplex_constrain.hpp | 40 T z_k(inv_logit(y(k) - log(Km1 - k))); in simplex_constrain() local
41 x(k) = stick_len * z_k; in simplex_constrain()
76 T z_k(inv_logit(adj_y_k)); in simplex_constrain() local
77 x(k) = stick_len * z_k; in simplex_constrain()
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| H A D | simplex_free.hpp | 42 T z_k(x(k) / stick_len); in simplex_free() local
43 y(k) = logit(z_k) + log(Km1 - k); in simplex_free()
|
| /dports/math/stanmath/math-4.2.0/stan/math/prim/fun/ |
| H A D | simplex_constrain.hpp | 38 T z_k = inv_logit(y.coeff(k) - log(Km1 - k)); in simplex_constrain() local
39 x.coeffRef(k) = stick_len * z_k; in simplex_constrain()
73 T z_k = inv_logit(adj_y_k); in simplex_constrain() local
74 x.coeffRef(k) = stick_len * z_k; in simplex_constrain()
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| H A D | simplex_free.hpp | 41 T z_k = x_ref.coeff(k) / stick_len; in simplex_free() local
42 y.coeffRef(k) = logit(z_k) + log(Km1 - k); in simplex_free()
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| /dports/science/siconos/siconos-4.4.0/numerics/src/FrictionContact/ |
| H A D | fc3d_admm.c | 48 double * z_k; member
124 free(data->z_k); in fc3d_admm_free()
219 double * z_k = data->z_k; in fc3d_admm_symmetric() local
228 cblas_dcopy(m, reaction, 1, z_k, 1); in fc3d_admm_symmetric()
398 cblas_dcopy(m, z_k, 1, z_hat, 1); in fc3d_admm_symmetric()
407 cblas_dcopy(m, z_k, 1, z_hat, 1); in fc3d_admm_symmetric()
465 cblas_dcopy(m, z, 1, z_k, 1); in fc3d_admm_symmetric()
585 double * z_k = data->z_k; in fc3d_admm_asymmetric() local
840 cblas_dcopy(2*m, z_k, 1, z_hat, 1); in fc3d_admm_asymmetric()
849 cblas_dcopy(2*m, z_k, 1, z_hat, 1); in fc3d_admm_asymmetric()
[all …]
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| H A D | rolling_fc3d_admm.c | 48 double * z_k; member
124 free(data->z_k); in rolling_fc3d_admm_free()
221 double * z_k = data->z_k; in rolling_fc3d_admm_symmetric() local
230 cblas_dcopy(m, reaction, 1, z_k, 1); in rolling_fc3d_admm_symmetric()
403 cblas_dcopy(m, z_k, 1, z_hat, 1); in rolling_fc3d_admm_symmetric()
412 cblas_dcopy(m, z_k, 1, z_hat, 1); in rolling_fc3d_admm_symmetric()
470 cblas_dcopy(m, z, 1, z_k, 1); in rolling_fc3d_admm_symmetric()
591 double * z_k = data->z_k; in rolling_fc3d_admm_asymmetric() local
849 cblas_dcopy(2*m, z_k, 1, z_hat, 1); in rolling_fc3d_admm_asymmetric()
858 cblas_dcopy(2*m, z_k, 1, z_hat, 1); in rolling_fc3d_admm_asymmetric()
[all …]
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| /dports/math/vtk9/VTK-9.1.0/ThirdParty/ioss/vtkioss/cgns/ |
| H A D | Iocgns_StructuredZoneData.C | 34 Range z_k(1 + zone->m_offset[2], zone->m_ordinal[2] + zone->m_offset[2] + 1); in zgc_overlaps()
40 return overlaps(z_i, gc_i) && overlaps(z_j, gc_j) && overlaps(z_k, gc_k); in zgc_overlaps()
48 Range z_k(1 + zone->m_offset[2], zone->m_ordinal[2] + zone->m_offset[2] + 1); in zgc_donor_overlaps()
54 return overlaps(z_i, gc_i) && overlaps(z_j, gc_j) && overlaps(z_k, gc_k); in zgc_donor_overlaps()
72 Range z_k(1 + zone->m_offset[2], zone->m_ordinal[2] + zone->m_offset[2] + 1); in zgc_subset_ranges()
80 Range gc_kk = subset_range(z_k, gc_k); in zgc_subset_ranges()
127 Range z_k(1 + don_zone->m_offset[2], don_zone->m_ordinal[2] + don_zone->m_offset[2] + 1); in zgc_subset_donor_ranges()
135 Range gc_kk = subset_range(z_k, gc_k); in zgc_subset_donor_ranges()
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| /dports/graphics/opencv/opencv-4.5.3/contrib/modules/tracking/test/ |
| H A D | test_aukf.cpp | 100 void measurementFunction(const Mat& x_k, const Mat& n_k, Mat& z_k) in measurementFunction() argument
113 z_k.at<double>(0, 0) = R; in measurementFunction()
114 z_k.at<double>(1, 0) = Phi; in measurementFunction()
337 void measurementFunction(const Mat& x_k, const Mat& n_k, Mat& z_k) in measurementFunction() argument
343 z_k.at<double>(0, 0) = y; in measurementFunction()
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| H A D | test_ukf.cpp | 100 void measurementFunction(const Mat& x_k, const Mat& n_k, Mat& z_k) in measurementFunction() argument
113 z_k.at<double>(0, 0) = R; in measurementFunction()
114 z_k.at<double>(1, 0) = Phi; in measurementFunction()
336 void measurementFunction(const Mat& x_k, const Mat& n_k, Mat& z_k) in measurementFunction() argument
342 z_k.at<double>(0, 0) = y; in measurementFunction()
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| /dports/math/cppad/CppAD-20210000.8/example/general/ |
| H A D | base2ad.cpp | 161 a_vector z_k = fun_g.Forward(k, y_k); in taylor_ode() local
169 y_k[i] = z_k[i] / a_double(k + 1); in taylor_ode()
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| /dports/biology/protomol/protomol/doc/AngleHessian/ |
| H A D | hessian.tex | 163 \frac{\partial (z_k - z_j)} {\partial x_j} &
164 \frac{\partial (z_k - z_j)} {\partial y_j} &
165 \frac{\partial (z_k - z_j)} {\partial z_j}
181 z_k-z_j
199 - \frac{(x_j-x_k) (z_j-z_k)}{\AbsVv{kj}^3}\\
208 - \frac{(y_j-y_k) (z_j - z_k)}{\AbsVv{kj}^3}\\
210 \left(\frac{z_j - z_k}{\AbsVv{kj}} \right) =
211 -\frac{(x_j-x_k) (z_j - z_k)}{\AbsVv{kj}^3}\\
213 \left(\frac{z_j - z_k}{\AbsVv{kj}} \right) =
214 -\frac{(y_j-y_k) (z_j-z_k)}{\AbsVv{kj}^3}\\
[all …]
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| /dports/science/dakota/dakota-6.13.0-release-public.src-UI/packages/external/trilinos/packages/rol/example/PinT/Van_der_Pol/ |
| H A D | example_01.cpp | 219 auto& z_k = *(static_cast<SV&>((*Z)[k]).getVector()); in main() local
224 << std::setw(20) << std::setprecision(8) << z_k[0] << std::endl; in main()
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| /dports/math/asymptote/asymptote-2.67/doc/ |
| H A D | Hobbydir.asy | 20 dot("$z_k$",z1,NW,red);
|
| /dports/print/texlive-base/texlive-20150521-source/utils/asymptote/doc/ |
| H A D | Hobbydir.asy | 20 dot("$z_k$",z1,NW,red);
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| /dports/security/hs-cryptol/cryptol-2.11.0/_cabal_deps/what4-1.1/src/What4/Expr/ |
| H A D | UnaryBV.hs | 528 let z_k = toUnsigned w (negate x_k) function
530 let pair = (z_k,q)
532 seq z_k $ seq pair $ seq m' $ do
535 let z_k = toUnsigned w (negate x_k) function
537 return $! UnaryBV w (Map.fromDistinctAscList (reverse ((z_k,q) : m)))
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| /dports/graphics/opencv/opencv-4.5.3/contrib/modules/tracking/include/opencv2/tracking/ |
| H A D | kalman_filters.hpp | 120 virtual void measurementFunction( const Mat& x_k, const Mat& n_k, Mat& z_k ) = 0;
|
| /dports/games/frogatto/frogatto-1.3.1/MacOSJet/boost/include/boost/math/special_functions/ |
| H A D | expint.hpp | 478 expint_i_series(T z_) : k(0), z_k(1), z(z_){} in expint_i_series()
481 z_k *= z / ++k; in operator ()()
482 return z_k / k; in operator ()()
486 T z_k; member
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| /dports/math/gsl/gsl-2.7/doc/ |
| H A D | poly.rst | 94 H_{2n+1}(x) = f(z_0) + \sum_{k=1}^{2n+1} [z_0,z_1,...,z_k] (x-z_0)(x-z_1) \cdots (x-z_{k-1})
98 H_{2n+1}(x) = f(z_0) + \sum_{k=1}^{2n+1} [z_0,z_1,...,z_k] (x-z_0)(x-z_1) ... (x-z_{k-1})
101 :math:`z_{2k} = z_{2k+1} = x_k`. The divided-differences :math:`[z_0,z_1,...,z_k]`
141 :math:`dd[k] = [z_0,z_1,...,z_k]`. The resulting Hermite polynomial
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| /dports/misc/mxnet/incubator-mxnet-1.9.0/julia/src/ndarray/ |
| H A D | activation.jl | 59 softmax(\mathbf{z})_j = \frac{e^{z_j}}{\sum_{k=1}^K e^{z_k}}
|
| /dports/misc/py-mxnet/incubator-mxnet-1.9.0/julia/src/ndarray/ |
| H A D | activation.jl | 59 softmax(\mathbf{z})_j = \frac{e^{z_j}}{\sum_{k=1}^K e^{z_k}}
|
| /dports/multimedia/handbrake/x265_3.5/source/common/x86/ |
| H A D | pixel.h | 65 … FUNCDEF_TU_S2(void, normFact, cpu, const pixel *src, uint32_t blockSize, int shift, uint64_t *z_k)
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| /dports/multimedia/x265/source/common/x86/ |
| H A D | pixel.h | 65 … FUNCDEF_TU_S2(void, normFact, cpu, const pixel *src, uint32_t blockSize, int shift, uint64_t *z_k)
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| /dports/lang/ghc/ghc-8.10.7/docs/core-spec/ |
| H A D | CoreLint.ott | 376 n = z_k
475 z_k elt G
477 G |-ty z_k : k
527 G |-subst z_k |-> t ok
|