| /dports/science/chrono/chrono-7.0.1/src/chrono/fea/ |
| H A D | ChMaterialShellKirchhoff.cpp | 65 m_nu = nu; in ChElasticityKirchhoffIsothropic()
79 double C = m_E * h / (1. - m_nu * m_nu); in ComputeStress()
96 Q(0, 0) = m_E / (1. - m_nu * m_nu); in ComputeStress()
97 Q(0, 1) = m_nu * Q(0, 0); in ComputeStress()
125 double C = m_E * h / (1. - m_nu * m_nu); in ComputeStiffnessMatrix()
130 mC(0, 1) = m_nu * C; in ComputeStiffnessMatrix()
131 mC(1, 0) = m_nu * C; in ComputeStiffnessMatrix()
135 mC(3, 4) = m_nu * D; in ComputeStiffnessMatrix()
144 Q(0, 0) = m_E / (1. - m_nu * m_nu); in ComputeStiffnessMatrix()
145 Q(0, 1) = m_nu * Q(0, 0); in ComputeStiffnessMatrix()
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| H A D | ChMaterialShellReissner.cpp | 77 m_nu = nu; in ChElasticityReissnerIsothropic()
97 double C = m_E * h / (1. - m_nu * m_nu); in ComputeStress()
117 double Q11 = m_E / (1. - m_nu * m_nu); in ComputeStress()
119 double Q12 = m_nu * Q11; in ComputeStress()
161 double C = m_E * h / (1. - m_nu * m_nu); in ComputeStiffnessMatrix()
165 mC(0, 4) = m_nu * C; in ComputeStiffnessMatrix()
166 mC(4, 0) = m_nu * C; in ComputeStiffnessMatrix()
174 mC(7, 9) = -m_nu * D; in ComputeStiffnessMatrix()
175 mC(9, 7) = -m_nu * D; in ComputeStiffnessMatrix()
183 double Q11 = m_E / (1. - m_nu * m_nu); in ComputeStiffnessMatrix()
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| H A D | ChMaterialShellReissner.h | 103 double Get_nu() const { return m_nu; } in Get_nu()
140 double m_nu; ///< Poisson ratio variable
169 double m_nu, ///< Poisson ratio
676 double m_nu, ///< Poisson ratio
681 … chrono_types::make_shared<ChElasticityReissnerOrthotropic>(m_E, m_nu, m_alpha, m_beta)) in ChMaterialShellReissner() argument
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| H A D | ChMaterialShellKirchhoff.h | 96 double Get_nu() const { return m_nu; } in Get_nu()
123 double m_nu; ///< Poisson ratio variable
145 double m_nu ///< Poisson ratio
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| /dports/graphics/blender/blender-2.91.0/intern/itasc/ |
| H A D | UncontrolledObject.cpp | 16 m_nu(0), m_nf(0), m_xudot() in UncontrolledObject()
27 m_nu = _nu; in initialize()
34 if (m_nu > 0) in initialize()
35 m_JuArray.resize(m_nf+1, e_zero_matrix(6,m_nu)); in initialize()
40 assert (m_nu > 0); in getJu()
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| H A D | UncontrolledObject.hpp | 18 unsigned int m_nu, m_nf; member in iTaSC::UncontrolledObject
30 virtual const unsigned int getNrOfCoordinates(){return m_nu;}; in getNrOfCoordinates()
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| /dports/astro/py-astropy/astropy-5.0/astropy/cosmology/ |
| H A D | parameters.py | 89 m_nu=[0., 0., 0.06] * u.eV,
110 m_nu=[0., 0., 0.06] * u.eV,
130 m_nu=[0., 0., 0.06] * u.eV,
150 m_nu=[0., 0., 0.06] * u.eV,
169 m_nu=0.0 * u.eV,
189 m_nu=0.0 * u.eV,
209 m_nu=0.0 * u.eV,
229 m_nu=0.0 * u.eV,
251 m_nu=0.0 * u.eV,
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| H A D | flrw.py | 140 self.m_nu = m_nu # (reset later, this is just for unit validation)
180 m_nu = self._m_nu
181 if m_nu.isscalar:
1542 m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2065 m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2203 m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2382 Neff=Neff, m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2533 m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2685 Neff=Neff, m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
2801 m_nu=m_nu, Ob0=Ob0, name=name, meta=meta)
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| /dports/graphics/appleseed/appleseed-2.1.0-beta/src/appleseed/foundation/math/intersection/ |
| H A D | raytrianglessk.h | 67 ValueType m_nu; member
114 ValueType m_nu; member
167 m_nu = n[u] * rcp_nw; in TriangleSSK()
176 m_np = m_nu * m_pu + m_nv * m_pv + v0[w]; in TriangleSSK()
189 : m_nu (static_cast<ValueType>(rhs.m_nu)) in TriangleSSK()
223 const ValueType det = du * m_nu + dv * m_nv + dw; in intersect()
283 const ValueType det = du * m_nu + dv * m_nv + dw; in intersect()
339 const ValueType det = du * m_nu + dv * m_nv + dw; in intersect()
387 const ValueType det = du * m_nu + dv * m_nv + dw; in intersect()
437 m_nu = triangle.m_nu; in initialize()
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| /dports/astro/py-astropy/astropy-5.0/astropy/cosmology/tests/ |
| H A D | test_cosmology.py | 885 m_nu=0.1 * u.eV)
1124 mnu = tcos.m_nu
1137 assert tcos.m_nu is None
1143 mnu = tcos.m_nu
1153 mnu = tcos.m_nu
1206 m_nu=u.Quantity(0.0, u.eV))
1211 m_nu=u.Quantity(10.0, u.eV))
1221 m_nu=u.Quantity(0.0, u.eV))
1226 m_nu=u.Quantity(10.0, u.eV))
1236 m_nu=u.Quantity(0.0, u.eV))
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| H A D | test_flrw.py | 167 assert isinstance(cosmo_cls.m_nu, Parameter)
168 assert "Mass of neutrino species" in cosmo_cls.m_nu.__doc__
169 assert cosmo_cls.m_nu.unit == u.eV
170 assert cosmo_cls.m_nu.equivalencies == u.mass_energy()
171 assert cosmo_cls.m_nu.format_spec == ""
175 assert u.allclose(cosmo.m_nu, [0.0, 0.0, 0.0] * u.eV)
179 assert cosmo.m_nu is None
181 assert u.allclose(cosmo.m_nu, 0 * u.eV)
183 assert cosmo.m_nu == cosmo._massivenu_mass
185 assert u.allclose(cosmo.m_nu[:self._nmasslessnu], 0 * u.eV)
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| /dports/graphics/appleseed/appleseed-2.1.0-beta/src/appleseed/renderer/modeling/bsdf/ |
| H A D | ashikhminbrdf.cpp | 132 compute_sval(sval, values->m_nu, values->m_nv); in sample()
159 const float exp_u = values->m_nu * cos_hu * cos_hu; in sample()
176 exp = values->m_nu; in sample()
185 const float exp_u = values->m_nu * cos_phi * cos_phi; in sample()
289 compute_sval(sval, values->m_nu, values->m_nv); in evaluate()
321 const float exp_num_u = values->m_nu * cos_hu * cos_hu; in evaluate()
376 compute_sval(sval, values->m_nu, values->m_nv); in evaluate_pdf()
398 const float exp_num_u = values->m_nu * cos_hu * cos_hu; in evaluate_pdf()
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| H A D | ashikhminbrdf.h | 64 float m_nu; // Phong-like exponent in first tangent direction in APPLESEED_DECLARE_INPUT_VALUES() local
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| /dports/cad/kicad-devel/kicad-a17a58203b33e08b966075833b177dad5740c236/3d-viewer/3d_rendering/raytracing/shapes3D/ |
| H A D | triangle_3d.cpp | 72 m_nu = m_n[u] * krec; in pre_calc_const()
212 const float lnd = 1.0f / (D[m_k] + m_nu * D[ku] + m_nv * D[kv]); in Intersect()
213 const float t = ( m_nd - O[m_k] - m_nu * O[ku] - m_nv * O[kv] ) * lnd; in Intersect()
266 const float lnd = 1.0f / (D[m_k] + m_nu * D[ku] + m_nv * D[kv]); in IntersectP()
267 const float t = ( m_nd - O[m_k] - m_nu * O[ku] - m_nv * O[kv] ) * lnd; in IntersectP()
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| H A D | triangle_3d.h | 77 float m_nu, m_nv, m_nd; // 12 variable
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| /dports/devel/bullet/bullet3-3.21/src/BulletSoftBody/ |
| H A D | btDeformableNeoHookeanForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
50 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
57 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
58 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
69 m_nu = nu; in setPoissonRatio()
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| H A D | btDeformableLinearElasticityForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
45 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
52 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
53 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
64 m_nu = nu; in setPoissonRatio()
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| /dports/graphics/blender/blender-2.91.0/extern/bullet2/src/BulletSoftBody/ |
| H A D | btDeformableNeoHookeanForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
50 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
57 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
58 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
69 m_nu = nu; in setPoissonRatio()
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| H A D | btDeformableLinearElasticityForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
45 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
52 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
53 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
64 m_nu = nu; in setPoissonRatio()
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| /dports/devel/py-bullet3/bullet3-3.21/src/BulletSoftBody/ |
| H A D | btDeformableNeoHookeanForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
50 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
57 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
58 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
69 m_nu = nu; in setPoissonRatio()
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| H A D | btDeformableLinearElasticityForce.h | 28 btScalar m_E, m_nu; // Young's modulus and Poisson ratio variable
45 m_nu = m_lambda * 0.5 / (m_mu + m_lambda); in updateYoungsModulusAndPoissonRatio()
52 m_mu = m_E * 0.5 / (1 + m_nu); in updateLameParameters()
53 m_lambda = m_E * m_nu / ((1 + m_nu) * (1 - 2 * m_nu)); in updateLameParameters()
64 m_nu = nu; in setPoissonRatio()
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| /dports/astro/py-astropy/astropy-5.0/docs/cosmology/ |
| H A D | index.rst | 81 Neff=3.04, m_nu=[0. 0. 0.] eV, Ob0=None)
136 Neff=3.04, m_nu=None, Ob0=None)
215 Neff=3.04, m_nu=None, Ob0=0.05)
239 w0=-1.02, Tcmb0=0 K, Neff=3.04, m_nu=None, Ob0=None)
391 ``m_nu`` (the rest mass of the neutrino species). ``Tcmb0`` and ``m_nu`` should
466 >>> m_nu = 0 * u.eV
467 >>> cosmo = FlatLambdaCDM(H0, 0.272, Tcmb0=2.725, m_nu=m_nu)
470 >>> cosmo.m_nu # doctest: +FLOAT_CMP
472 >>> m_nu = [0.0, 0.05, 0.10] * u.eV
473 >>> cosmo = FlatLambdaCDM(H0, 0.272, Tcmb0=2.725, m_nu=m_nu)
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| H A D | io.rst | 157 name H0 Om0 Tcmb0 Neff m_nu [3] Ob0
172 name H0 Om0 Tcmb0 Neff m_nu [3] Ob0
186 Tcmb0=2.725 K, Neff=3.05, m_nu=[0. 0. 0.06] eV, Ob0=0.049)
208 Tcmb0=2.7255 K, Neff=3.046, m_nu=[0. , 0. , 0.06] eV, Ob0=0.04897,
303 cosmology name H0 Om0 Tcmb0 Neff m_nu [3] Ob0
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| /dports/science/chrono/chrono-7.0.1/src/chrono_vehicle/terrain/ |
| H A D | FEADeformableTerrain.cpp | 43 m_nu(0.3), in FEADeformableTerrain()
81 m_nu = nu; in SetSoilParametersFEA()
166 material->Set_v(m_nu); in Initialize()
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| H A D | FEADeformableTerrain.h | 87 double m_nu; ///< Soil Poisson ratio variable
|