/dports/science/siesta/siesta-4.1.5/Tests/SOC_Pt2_xz/ |
H A D | README | 12 lower value: E_x < E_y = E_z => x-axis = Easy axis 21 lower value: E_z < E_x = E_y => z-axis = Easy axis 25 E_x = E_y => x/y-axis = Hard axes 30 a) E_x(X-alignment) = E_z(Z-alignment) 31 E_y(X-alignment) = E_x(Z-alignment) 34 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_FePt_xz/ |
H A D | README | 11 lower value: E_x < E_y = E_z => x-axis = Easy axis 20 lower value: E_z < E_x = E_y => z-axis = Easy axis 24 E_x = E_y => x/y-axis = Hard axes 29 a) E_x(X-alignment) = E_z(Z-alignment) 30 E_y(X-alignment) = E_x(Z-alignment) 33 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_FePt_zy/ |
H A D | README | 11 lower value: E_x < E_y = E_z => x-axis = Easy axis 20 lower value: E_z < E_x = E_y => z-axis = Easy axis 24 E_x = E_y => x/y-axis = Hard axes 29 a) E_x(X-alignment) = E_z(Z-alignment) 30 E_y(X-alignment) = E_x(Z-alignment) 33 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_FePt_zz/ |
H A D | README | 11 lower value: E_x < E_y = E_z => x-axis = Easy axis 20 lower value: E_z < E_x = E_y => z-axis = Easy axis 24 E_x = E_y => x/y-axis = Hard axes 29 a) E_x(X-alignment) = E_z(Z-alignment) 30 E_y(X-alignment) = E_x(Z-alignment) 33 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_Pt2_zy/ |
H A D | README | 12 lower value: E_x < E_y = E_z => x-axis = Easy axis 21 lower value: E_z < E_x = E_y => z-axis = Easy axis 25 E_x = E_y => x/y-axis = Hard axes 30 a) E_x(X-alignment) = E_z(Z-alignment) 31 E_y(X-alignment) = E_x(Z-alignment) 34 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_FePt_xx/ |
H A D | README | 11 lower value: E_x < E_y = E_z => x-axis = Easy axis 20 lower value: E_z < E_x = E_y => z-axis = Easy axis 24 E_x = E_y => x/y-axis = Hard axes 29 a) E_x(X-alignment) = E_z(Z-alignment) 30 E_y(X-alignment) = E_x(Z-alignment) 33 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_Pt2_xx/ |
H A D | README | 12 lower value: E_x < E_y = E_z => x-axis = Easy axis 21 lower value: E_z < E_x = E_y => z-axis = Easy axis 25 E_x = E_y => x/y-axis = Hard axes 30 a) E_x(X-alignment) = E_z(Z-alignment) 31 E_y(X-alignment) = E_x(Z-alignment) 34 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/science/siesta/siesta-4.1.5/Tests/SOC_Pt2_zz/ |
H A D | README | 12 lower value: E_x < E_y = E_z => x-axis = Easy axis 21 lower value: E_z < E_x = E_y => z-axis = Easy axis 25 E_x = E_y => x/y-axis = Hard axes 30 a) E_x(X-alignment) = E_z(Z-alignment) 31 E_y(X-alignment) = E_x(Z-alignment) 34 b) MAE(X-alignment) = E_x - E_(y/z) <=> MAE(Z-alignment) = E_z - E_(x/y)
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/dports/editors/ted/Ted-2.23/bitmap/ |
H A D | bmTextureMap.c | 432 double E_x, in bmTextureMapBwdCoefficients() argument 459 *pDet_c -= E_x* *pDet_x; in bmTextureMapBwdCoefficients() 460 *pNmc_c -= E_x* *pNmc_x; in bmTextureMapBwdCoefficients() 461 *pNmr_c -= E_x* *pNmr_x; in bmTextureMapBwdCoefficients() 534 double E_x, in bmTextureMap() argument 619 Q_x[0]= ( P_x- E_x )/ ( ( P_z )/ -E_z+ 1 )+ E_x; in bmTextureMap() 622 Q_x[1]= ( P_x- E_x+ N_x )/ ( ( P_z+ N_z )/ -E_z+ 1 )+ E_x; in bmTextureMap() 625 Q_x[2]= ( P_x- E_x+ N_x+ M_x )/ ( ( P_z+ N_z+ M_z )/ -E_z+ 1 )+ E_x; in bmTextureMap() 628 Q_x[3]= ( P_x- E_x+ M_x )/ ( ( P_z+ M_z )/ -E_z+ 1 )+ E_x; in bmTextureMap() 698 E_x, E_y, E_z ); in bmTextureMap() [all …]
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H A D | bmRender.h | 38 double E_x, 60 double E_x,
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/dports/science/jdftx/jdftx-1.6.0/jdftx/electronic/ |
H A D | ExCorr_internal.h | 88 … void accumSpinVectorGrad(const double& E_x0, const vector3<>& E_xVec, array<double*,4> E_x, int i) in accumSpinVectorGrad() argument 89 { E_x[0][i] += (E_x0 + E_xVec[2]); in accumSpinVectorGrad() 90 E_x[1][i] += (E_x0 - E_xVec[2]); in accumSpinVectorGrad() 91 E_x[2][i] += 2 * E_xVec[0]; in accumSpinVectorGrad() 92 E_x[3][i] -= 2 * E_xVec[1]; in accumSpinVectorGrad() 110 …ray<const double*,4> x, array<const double*,2> E_xDiag, array<double*,4> E_n, array<double*,4> E_x) in spinDiagonalizeGrad_calc() argument 124 accumSpinVectorGrad(E_x0,E_xVec, E_x,i); in spinDiagonalizeGrad_calc()
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H A D | ExCorr.cu | 40 …ray<const double*,4> x, array<const double*,2> E_xDiag, array<double*,4> E_n, array<double*,4> E_x) in spinDiagonalizeGrad_kernel() argument 42 if(i<N) spinDiagonalizeGrad_calc(i, n, x, E_xDiag, E_n, E_x); in spinDiagonalizeGrad_kernel() 44 …double*> x, std::vector<const double*> E_xDiag, std::vector<double*> E_n, std::vector<double*> E_x) in spinDiagonalizeGrad_gpu() argument 46 spinDiagonalizeGrad_kernel<<<glc.nBlocks,glc.nPerBlock>>>(N, n, x, E_xDiag, E_n, E_x); in spinDiagonalizeGrad_gpu()
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H A D | VanDerWaals.cpp | 182 vector3<> E_x = (cellWeight * scaleFac * E_r/r) * (e->gInfo.RTR * x); in energyAndGrad() 183 forces[c1] += E_x; in energyAndGrad() 184 forces[c2] -= E_x; in energyAndGrad()
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/dports/textproc/hevea/hevea-2.34/bugs/008/ |
H A D | Chapter_6.tex | 50 \newcommand{\Ex}[1]{\E_x\big[#1\big]} 180 \pi(y)\ge\pi(x)\ \E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big]. 228 \pi(y)&\ge\pi(x)\ \E_x\Big[\sum_{k=1}^\infty\mathbbm{1}\{X_k=y,\ T_x^+\ge k\}\Big]\\ 229 &=\pi(x)\ \E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big].\ 244 …sum_{y\in\X}\pi(y)\ge \pi(x)\ \sum_{y\in\X}\E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big]=\p… 249 1\ge \pi(x)\ \E_x\Big[\sum_{k=1}^{T_x^+}1\Big]=\pi(x)\ \Ex{T_x^+}, 261 \pi_x(y)=\frac{1}{\Ex{T_x^+}}\E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big] 283 \pi_x(y)&=\pi_x(x)\ \E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big]\notag\\ 303 \E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_{k-1}=z\}\Big]\stackrel{m=k-1}{=}\E_x\Big[\sum_{m=0}^{T_x… 346 \lambda(y)=\ \E_x\Big[\sum_{k=1}^{T_x^+}\mathbbm{1}\{X_k=y\}\Big], [all …]
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/dports/science/jdftx/jdftx-1.6.0/jdftx/fluid/ |
H A D | PCM_internal.cpp | 159 …const double* shape, const double* E_shape, vector3<double*> E_x, double* E_radius, double sigmaIn… in propagateGradient_thread() argument 161 …ateGradient_calc(i, iv, Sinv, RTR, x, nReps, reps, radius, shape, E_shape, E_x, E_radius, sigmaInv… in propagateGradient_thread() 165 …const double* shape, const double* E_shape, vector3<double*> E_x, double* E_radius, double sigmaIn… in propagateGradient() argument 166 …nt_thread, S[0]*S[1]*S[2], S, RTR, x, nReps, reps, radius, shape, E_shape, E_x, E_radius, sigmaInv… in propagateGradient() 171 …const double* shape, const double* E_shape, vector3<double*> E_x, double* E_radius, double sigmaIn… 174 …const ScalarField& shape, const ScalarField& E_shape, std::vector<vector3<>>& E_x, std::vector<dou… in propagateGradient() argument 179 E_x.resize(x.size()); in propagateGradient() 184 E_x[iAtom] += gInfo.dV * sumComponents(E_xField); in propagateGradient()
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H A D | PCM_internal.cu | 100 …const double* shape, const double* E_shape, vector3<double*> E_x, double* E_radius, double sigmaIn… in propagateGradient_kernel() argument 102 …propagateGradient_calc(i, iv, Sinv, RTR, x, nReps, reps, radius, shape, E_shape, E_x, E_radius, si… in propagateGradient_kernel() 106 …const double* shape, const double* E_shape, vector3<double*> E_x, double* E_radius, double sigmaIn… in propagateGradient_gpu() argument 110 …nPerBlock>>>(zBlock, S, Sinv, RTR, x, nReps, reps, radius, shape, E_shape, E_x, E_radius, sigmaInv… in propagateGradient_gpu()
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/dports/science/py-PyFR/pyfr-1.12.3/pyfr/solvers/navstokes/kernels/ |
H A D | flux.mako | 20 fpdtype_t E_x = grad_uin[0][3]; 34 fpdtype_t T_x = rcprho*(E_x - (rcprho*rho_x*E + u*u_x + v*v_x)); 72 fpdtype_t E_x = grad_uin[0][4]; 87 fpdtype_t T_x = rcprho*(E_x - (rcprho*rho_x*E + u*u_x + v*v_x + w*w_x));
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/dports/science/chrono/chrono-7.0.1/src/chrono/fea/ |
H A D | ChMaterialShellKirchhoff.h | 149 double Get_E_x() const { return E_x; } in Get_E_x() 155 double Get_nu_yx() const { return nu_xy * (E_y / E_x); } in Get_nu_yx() 183 double E_x; ///< elasticity moduli
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H A D | ChMaterialShellReissner.h | 175 double Get_E_x() const { return E_x; } in Get_E_x() 181 double Get_nu_yx() const { return nu_xy * (E_y / E_x); } in Get_nu_yx() 223 double E_x; ///< elasticity moduli
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H A D | ChMaterialShellKirchhoff.cpp | 167 E_x = m_E_x; in ChElasticityKirchhoffOrthotropic() 177 this->E_x = m_E; in ChElasticityKirchhoffOrthotropic() 219 Qm_local(0, 0) = E_x / (1. - nu_xy * nu_yx); in ComputeStiffnessMatrix() 221 Qm_local(1, 0) = (nu_yx * E_x) / (1. - nu_xy * nu_yx); in ComputeStiffnessMatrix()
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H A D | ChMaterialShellReissner.cpp | 236 E_x = m_E_x; in ChElasticityReissnerOrthotropic() 252 this->E_x = m_E; in ChElasticityReissnerOrthotropic() 308 Qm_local(0, 0) = E_x / (1. - nu_xy * nu_yx); in ComputeStiffnessMatrix() 310 Qm_local(1, 0) = (nu_yx * E_x) / (1. - nu_xy * nu_yx); in ComputeStiffnessMatrix()
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/dports/math/py-ssm/ssm-0.0.1/ssm/ |
H A D | preprocessing.py | 79 Cov_xs = [E_xxT - E_x[:, :, None] * E_x[:, None, :] for E_x, E_xxT in zip(E_xs, E_xxTs)]
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/dports/science/lamprop/lamprop-2020.12.28/test/reference/ |
H A D | hyer-3.8.tex | 30 $\mathrm{E_x}$ & 118810 & MPa\\ 105 $\mathrm{E_x}$ & 64355 & MPa\\ 180 $\mathrm{E_x}$ & 16248 & MPa\\ 259 $\mathrm{E_x}$ & 53349 & MPa\\
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H A D | hyer-4.0.tex | 30 $\mathrm{E_x}$ & 118810 & MPa\\ 105 $\mathrm{E_x}$ & 64355 & MPa\\ 180 $\mathrm{E_x}$ & 16248 & MPa\\ 259 $\mathrm{E_x}$ & 53349 & MPa\\
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/dports/editors/fte/fte/config/kbd/ |
H A D | k_sgml.fte | 16 key [C+E_x] { SGML_EX }
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