Searched refs:phi (Results 1 – 9 of 9) sorted by relevance
| /libCEED/examples/deal.II/ |
| H A D | bps-cpu.h | 149 do_cell_integral_local(FEEvaluation<dim, -1, 0, n_components, Number> &phi) const in do_cell_integral_local() argument
153 phi.evaluate(EvaluationFlags::values); in do_cell_integral_local()
154 for (const auto q : phi.quadrature_point_indices()) in do_cell_integral_local()
155 phi.submit_value(phi.get_value(q), q); in do_cell_integral_local()
156 phi.integrate(EvaluationFlags::values); in do_cell_integral_local()
160 phi.evaluate(EvaluationFlags::gradients); in do_cell_integral_local()
161 for (const auto q : phi.quadrature_point_indices()) in do_cell_integral_local()
162 phi.submit_gradient(phi.get_gradient(q), q); in do_cell_integral_local()
163 phi.integrate(EvaluationFlags::gradients); in do_cell_integral_local()
177 FEEvaluation<dim, -1, 0, n_components, Number> phi(matrix_free, range); in do_cell_integral_range()
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| /libCEED/examples/fluids/ |
| H A D | index.md | 325 Denote $\langle \phi \rangle$ as the Reynolds average of $\phi$, which in this case would be a aver…
328 \langle \phi \rangle(x,y) = \frac{1}{L_z + (T_f - T_0)}\int_0^{L_z} \int_{T_0}^{T_f} \phi(x, y, z, …
337 The function $\langle \phi \rangle (x,y)$ is represented on a 2-D finite element grid, taken from t…
349 \langle \phi \rangle_z(x,y,t) = \frac{1}{L_z} \int_0^{L_z} \phi(x, y, z, t) \mathrm{d}z
352 where the function $\phi$ may be the product of multiple solution functions and $\langle \phi \rang…
359 Substituting the spanwise average of $\phi$ for $u$, we get:
362 \bm M [\langle \phi \rangle_z]_N = \int_0^{L_x} \int_0^{L_y} \left [\frac{1}{L_z} \int_0^{L_z} \phi…
368 \bm M [\langle \phi \rangle_z]_N = \frac{1}{L_z} \int_\Omega \phi(x,y,z,t) \psi^\mathrm{parent}_N(x…
378 At the beginning of each simulation, the time integral of a statistic is set to 0, $\overline{\phi}…
381 $$\overline{\phi}_\mathrm{new} = \overline{\phi}_{\mathrm{old}} + \phi(t_\mathrm{new}) \Delta T$$
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| /libCEED/examples/fluids/qfunctions/ |
| H A D | stg_shur14_type.h | 37 size_t sigma, d, phi; // !< Random number set, [nmodes,3], [nmodes,3], [nmodes] member
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| H A D | differential_filter.h | 215 …CeedScalar phi = phi_bar + alpha[0] * Square(omega6) * sin(6 * omega * x_i[0]) + alpha[1] * Square… in DifferentialFilter_MMS_IC() local
216 phi -= dalpha1dy * omega6 * cos(omega6 * x_i[1]); in DifferentialFilter_MMS_IC()
218 for (CeedInt j = 0; j < 5; j++) q0[j][i] = phi; in DifferentialFilter_MMS_IC()
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| H A D | stg_shur14.h | 161 const CeedScalar *phi = &stg_ctx->data[stg_ctx->offsets.phi]; in StgShur14Calc() local
171 const CeedScalar cos_kxdp = cos(kappa[n] * xdotd + phi[n]); in StgShur14Calc()
204 const CeedScalar *phi = &stg_ctx->data[stg_ctx->offsets.phi]; in StgShur14Calc_PrecompEktot() local
216 const CeedScalar cos_kxdp = cos(kappa[n] * xdotd + phi[n]); in StgShur14Calc_PrecompEktot()
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| /libCEED/examples/fluids/problems/ |
| H A D | stg_shur14.c | 131 CeedScalar *phi = &stg_ctx->data[stg_ctx->offsets.phi]; in ReadStgRand() local
144 phi[i] = (CeedScalar)atof(array[3]); in ReadStgRand()
185 temp_ctx->offsets.phi = temp_ctx->offsets.d + nmodes * 3; in GetStgContextData()
186 temp_ctx->offsets.kappa = temp_ctx->offsets.phi + nmodes; in GetStgContextData()
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| /libCEED/julia/LibCEED.jl/examples/ |
| H A D | ex1-volume.jl | 17 # coordinates, (r,phi) in [1,2]x[0,pi/2] with area = 3/4*pi
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| H A D | ex3-volume.jl | 17 # coordinates, (r,phi) in [1,2]x[0,pi/2] with area = 3/4*pi
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| H A D | ex1-volume-c.jl | 200 # coordinates, (r,phi) in [1,2]x[0,pi/2] with area = 3/4*pi
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