diff options
Add support for SSS pattern to C++ LDC example
Diffstat (limited to 'lid_driven_cavity/cpp/ldc.cpp.SSS.mako')
-rw-r--r-- | lid_driven_cavity/cpp/ldc.cpp.SSS.mako | 193 |
1 files changed, 193 insertions, 0 deletions
diff --git a/lid_driven_cavity/cpp/ldc.cpp.SSS.mako b/lid_driven_cavity/cpp/ldc.cpp.SSS.mako new file mode 100644 index 0000000..ed2f938 --- /dev/null +++ b/lid_driven_cavity/cpp/ldc.cpp.SSS.mako @@ -0,0 +1,193 @@ +#include <cstdint> +#include <memory> +#include <vector> +#include <chrono> +#include <iostream> +#include <fstream> + +#include "kernel.h" + +void collect_moments_to_vtk(const std::string& path, ${float_type}** f) { + std::ofstream fout; + fout.open(path.c_str()); + + fout << "# vtk DataFile Version 3.0\n"; + fout << "lbm_output\n"; + fout << "ASCII\n"; + fout << "DATASET RECTILINEAR_GRID\n"; +% if descriptor.d == 2: + fout << "DIMENSIONS " << ${geometry.size_x-2} << " " << ${geometry.size_y-2} << " 1" << "\n"; +% else: + fout << "DIMENSIONS " << ${geometry.size_x-2} << " " << ${geometry.size_y-2} << " " << ${geometry.size_z-2} << "\n"; +% endif + + fout << "X_COORDINATES " << ${geometry.size_x-2} << " float\n"; + for( std::size_t x = 1; x < ${geometry.size_x-1}; ++x ) { + fout << x << " "; + } + + fout << "\nY_COORDINATES " << ${geometry.size_y-2} << " float\n"; + for( std::size_t y = 1; y < ${geometry.size_y-1}; ++y ) { + fout << y << " "; + } + +% if descriptor.d == 2: + fout << "\nZ_COORDINATES " << 1 << " float\n"; + fout << 0 << "\n"; + fout << "POINT_DATA " << ${(geometry.size_x-2) * (geometry.size_y-2)} << "\n"; +% else: + fout << "\nZ_COORDINATES " << ${geometry.size_z-2} << " float\n"; + for( std::size_t z = 1; z < ${geometry.size_z-1}; ++z ) { + fout << z << " "; + } + fout << "\nPOINT_DATA " << ${(geometry.size_x-2) * (geometry.size_y-2) * (geometry.size_z-2)} << "\n"; +% endif + + ${float_type} rho; + ${float_type} u[${descriptor.d}]; + + fout << "VECTORS velocity float\n"; +% if descriptor.d == 2: + for ( std::size_t y = 1; y < ${geometry.size_y-1}; ++y ) { + for ( std::size_t x = 1; x < ${geometry.size_x-1}; ++x ) { + collect_moments(f, x*${geometry.size_y}+y, rho, u); + fout << u[0] << " " << u[1] << " 0\n"; + } + } +% else: + for ( std::size_t z = 1; z < ${geometry.size_z-1}; ++z ) { + for ( std::size_t y = 1; y < ${geometry.size_y-1}; ++y ) { + for ( std::size_t x = 1; x < ${geometry.size_x-1}; ++x ) { + collect_moments(f, x*${geometry.size_y*geometry.size_z}+y*${geometry.size_z}+z, rho, u); + fout << u[0] << " " << u[1] << " " << u[2] << "\n"; + } + } + } +% endif + + fout << "SCALARS density float 1\n"; + fout << "LOOKUP_TABLE default\n"; +% if descriptor.d == 2: + for ( std::size_t y = 1; y < ${geometry.size_y-1}; ++y ) { + for ( std::size_t x = 1; x < ${geometry.size_x-1}; ++x ) { + collect_moments(f, x*${geometry.size_y}+y, rho, u); + fout << rho << "\n"; + } + } +% else: + for ( std::size_t z = 1; z < ${geometry.size_z-1}; ++z ) { + for ( std::size_t y = 1; y < ${geometry.size_y-1}; ++y ) { + for ( std::size_t x = 1; x < ${geometry.size_x-1}; ++x ) { + collect_moments(f, x*${geometry.size_y*geometry.size_z}+y*${geometry.size_z}+z, rho, u); + fout << rho << "\n"; + } + } + } +% endif + + fout.close(); +} + +void simulate(std::size_t nStep) +{ +<% +padding = (max(geometry.size_x,geometry.size_y,geometry.size_z)+1)**(descriptor.d-1) +%> + auto f_aa = std::make_unique<${float_type}[]>(${(geometry.volume+2*padding)*descriptor.q}); + + ${float_type}* f[${descriptor.q}]; + +% for i, c_i in enumerate(descriptor.c): + f[${i}] = f_aa.get() + ${layout.pop_offset(i) + padding}; +% endfor + + std::vector<std::size_t> ghost; + std::vector<std::size_t> bulk; + std::vector<std::size_t> lid_bc; + std::vector<std::size_t> box_bc; + + for (int iX = 0; iX < ${geometry.size_x}; ++iX) { + for (int iY = 0; iY < ${geometry.size_y}; ++iY) { +% if descriptor.d == 2: + const std::size_t iCell = iX*${geometry.size_y} + iY; + if (iX == 0 || iY == 0 || iX == ${geometry.size_x-1} || iY == ${geometry.size_y-1}) { + ghost.emplace_back(iCell); + } else if (iY == ${geometry.size_y-2}) { + lid_bc.emplace_back(iCell); + } else if (iX == 1 || iX == ${geometry.size_x-2} || iY == 1) { + box_bc.emplace_back(iCell); + } else { + bulk.emplace_back(iCell); + } +% elif descriptor.d == 3: + for (int iZ = 0; iZ < ${geometry.size_z}; ++iZ) { + const std::size_t iCell = iX*${geometry.size_y*geometry.size_z} + iY*${geometry.size_z} + iZ; + if ( iX == 0 || iY == 0 || iZ == 0 + || iX == ${geometry.size_x-1} + || iY == ${geometry.size_y-1} + || iZ == ${geometry.size_z-1}) { + ghost.emplace_back(iCell); + } else if (iZ == ${geometry.size_z-2}) { + lid_bc.emplace_back(iCell); + } else if ( iX == 1 || iX == ${geometry.size_x-2} + || iY == 1 || iY == ${geometry.size_y-2} + || iZ == 1) { + box_bc.emplace_back(iCell); + } else { + bulk.emplace_back(iCell); + } + } +% endif + } + } + + std::cout << "#ghost : " << ghost.size() << std::endl; + std::cout << "#bulk : " << bulk.size() << std::endl; + std::cout << "#lid : " << lid_bc.size() << std::endl; + std::cout << "#wall : " << box_bc.size() << std::endl; + std::cout << std::endl; + + #pragma omp parallel for + for (std::size_t iCell = 0; iCell < ${geometry.volume}; ++iCell) { + equilibrilize(f, iCell); + } + + auto start = std::chrono::high_resolution_clock::now(); + + for (std::size_t iStep = 1; iStep <= nStep; ++iStep) { + #pragma omp parallel for + for (std::size_t i = 0; i < ghost.size(); ++i) { + equilibrilize(f, ghost[i]); + } + #pragma omp parallel for + for (std::size_t i = 0; i < bulk.size(); ++i) { + collide_and_stream(f, bulk[i]); + } + ${float_type} u[${descriptor.d}] { 0. }; + #pragma omp parallel for + for (std::size_t i = 0; i < box_bc.size(); ++i) { + velocity_momenta_boundary(f, box_bc[i], u); + } + u[0] = 0.05; + #pragma omp parallel for + for (std::size_t i = 0; i < lid_bc.size(); ++i) { + velocity_momenta_boundary(f, lid_bc[i], u); + } + + if (iStep % 1000 == 0) { + auto duration = std::chrono::duration_cast<std::chrono::duration<double>>( + std::chrono::high_resolution_clock::now() - start); + std::cout << "iStep = " << iStep << "; ~" << 1000*${geometry.volume}/(1e6*duration.count()) << " MLUPS" << std::endl; + + collect_moments_to_vtk("result/ldc_" + std::to_string(iStep) + ".vtk", f); + + start = std::chrono::high_resolution_clock::now(); + } + + update_sss_control_structure(f); + } +} + +int main() { + simulate(20000); +} |