From: Benjamin Brands Date: Tue, 23 Jan 2018 09:11:27 +0000 (+0100) Subject: add routines to save/load ScaLAPACK matrices using HDF5 X-Git-Tag: v9.0.0-rc1~483^2~5 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=c1c43b3c3e79e941a84424f5d2b4dc5eb6098c51;p=dealii.git add routines to save/load ScaLAPACK matrices using HDF5 --- diff --git a/include/deal.II/lac/scalapack.h b/include/deal.II/lac/scalapack.h index b068def512..f1182355e0 100644 --- a/include/deal.II/lac/scalapack.h +++ b/include/deal.II/lac/scalapack.h @@ -165,6 +165,17 @@ public: */ void copy_to (ScaLAPACKMatrix &dest) const; + /** + + /** + * Stores the distributed matrix in @p filename using HDF5 + */ + void save(const char *filename) const; + + /** + * Loads the distributed matrix from file @p filename using HDF5 + */ + void load(const char *filename); /** * Compute the Cholesky factorization of the matrix using ScaLAPACK * function pXpotrf. The result of the factorization is stored in this object. @@ -363,6 +374,30 @@ private: const std::pair &value_limits= std::make_pair(std::numeric_limits::quiet_NaN(),std::numeric_limits::quiet_NaN())); + /* + * Stores the distributed matrix in @p filename + * using serial routines + */ + void save_serial(const char *filename) const; + + /* + * Loads the distributed matrix from file @p filename + * using serial routines + */ + void load_serial(const char *filename); + + /* + * Stores the distributed matrix in @p filename + * using parallel routines + */ + void save_parallel(const char *filename) const; + + /* + * Loads the distributed matrix from file @p filename + * using parallel routines + */ + void load_parallel(const char *filename); + /** * Since ScaLAPACK operations notoriously change the meaning of the matrix * entries, we record the current state after the last operation here. diff --git a/source/lac/scalapack.cc b/source/lac/scalapack.cc index d81bdfb72f..d2bebe2d12 100644 --- a/source/lac/scalapack.cc +++ b/source/lac/scalapack.cc @@ -23,6 +23,13 @@ #include #include #include +#include + +#include + +# ifdef DEAL_II_WITH_HDF5 +#include +# endif DEAL_II_NAMESPACE_OPEN @@ -761,6 +768,412 @@ NumberType ScaLAPACKMatrix::norm(const char type) const return res; } + + +template +void ScaLAPACKMatrix::save(const char *filename) const +{ +#ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +#else +# ifdef H5_HAVE_PARALLEL + //implementation for configurations equipped with a parallel file system + save_parallel(filename); + +# else + //implementation for configurations with no parallel file system + save_serial(filename); + +# endif +#endif +} + + + +template +void ScaLAPACKMatrix::save_serial(const char *filename) const +{ +# ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +# else + + /* + * The content of the distributed matrix is copied to a matrix using a 1x1 process grid. + * Therefore, one process has all the data and can write it to a file. + */ + //create a 1x1 column grid with P being the number of MPI processes + std::shared_ptr column_grid = std::make_shared(this->grid->mpi_communicator,1,1); + + const int MB=n_rows, NB=n_columns; + ScaLAPACKMatrix tmp(n_rows,n_columns,column_grid,MB,NB); + copy_to(tmp); + + // the 1x1 grid has only one process and this one writes + // the content of the matrix to the HDF5 file + if (tmp.grid->mpi_process_is_active) + { + herr_t status; + + // create a new file using default properties + hid_t file_id = H5Fcreate(filename, H5F_ACC_TRUNC, H5P_DEFAULT, H5P_DEFAULT); + + // create the data space for the dataset + hsize_t dims[2]; + //change order of rows and columns as ScaLAPACKMatrix uses column major ordering + dims[0] = n_columns; + dims[1] = n_rows; + hid_t dataspace_id = H5Screate_simple(2, dims, nullptr); + + // create the dataset + hid_t type_id = hdf5_type_id(&tmp.values[0]); + hid_t dataset_id = H5Dcreate2(file_id, "/matrix", + type_id, dataspace_id, + H5P_DEFAULT, H5P_DEFAULT, H5P_DEFAULT); + + // write the dataset + status = H5Dwrite(dataset_id, type_id, + H5S_ALL, H5S_ALL, H5P_DEFAULT, + &tmp.values[0]); + AssertThrow(status >= 0, ExcIO()); + + // end access to the dataset and release resources used by it + status = H5Dclose(dataset_id); + AssertThrow(status >= 0, ExcIO()); + + // terminate access to the data space + status = H5Sclose(dataspace_id); + AssertThrow(status >= 0, ExcIO()); + + // close the file. + status = H5Fclose(file_id); + AssertThrow(status >= 0, ExcIO()); + } +# endif +} + + + +template +void ScaLAPACKMatrix::save_parallel(const char *filename) const +{ +# ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +# else + + const unsigned int n_mpi_processes(Utilities::MPI::n_mpi_processes(this->grid->mpi_communicator)); + MPI_Info info = MPI_INFO_NULL; + /* + * The content of the distributed matrix is copied to a matrix using a 1xn_processes process grid. + * Therefore, the processes hold contiguous chunks of the matrix, which they can write to the file + */ + //create a 1xP column grid with P being the number of MPI processes + std::shared_ptr column_grid = std::make_shared(this->grid->mpi_communicator,1,n_mpi_processes); + + const int MB=n_rows, NB=std::ceil(n_columns/n_mpi_processes); + ScaLAPACKMatrix tmp(n_rows,n_columns,column_grid,MB,NB); + copy_to(tmp); + + // get pointer to data held by the process + NumberType* data = (tmp.values.size()>0) ? &tmp.values[0] : nullptr; + + herr_t status; + // dataset dimensions + hsize_t dims[2]; + + // set up file access property list with parallel I/O access + hid_t plist_id = H5Pcreate(H5P_FILE_ACCESS); + status = H5Pset_fapl_mpio(plist_id, tmp.grid->mpi_communicator, info); + AssertThrow(status >= 0, ExcIO()); + + // create a new file collectively and release property list identifier + hid_t file_id = H5Fcreate(filename, H5F_ACC_TRUNC, H5P_DEFAULT, plist_id); + status = H5Pclose(plist_id); + AssertThrow(status >= 0, ExcIO()); + + // As ScaLAPACK, and therefore the class ScaLAPACKMatrix, uses column-major ordering + // but HDF5 row-major ordering, we have to reverse entries related + // to columns and rows in the following. + // create the dataspace for the dataset + dims[0] = tmp.n_columns; + dims[1] = tmp.n_rows; + + hid_t filespace = H5Screate_simple(2, dims, nullptr); + + // create the dataset with default properties and close filespace + hid_t type_id = hdf5_type_id(data); + hid_t dset_id = H5Dcreate2(file_id, "/matrix", type_id, + filespace, H5P_DEFAULT, H5P_DEFAULT, H5P_DEFAULT); + status = H5Sclose(filespace); + AssertThrow(status >= 0, ExcIO()); + + // gather the number of local rows and columns from all processes + std::vector proc_n_local_rows(n_mpi_processes), proc_n_local_columns(n_mpi_processes); + MPI_Allgather(&tmp.n_local_rows,1,MPI_INT,proc_n_local_rows.data(),1,MPI_INT,tmp.grid->mpi_communicator); + MPI_Allgather(&tmp.n_local_columns,1,MPI_INT,proc_n_local_columns.data(),1,MPI_INT,tmp.grid->mpi_communicator); + + const unsigned int my_rank(Utilities::MPI::this_mpi_process(tmp.grid->mpi_communicator)); + + // hyperslab selection parameters + // each process defines dataset in memory and writes it to the hyperslab in the file + hsize_t count[2]; + count[0] = tmp.n_local_columns; + count[1] = tmp.n_rows; + hid_t memspace = H5Screate_simple(2, count, nullptr); + + hsize_t offset[2] = {0}; + for (unsigned int i=0; i= 0, ExcIO()); + + // create property list for independent dataset write + plist_id = H5Pcreate(H5P_DATASET_XFER); + status = H5Pset_dxpl_mpio(plist_id, H5FD_MPIO_INDEPENDENT); + AssertThrow(status >= 0, ExcIO()); + + // process with no data will not participate in writing to the file + if (tmp.values.size()>0) + { + status = H5Dwrite(dset_id, type_id, memspace, filespace, + plist_id, data); + AssertThrow(status >= 0, ExcIO()); + } + + // close/release sources + status = H5Dclose(dset_id); + AssertThrow(status >= 0, ExcIO()); + status = H5Sclose(filespace); + AssertThrow(status >= 0, ExcIO()); + status = H5Sclose(memspace); + AssertThrow(status >= 0, ExcIO()); + status = H5Pclose(plist_id); + AssertThrow(status >= 0, ExcIO()); + status = H5Fclose(file_id); + AssertThrow(status >= 0, ExcIO()); + +# endif +} + + + +template +void ScaLAPACKMatrix::load(const char *filename) +{ +#ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +#else +# ifdef H5_HAVE_PARALLEL + //implementation for configurations equipped with a parallel file system + load_parallel(filename); +# else + //implementation for configurations with no parallel file system + load_serial(filename); +# endif +#endif +} + + + +template +void ScaLAPACKMatrix::load_serial(const char *filename) +{ +# ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +# else + + /* + * The content of the distributed matrix is copied to a matrix using a 1x1 process grid. + * Therefore, one process has all the data and can write it to a file + */ + //create a 1xP column grid with P being the number of MPI processes + std::shared_ptr one_grid = std::make_shared(this->grid->mpi_communicator,1,1); + + const int MB=n_rows, NB=n_columns; + ScaLAPACKMatrix tmp(n_rows,n_columns,one_grid,MB,NB); + + // the 1x1 grid has only one process and this one reads + // the content of the matrix from the HDF5 file + if (tmp.grid->mpi_process_is_active) + { + herr_t status; + + // open the file in read-only mode + hid_t file_id = H5Fopen(filename, H5F_ACC_RDONLY, H5P_DEFAULT); + + // open the dataset in the file + hid_t dataset_id = H5Dopen2(file_id, "/matrix", H5P_DEFAULT); + + // check the datatype of the data in the file + // datatype of source and destination must have the same class + // see HDF User's Guide: 6.10. Data Transfer: Datatype Conversion and Selection + hid_t datatype = H5Dget_type(dataset_id); + H5T_class_t t_class_in = H5Tget_class(datatype); + H5T_class_t t_class = H5Tget_class(hdf5_type_id(&tmp.values[0])); + AssertThrow(t_class_in == t_class, + ExcMessage("The data type of the matrix to be read does not match the archive")); + + // get dataspace handle + hid_t dataspace_id = H5Dget_space(dataset_id); + // get number of dimensions + const int ndims = H5Sget_simple_extent_ndims(dataspace_id); + AssertThrow(ndims==2, ExcIO()); + // get every dimension + hsize_t dims[2]; + H5Sget_simple_extent_dims(dataspace_id, dims, nullptr); + AssertThrow((int)dims[0]==n_columns, + ExcMessage("The number of columns of the matrix does not match the content of the archive")); + AssertThrow((int)dims[1]==n_rows, + ExcMessage("The number of rows of the matrix does not match the content of the archive")); + + // read data + status = H5Dread(dataset_id, hdf5_type_id(&tmp.values[0]), H5S_ALL, H5S_ALL, + H5P_DEFAULT, &tmp.values[0]); + AssertThrow(status >= 0, ExcIO()); + + // terminate access to the data space + status = H5Sclose(dataspace_id); + AssertThrow(status >= 0, ExcIO()); + + // release data type handle + status = H5Tclose(datatype); + AssertThrow(status >= 0, ExcIO()); + + // end access to the dataset and release resources used by it + status = H5Dclose(dataset_id); + AssertThrow(status >= 0, ExcIO()); + + // close the file. + status = H5Fclose(file_id); + AssertThrow(status >= 0, ExcIO()); + } + tmp.copy_to(*this); + +# endif // DEAL_II_WITH_HDF5 +} + + + +template +void ScaLAPACKMatrix::load_parallel(const char *filename) +{ +# ifndef DEAL_II_WITH_HDF5 + (void)filename; + AssertThrow(false, ExcMessage ("HDF5 support is disabled.")); +# else +# ifndef H5_HAVE_PARALLEL + AssertThrow(false, ExcMessage ("HDF5 was not built with MPI.")); +# else + + const unsigned int n_mpi_processes(Utilities::MPI::n_mpi_processes(this->grid->mpi_communicator)); + MPI_Info info = MPI_INFO_NULL; + /* + * The content of the distributed matrix is copied to a matrix using a 1xn_processes process grid. + * Therefore, the processes hold contiguous chunks of the matrix, which they can write to the file + */ + //create a 1xP column grid with P being the number of MPI processes + std::shared_ptr column_grid = std::make_shared(this->grid->mpi_communicator,1,n_mpi_processes); + + const int MB=n_rows, NB=std::ceil(n_columns/n_mpi_processes); + ScaLAPACKMatrix tmp(n_rows,n_columns,column_grid,MB,NB); + + // get pointer to data held by the process + NumberType* data = (tmp.values.size()>0) ? &tmp.values[0] : nullptr; + + herr_t status; + + // set up file access property list with parallel I/O access + hid_t plist_id = H5Pcreate(H5P_FILE_ACCESS); + status = H5Pset_fapl_mpio(plist_id, tmp.grid->mpi_communicator, info); + AssertThrow(status >= 0, ExcIO()); + + // open file collectively in read-only mode and release property list identifier + hid_t file_id = H5Fopen(filename, H5F_ACC_RDONLY, plist_id); + status = H5Pclose(plist_id); + AssertThrow(status >= 0, ExcIO()); + + // open the dataset in the file collectively + hid_t dataset_id = H5Dopen2(file_id, "/matrix", H5P_DEFAULT); + + // check the datatype of the dataset in the file + // if the classes of type of the dataset and the matrix do not match abort + // see HDF User's Guide: 6.10. Data Transfer: Datatype Conversion and Selection + hid_t datatype = hdf5_type_id(data); + hid_t datatype_inp = H5Dget_type(dataset_id); + H5T_class_t t_class_inp = H5Tget_class(datatype_inp); + H5T_class_t t_class = H5Tget_class(datatype); + AssertThrow(t_class_inp == t_class, + ExcMessage("The data type of the matrix to be read does not match the archive")); + + // get the dimensions of the matrix stored in the file + // get dataspace handle + hid_t dataspace_id = H5Dget_space(dataset_id); + // get number of dimensions + const int ndims = H5Sget_simple_extent_ndims(dataspace_id); + AssertThrow(ndims==2, ExcIO()); + // get every dimension + hsize_t dims[2]; + status = H5Sget_simple_extent_dims(dataspace_id, dims, nullptr); + AssertThrow(status >= 0, ExcIO()); + AssertThrow((int)dims[0]==n_columns, + ExcMessage("The number of columns of the matrix does not match the content of the archive")); + AssertThrow((int)dims[1]==n_rows, + ExcMessage("The number of rows of the matrix does not match the content of the archive")); + + // gather the number of local rows and columns from all processes + std::vector proc_n_local_rows(n_mpi_processes), proc_n_local_columns(n_mpi_processes); + MPI_Allgather(&tmp.n_local_rows,1,MPI_INT,proc_n_local_rows.data(),1,MPI_INT,tmp.grid->mpi_communicator); + MPI_Allgather(&tmp.n_local_columns,1,MPI_INT,proc_n_local_columns.data(),1,MPI_INT,tmp.grid->mpi_communicator); + + const unsigned int my_rank(Utilities::MPI::this_mpi_process(tmp.grid->mpi_communicator)); + + // hyperslab selection parameters + // each process defines dataset in memory and writes it to the hyperslab in the file + hsize_t count[2]; + count[0] = tmp.n_local_columns; + count[1] = tmp.n_local_rows; + + hsize_t offset[2] = {0}; + for (unsigned int i=0; i= 0, ExcIO()); + + // create a memory dataspace independently + hid_t memspace = H5Screate_simple(2, count, nullptr); + + // read data independently + status = H5Dread(dataset_id, datatype, memspace, dataspace_id, H5P_DEFAULT, data); + AssertThrow(status >= 0, ExcIO()); + + // close/release sources + status = H5Sclose(memspace); + AssertThrow(status >= 0, ExcIO()); + status = H5Dclose(dataset_id); + AssertThrow(status >= 0, ExcIO()); + status = H5Sclose(dataspace_id); + AssertThrow(status >= 0, ExcIO()); + status = H5Fclose(file_id); + AssertThrow(status >= 0, ExcIO()); + + // copying the distributed matrices + tmp.copy_to(*this); + +# endif // H5_HAVE_PARALLEL +# endif // DEAL_II_WITH_HDF5 +} + + + // instantiations template class ScaLAPACKMatrix; template class ScaLAPACKMatrix;