tf.raw_ops.SparseMatrixOrderingAMD

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Computes the Approximate Minimum Degree (AMD) ordering of input.

Computes the Approximate Minimum Degree (AMD) ordering for a sparse matrix.

The returned permutation may be used to permute the rows and columns of the given sparse matrix. This typically results in permuted sparse matrix's sparse Cholesky (or other decompositions) in having fewer zero fill-in compared to decomposition of the original matrix.

The input sparse matrix may have rank 2 or rank 3. The output Tensor, representing would then have rank 1 or 2 respectively, with the same batch shape as the input.

Each component of the input sparse matrix must represent a square symmetric matrix; only the lower triangular part of the matrix is read. The values of the sparse matrix does not affect the returned permutation, only the sparsity pattern of the sparse matrix is used. Hence, a single AMD ordering may be reused for the Cholesky decompositions of sparse matrices with the same sparsity pattern but with possibly different values.

Each batch component of the output permutation represents a permutation of N elements, where the input sparse matrix components each have N rows. That is, the component contains each of the integers {0, .. N-1} exactly once. The ith element represents the row index that the ith row maps to.

Usage example:

    from tensorflow.python.ops.linalg.sparse import sparse_csr_matrix_ops

    a_indices = np.array([[0, 0], [1, 1], [2, 1], [2, 2], [3, 3]])
    a_values = np.array([1.0, 2.0, 1.0, 3.0, 4.0], np.float32)
    a_dense_shape = [4, 4]

    with tf.Session() as sess:
      # Define (COO format) SparseTensor over Numpy array.
      a_st = tf.sparse.SparseTensor(a_indices, a_values, a_dense_shape)

      # Convert SparseTensors to CSR SparseMatrix.
      a_sm = sparse_csr_matrix_ops.sparse_tensor_to_csr_sparse_matrix(
          a_st.indices, a_st.values, a_st.dense_shape)

      # Obtain the AMD Ordering for the CSR SparseMatrix.
      ordering_amd = sparse_csr_matrix_ops.sparse_matrix_ordering_amd(sparse_matrix)

      ordering_amd_value = sess.run(ordering_amd)

ordering_amd_value stores the AMD ordering: [1 2 3 0].

input: A CSRSparseMatrix.

input A Tensor of type variant. A CSRSparseMatrix.
name A name for the operation (optional).

A Tensor of type int32.