# How to allocate the memory for b in LAPACK sgelsd routine

According to the official user guide line, sgelsd is used to solve the least square problem

``````min_x || b - Ax ||_2
``````

and allows matrix A to be rectangle and rank-deficient. And according to the interface description in the sgelsd source code, b is used as input-output parameter. When sgelsd is finished, b stores the solution. So b occupies m*sizeof(float) bytes. While the solution x needs n*sizeof(float) bytes (assume A is a m*n matrix, and b is a m*1 vector).

However, when n>m, the memory of b is too small to store the solution x. How to deal with this situation? I did not get it from the comments of sgelsd source code. Can I just allocate n*sizeof(float) bytes for b and use the first m*sizeof(float) to store the b vector?

Thanks.

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This example from Intel MKL has the answer. B is allocated as LDB*NRHS (LDB = max(M,N), and zero-padded. Note that the input B is not necessarily a 1-vector, SGELSD can handle multiple least-squares problems at the same time (hence NRHS).

From the Lapack docs for SGELSD:

[in,out] B

``````      B is REAL array, dimension (LDB,NRHS)
On entry, the M-by-NRHS right hand side matrix B.
On exit, B is overwritten by the N-by-NRHS solution
matrix X.  If m >= n and RANK = n, the residual
sum-of-squares for the solution in the i-th column is given
by the sum of squares of elements n+1:m in that column.
``````

[in] LDB

``````      LDB is INTEGER
The leading dimension of the array B. LDB >= max(1,max(M,N)).
``````
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