

SUBROUTINE DDBTF2(  M, N, KL, KU, AB, LDAB, INFO ) 
INTEGER INFO, KL, KU, LDAB, M, N  
DOUBLE PRECISION AB( LDAB, * )  
Ddbtrf computes an LU factorization of a real mbyn band matrix A without using partial pivoting with row interchanges. This is the unblocked version of the algorithm, calling Level 2 BLAS.
M (input) INTEGER The number of rows of the matrix A. M >= 0. N (input) INTEGER The number of columns of the matrix A. N >= 0. KL (input) INTEGER The number of subdiagonals within the band of A. KL >= 0. KU (input) INTEGER The number of superdiagonals within the band of A. KU >= 0. AB (input/output) DOUBLE PRECISION array, dimension (LDAB,N) On entry, the matrix A in band storage, in rows KL+1 to 2*KL+KU+1; rows 1 to KL of the array need not be set. The jth column of A is stored in the jth column of the array AB as follows: AB(kl+ku+1+ij,j) = A(i,j) for max(1,jku)<=i<=min(m,j+kl) On exit, details of the factorization: U is stored as an upper triangular band matrix with KL+KU superdiagonals in rows 1 to KL+KU+1, and the multipliers used during the factorization are stored in rows KL+KU+2 to 2*KL+KU+1. See below for further details.
LDAB (input) INTEGER The leading dimension of the array AB. LDAB >= 2*KL+KU+1. INFO (output) INTEGER = 0: successful exit
< 0: if INFO = i, the ith argument had an illegal value
> 0: if INFO = +i, U(i,i) is exactly zero. The factorization has been completed, but the factor U is exactly singular, and division by zero will occur if it is used to solve a system of equations.
The band storage scheme is illustrated by the following example, when M = N = 6, KL = 2, KU = 1:On entry: On exit:
* a12 a23 a34 a45 a56 * u12 u23 u34 u45 u56
a11 a22 a33 a44 a55 a66 u11 u22 u33 u44 u55 u66
a21 a32 a43 a54 a65 * m21 m32 m43 m54 m65 *
a31 a42 a53 a64 * * m31 m42 m53 m64 * *Array elements marked * are not used by the routine; elements marked + need not be set on entry, but are required by the routine to store elements of U, because of fillin resulting from the row
interchanges.
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