1c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      SUBROUTINE DSBMV(UPLO,N,K,ALPHA,A,LDA,X,INCX,BETA,Y,INCY)
2c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. Scalar Arguments ..
3c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      DOUBLE PRECISION ALPHA,BETA
4c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      INTEGER INCX,INCY,K,LDA,N
5c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      CHARACTER UPLO
6c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
7c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. Array Arguments ..
8c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      DOUBLE PRECISION A(LDA,*),X(*),Y(*)
9c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
10c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
11c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  Purpose
12c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  =======
13c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
14c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  DSBMV  performs the matrix-vector  operation
15c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
16c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     y := alpha*A*x + beta*y,
17c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
18c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  where alpha and beta are scalars, x and y are n element vectors and
19c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  A is an n by n symmetric band matrix, with k super-diagonals.
20c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
21c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  Arguments
22c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  ==========
23c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
24c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  UPLO   - CHARACTER*1.
25c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, UPLO specifies whether the upper or lower
26c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           triangular part of the band matrix A is being supplied as
27c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           follows:
28c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
29c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              UPLO = 'U' or 'u'   The upper triangular part of A is
30c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                                  being supplied.
31c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
32c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              UPLO = 'L' or 'l'   The lower triangular part of A is
33c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                                  being supplied.
34c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
35c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
36c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
37c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  N      - INTEGER.
38c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, N specifies the order of the matrix A.
39c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           N must be at least zero.
40c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
41c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
42c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  K      - INTEGER.
43c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, K specifies the number of super-diagonals of the
44c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           matrix A. K must satisfy  0 .le. K.
45c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
46c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
47c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  ALPHA  - DOUBLE PRECISION.
48c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, ALPHA specifies the scalar alpha.
49c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
50c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
51c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  A      - DOUBLE PRECISION array of DIMENSION ( LDA, n ).
52c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Before entry with UPLO = 'U' or 'u', the leading ( k + 1 )
53c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           by n part of the array A must contain the upper triangular
54c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           band part of the symmetric matrix, supplied column by
55c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           column, with the leading diagonal of the matrix in row
56c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           ( k + 1 ) of the array, the first super-diagonal starting at
57c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           position 2 in row k, and so on. The top left k by k triangle
58c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           of the array A is not referenced.
59c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           The following program segment will transfer the upper
60c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           triangular part of a symmetric band matrix from conventional
61c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           full matrix storage to band storage:
62c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
63c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                 DO 20, J = 1, N
64c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                    M = K + 1 - J
65c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                    DO 10, I = MAX( 1, J - K ), J
66c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                       A( M + I, J ) = matrix( I, J )
67c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              10    CONTINUE
68c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              20 CONTINUE
69c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
70c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Before entry with UPLO = 'L' or 'l', the leading ( k + 1 )
71c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           by n part of the array A must contain the lower triangular
72c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           band part of the symmetric matrix, supplied column by
73c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           column, with the leading diagonal of the matrix in row 1 of
74c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           the array, the first sub-diagonal starting at position 1 in
75c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           row 2, and so on. The bottom right k by k triangle of the
76c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           array A is not referenced.
77c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           The following program segment will transfer the lower
78c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           triangular part of a symmetric band matrix from conventional
79c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           full matrix storage to band storage:
80c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
81c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                 DO 20, J = 1, N
82c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                    M = 1 - J
83c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                    DO 10, I = J, MIN( N, J + K )
84c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*                       A( M + I, J ) = matrix( I, J )
85c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              10    CONTINUE
86c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*              20 CONTINUE
87c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
88c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
89c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
90c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  LDA    - INTEGER.
91c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, LDA specifies the first dimension of A as declared
92c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           in the calling (sub) program. LDA must be at least
93c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           ( k + 1 ).
94c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
95c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
96c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  X      - DOUBLE PRECISION array of DIMENSION at least
97c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           ( 1 + ( n - 1 )*abs( INCX ) ).
98c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Before entry, the incremented array X must contain the
99c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           vector x.
100c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
101c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
102c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  INCX   - INTEGER.
103c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, INCX specifies the increment for the elements of
104c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           X. INCX must not be zero.
105c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
106c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
107c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  BETA   - DOUBLE PRECISION.
108c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, BETA specifies the scalar beta.
109c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
110c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
111c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  Y      - DOUBLE PRECISION array of DIMENSION at least
112c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           ( 1 + ( n - 1 )*abs( INCY ) ).
113c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Before entry, the incremented array Y must contain the
114c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           vector y. On exit, Y is overwritten by the updated vector y.
115c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
116c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  INCY   - INTEGER.
117c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           On entry, INCY specifies the increment for the elements of
118c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Y. INCY must not be zero.
119c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*           Unchanged on exit.
120c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
121c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
122c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  Level 2 Blas routine.
123c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
124c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  -- Written on 22-October-1986.
125c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Jack Dongarra, Argonne National Lab.
126c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Jeremy Du Croz, Nag Central Office.
127c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Sven Hammarling, Nag Central Office.
128c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Richard Hanson, Sandia National Labs.
129c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
130c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*  =====================================================================
131c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
132c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. Parameters ..
133c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      DOUBLE PRECISION ONE,ZERO
134c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      PARAMETER (ONE=1.0D+0,ZERO=0.0D+0)
135c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
136c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. Local Scalars ..
137c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      DOUBLE PRECISION TEMP1,TEMP2
138c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      INTEGER I,INFO,IX,IY,J,JX,JY,KPLUS1,KX,KY,L
139c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
140c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. External Functions ..
141c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      LOGICAL LSAME
142c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      EXTERNAL LSAME
143c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
144c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. External Subroutines ..
145c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      EXTERNAL XERBLA
146c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
147c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     .. Intrinsic Functions ..
148c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      INTRINSIC MAX,MIN
149c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     ..
150c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
151c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Test the input parameters.
152c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
153c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      INFO = 0
154c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (.NOT.LSAME(UPLO,'U') .AND. .NOT.LSAME(UPLO,'L')) THEN
155c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 1
156c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE IF (N.LT.0) THEN
157c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 2
158c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE IF (K.LT.0) THEN
159c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 3
160c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE IF (LDA.LT. (K+1)) THEN
161c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 6
162c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE IF (INCX.EQ.0) THEN
163c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 8
164c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE IF (INCY.EQ.0) THEN
165c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          INFO = 11
166c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
167c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (INFO.NE.0) THEN
168c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          CALL XERBLA('DSBMV ',INFO)
169c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          RETURN
170c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
171c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
172c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Quick return if possible.
173c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
174c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF ((N.EQ.0) .OR. ((ALPHA.EQ.ZERO).AND. (BETA.EQ.ONE))) RETURN
175c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
176c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Set up the start points in  X  and  Y.
177c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
178c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (INCX.GT.0) THEN
179c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          KX = 1
180c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE
181c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          KX = 1 - (N-1)*INCX
182c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
183c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (INCY.GT.0) THEN
184c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          KY = 1
185c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE
186c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          KY = 1 - (N-1)*INCY
187c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
188c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
189c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     Start the operations. In this version the elements of the array A
190c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     are accessed sequentially with one pass through A.
191c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
192c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     First form  y := beta*y.
193c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
194c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (BETA.NE.ONE) THEN
195c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          IF (INCY.EQ.1) THEN
196c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              IF (BETA.EQ.ZERO) THEN
197c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 10 I = 1,N
198c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(I) = ZERO
199c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   10             CONTINUE
200c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              ELSE
201c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 20 I = 1,N
202c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(I) = BETA*Y(I)
203c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   20             CONTINUE
204c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              END IF
205c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          ELSE
206c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              IY = KY
207c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              IF (BETA.EQ.ZERO) THEN
208c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 30 I = 1,N
209c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(IY) = ZERO
210c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IY = IY + INCY
211c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   30             CONTINUE
212c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              ELSE
213c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 40 I = 1,N
214c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(IY) = BETA*Y(IY)
215c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IY = IY + INCY
216c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   40             CONTINUE
217c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              END IF
218c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          END IF
219c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
220c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (ALPHA.EQ.ZERO) RETURN
221c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      IF (LSAME(UPLO,'U')) THEN
222c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
223c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*        Form  y  when upper triangle of A is stored.
224c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
225c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          KPLUS1 = K + 1
226c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          IF ((INCX.EQ.1) .AND. (INCY.EQ.1)) THEN
227c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              DO 60 J = 1,N
228c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP1 = ALPHA*X(J)
229c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP2 = ZERO
230c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  L = KPLUS1 - J
231c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 50 I = MAX(1,J-K),J - 1
232c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(I) = Y(I) + TEMP1*A(L+I,J)
233c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      TEMP2 = TEMP2 + A(L+I,J)*X(I)
234c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   50             CONTINUE
235c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(J) = Y(J) + TEMP1*A(KPLUS1,J) + ALPHA*TEMP2
236c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   60         CONTINUE
237c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          ELSE
238c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              JX = KX
239c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              JY = KY
240c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              DO 80 J = 1,N
241c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP1 = ALPHA*X(JX)
242c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP2 = ZERO
243c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  IX = KX
244c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  IY = KY
245c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  L = KPLUS1 - J
246c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 70 I = MAX(1,J-K),J - 1
247c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(IY) = Y(IY) + TEMP1*A(L+I,J)
248c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      TEMP2 = TEMP2 + A(L+I,J)*X(IX)
249c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IX = IX + INCX
250c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IY = IY + INCY
251c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   70             CONTINUE
252c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(JY) = Y(JY) + TEMP1*A(KPLUS1,J) + ALPHA*TEMP2
253c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  JX = JX + INCX
254c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  JY = JY + INCY
255c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  IF (J.GT.K) THEN
256c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      KX = KX + INCX
257c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      KY = KY + INCY
258c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  END IF
259c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   80         CONTINUE
260c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          END IF
261c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      ELSE
262c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
263c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*        Form  y  when lower triangle of A is stored.
264c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
265c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          IF ((INCX.EQ.1) .AND. (INCY.EQ.1)) THEN
266c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              DO 100 J = 1,N
267c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP1 = ALPHA*X(J)
268c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP2 = ZERO
269c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(J) = Y(J) + TEMP1*A(1,J)
270c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  L = 1 - J
271c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 90 I = J + 1,MIN(N,J+K)
272c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(I) = Y(I) + TEMP1*A(L+I,J)
273c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      TEMP2 = TEMP2 + A(L+I,J)*X(I)
274c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath   90             CONTINUE
275c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(J) = Y(J) + ALPHA*TEMP2
276c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  100         CONTINUE
277c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          ELSE
278c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              JX = KX
279c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              JY = KY
280c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath              DO 120 J = 1,N
281c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP1 = ALPHA*X(JX)
282c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  TEMP2 = ZERO
283c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(JY) = Y(JY) + TEMP1*A(1,J)
284c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  L = 1 - J
285c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  IX = JX
286c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  IY = JY
287c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  DO 110 I = J + 1,MIN(N,J+K)
288c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IX = IX + INCX
289c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      IY = IY + INCY
290c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      Y(IY) = Y(IY) + TEMP1*A(L+I,J)
291c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                      TEMP2 = TEMP2 + A(L+I,J)*X(IX)
292c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  110             CONTINUE
293c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  Y(JY) = Y(JY) + ALPHA*TEMP2
294c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  JX = JX + INCX
295c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                  JY = JY + INCY
296c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  120         CONTINUE
297c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath          END IF
298c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END IF
299c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
300c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      RETURN
301c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
302c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*     End of DSBMV .
303c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath*
304c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath      END
305