I am using DSYEV and DSYEVD from the LAPACK library to find eigenvalues and eigenvectors (Compilation syntax: gfortran -llapack ). However, I find wrong eigenvalues (-0.44,0.35,0.88
) for a particular matrix. What's going wrong?
One can easily see the matrix has zero determinant, so at least one eigenvalue must be zero.
Here is my code (hope it's not too big):
Program Real_Eigenvec
implicit none
integer, parameter:: n=3
integer:: i,j, flag
real*8:: A(n,n),X(n,n)
real*8:: lambda(n)
real*8, parameter:: p=0.5d0/dsqrt(2.d0), q=1.d0-1.d0/dsqrt(2.d0)
Print*,'Enter flag: 0 for DSYEV, 1 for DSYEVD'
Read*, flag
A= transpose(reshape((/ 0.d0, 1.d0, 0.d0, p, q, p, 0.5d0, 0.0d0, 0.5d0 /), shape(A)))
print*,'Dimension of the matrix, n=',int(sqrt(float(size(A))))
Print*,'A matrix in full form:'
Do i=1,n
print 100, (A(i,j),j=1,n)
End Do
call Eigen(A,lambda,X,n,flag)
! Print the eigenvalues and eigenvectors.
PRINT 200
DO i = 1, n
PRINT 201, lambda(i), (X(i,j), j=1,n)
END DO
100 FORMAT (1X,10(:2X,F10.2))
200 FORMAT (/1X, 'Eigenvalue', 16X, 'Eigenvector^T')
201 FORMAT (1X, F10.2,4X,6(:f10.2))
End Program Real_Eigenvec
!!! SUBROUTINES -----------------------------------------
Subroutine Eigen(A,lambda,X,n,flag)
implicit none
integer:: i,n,flag
real*8:: A(n,n),Ap(n,n),X(n,n)
real*8:: lambda(n)
real*8, allocatable :: work(:)
integer, allocatable :: iwork(:)
integer:: lwork,liwork,info
print*,'n in Eiegen routine=',n
lwork=3*n-1 ! DSYEV for flag=0
if (flag==1) then ! DSYEVD for flag=1
lwork=1+6*n+2*n**2
end if
liwork=3+5*n
allocate(work(lwork))
allocate(iwork(liwork))
Ap=A
if (flag==0) then
CALL DSYEV ('v', 'l', n, Ap, n, lambda, work, lwork, info)
else
CALL DSYEVD ('V', 'U', n, Ap, n, lambda, work, &
& lwork, iwork, liwork, info)
! For doumentation visit: http://www.netlib.org/lapack/explore-html/d1/da2/dsyevd_8f.html
end if
X=Ap
print*,'info=',info
deallocate(work)
deallocate(iwork)
End Subroutine Eigen