I am writing a program. The program solves matrices. The matrices are as large as the user specifies in the command line arguments. I want the program to solve very large matrices, so when I was done with all the linear algebra stuff including umfpack, lapack, suitespares, arpack ... I tried to free up memory space by deleting unused arrays. I located 3 completely unused arrays, that had only been used to debug other problems with solving the matrix.

When I deleted the variable from the declaration and the the allocation the program started to act different. The matrix solutions are wrong now. I've gone back to my backup file and it still works fine. I am certain deleting the declaration and allocation of unused arrays is preventing my program from finding the correct solutions.

I've been toying with the problem for a few days now. I really can't imagine how deleting unused arrays is changing the execution of my program. Any help is appreciated.

```
program HHSolver
use MathOperations
integer :: O, NEV, i, j, k, a, col, row
integer :: coeff, p, b, NTerms, NextCoeff
integer :: m, n, symbolic, numeric
integer :: TermIndex, ido, NCV,LDV, LWorkL, info2,ierr
double precision :: x, y, sigmai, sigmar
Character(128) :: String, term, factor
character(1) :: bmat
character(2) :: which
double precision, dimension(:, :), allocatable :: polynomial !this stores the polynomial boundary equation
double precision, dimension(:, :), allocatable :: lap !this stores the polynomial boundary equation
double precision, dimension(:, :), allocatable :: temp !this stores the polynomial boundary equation
double precision, dimension(:, :), allocatable :: R !this stores the polynomial boundary equation
double precision, dimension(:, :), allocatable :: vec !this stores the polynomial boundary equation
double precision, dimension(:, :), allocatable :: lwork !this stores the polynomial boundary equation
double precision, dimension(:), allocatable :: alphar, beta
double precision, dimension(:), allocatable :: alphai, work
double precision, dimension(1, 1) :: dummy
double precision, dimension(:), allocatable :: RESID
double precision, dimension(:, :), allocatable :: V, z
double precision, dimension(:), allocatable :: workd, workl
double precision, dimension(:), allocatable :: workev
double precision, dimension(:), allocatable :: Ax, DI, DR
integer, dimension(:), allocatable :: Ap, Ai
integer, dimension(11) :: IPARAM
integer, dimension(14) :: IPNTR
integer, dimension(1) :: h
double precision :: control(20), info(90), tol
logical, dimension(:), allocatable :: select
logical :: rvec(1)
double precision, dimension(:), allocatable :: tempvec
external daxpy, dnrm2, dpttrf, dpttrs, dlapy2
intrinsic abs
call get_command_argument(1, String)
read(String, '(i10)') O
call get_command_argument(2, String)
read(String, '(i10)') NEV
call get_command_argument(3, String)
write(*, *) 'try to allocate enough memory for full matrices'
!this is wh the matrix is created
allocate(lap((O + 1)**2, (O + 1)**2)) !this stores the polynomial boundary equation
allocate(temp((O + 1)**2, (O + 1)**2)) !this stores the polynomial boundary equation
allocate(R((O + 1)**2, (O + 1)**2)) !this stores the polynomial boundary equation
allocate(alphar((O+1)**2)) !this stores the polynomial boundary equation
allocate(alphai((O+1)**2)) !this stores the polynomial boundary equation
allocate(beta((O+1)**2)) !this stores the polynomial boundary equation
allocate(vec((O + 1)**2, (O + 1)**2)) !this stores the polynomial boundary equation
allocate(work(8*((O+1)**2))) !this stores the polynomial boundary equation
allocate(lwork(2*((O+1)**2), 2*((O+1)**2))) !this stores the polynomial boundary equation
allocate(RESID((O+1)**2)) !this stores the initial and last eigenvector
allocate(V((O+1)**2,20+NEV)) !this stores the eigenvectors
allocate(workd(3*((O+1)**2))) !this stores the eigenvectors
allocate(workl(30*(20+NEV)**2 + 60*(20+NEV))) !this stores the eigenvectors
allocate(workev(3*(20+NEV))) !this stores the eigenvectors
allocate(tempvec((O+1)**2)) !this stores the eigenvectors
allocate(DI(NEV+1)) !this stores the eigenvectors
allocate(DR(NEV+1)) !this stores the eigenvectors
allocate(select(20+NEV)) !this stores the eigenvectors
allocate(z((O+1)**2,1+NEV)) !this stores the eigenvectors
write(*, *) 'memory for matrices allocated'
!create the matrix to be solved
!solver the matrix
write(*, '(25F20.5)') DI !these are the real and imaginary part of solution
write(*, '(25F20.5)') DR
end program
```

Everything falls apart when I try to delete alphai, alphar, lwork. They aren't even being used.

`implicit none`

statement at line 3? – milancurcic Jul 1 '13 at 21:57