Alternatively to the MPI approach, you also could design an object (a derived type) which contains all the variables program B needs to know in order to remember its state between calls. Then you should divide up the functionality of program B into three routines:
- initialization routine (called before the first timestep in A)
- main routine (called at each time step in A)
- optional: destruction (called after the last time step in A).
Every time you call any of those routines from program A, you pass them the derived type with the variables. In the first call, they get initialized, in the subsequent calls they are used.
So program A would look like:
type(bdata) :: myb
do ii = 1, ntimesteps
call main_b(myb, data)
bdata must contain everything program B needs to remember, something like:
type :: bdata
integer, allocatable :: whatever(:)
end type bdata
And the routines in the module with the functionality of program B would be like:
!> First initialization of B (slow).
type(bdata), intent(out) :: myb
end subroutine initialize_b
!> Process data comming from program A.
subroutine main_b(myb, data)
type(bdata), intent(inout) :: myb
end subroutine main_b
If you need only one instance of the program B, you can do the same trick by turning the program B into a module with module variables stroring its state (instead of the fields of the derived type). But whatever for whatever solution go, you have to separate the initialization part somehow, to make sure it is executed only once.