# 0 "" # 0 "" # 0 "" # 1 "/usr/include/stdc-predef.h" 1 3 4 # 17 "/usr/include/stdc-predef.h" 3 4 # 2 "" 2 # 1 "" # 10 "" module m_set_random_seed2 contains subroutine set_random_seed1 ! Sets a random seed based on the system and wall clock time ! Used to work on IBM Regatta Power 4 ("TRE") but not on Cray XE6m ("Hexagon") ! Where it always returned zero. use qmpi implicit none integer , dimension(8)::val integer cnt integer sze integer, allocatable, dimension(:):: pt integer :: q call DATE_AND_TIME(values=val) !if(master)print*,'TIME', val call SYSTEM_CLOCK(count=cnt) !if(master)print*,'CLOCK', cnt call RANDOM_SEED(size=sze) !if(master)print*,'SEED', sze allocate(pt(sze)) pt(1) = val(8)*val(3) pt(2) = cnt ! KAL --- spread random seed to tiles, this makes sure that m_sample2D ! KAL --- produces the same perturbations across processes if (master) then do q=2,qmpi_num_proc call send(pt,q-1) end do else call receive(pt,0) end if call RANDOM_SEED(put=pt) !if(master)print*,'RANDOM SEED', pt deallocate(pt) end subroutine set_random_seed1 ! --- Sets a random seed based on the wall clock time ! ES: Tested and approved on Cray subroutine set_random_seed2 use qmpi implicit none integer , dimension(8)::val integer cnt,q integer sze ! --- Arrays for random seed integer, allocatable, dimension(:):: pt real , allocatable, dimension(:):: rpt ! call DATE_AND_TIME(values=val) if (sum(val) == 0) then print*, "Check that date_and_time is available on your computer" call stop_mpi endif call RANDOM_SEED(size=sze) allocate(pt(sze)) allocate(rpt(sze)) ! --- Init - assumes seed is set in some way based on clock, ! --- date etc. (not specified in fortran standard). Sometimes ! --- this initial seed is just set every second call RANDOM_SEED ! --- Retrieve initialized seed. val(8) is milliseconds - call RANDOM_SEED(GET=pt) ! --- this randomizes stuff if random_seed is not updated often ! --- enough. synchronize seed across tasks (needed if pseudo ! --- is paralellized some day) rpt = pt * (val(8)-500) if (master) then do q=2,qmpi_num_proc call send(rpt,q-1) end do else call receive(rpt,0) end if pt=int(rpt) call RANDOM_SEED(put=pt) deallocate( pt) deallocate(rpt) end subroutine set_random_seed2 end module m_set_random_seed2