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stochy_patterngenerator.F90
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stochy_patterngenerator.F90
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!>@brief The module 'stochy_patterngenerator_mod' contains the derived type random_pattern
!! which controls the characteristics of the random pattern
module stochy_patterngenerator_mod
!> generate random patterns with specified temporal and spatial auto-correlation
!! in spherical harmonic space.
use kinddef
use spectral_layout_mod, only: len_trie_ls, len_trio_ls, ls_dim, ls_max_node
! use mersenne_twister_stochy, only: random_setseed,random_gauss,random_stat
use mersenne_twister, only: random_setseed,random_gauss,random_stat
! DH* replacing this with mpi_wrapper changes results - look for value of iseed?
use mpi_wrapper,only: is_master, mp_bcst
! *DH
implicit none
private
public :: computevarspec, setvarspect,&
patterngenerator_init, patterngenerator_destroy, getnoise, &
patterngenerator_advance, ndimspec,&
chgres_pattern,computevarspec_r
! -----------------------------------------------
!>@brief Derived type 'random_pattern' contains the attrubites of a spefic random pattern
!>@details A seperate instance of this type is needed for each pattern
type,public :: random_pattern ! start type define
! -----------------------------------------------
real(kind_dbl_prec), public :: lengthscale ! length scale in m
real(kind_dbl_prec), public :: tau
real(kind_dbl_prec), public :: dt
real(kind_dbl_prec), public :: phi
real(kind_dbl_prec), public :: stdev
real(kind_evod), allocatable, dimension(:), public :: varspectrum, varspectrum1d, lap
integer, allocatable, dimension(:), public ::&
degree,order,idx_e,idx_o
integer, allocatable, dimension(:,:), public :: idx
integer, public :: seed
real(kind_dbl_prec), allocatable, dimension(:,:,:), public :: spec_e,spec_o
type(random_stat), public :: rstate
! -----------------------------------------------------
end type random_pattern ! end type define
! -----------------------------------------------------
integer :: nlons,nlats,ntrunc,ndimspec
contains
!>@brief The subroutine 'patterngenerator_init' sets up the spherical harmonics
!
!>@details It populates array defining the zonal and total wavenumbers, amplitude,
!! temporaral and spatial correlations.
subroutine patterngenerator_init(lscale, delt, tscale, stdev, iseed, rpattern,&
nlon, nlat, jcap, ls_node, npatterns,&
nlevs, varspect_opt,new_lscale)
!\callgraph
real(kind_dbl_prec), intent(in),dimension(npatterns) :: lscale,tscale,stdev
real, intent(in) :: delt
integer, intent(in) :: nlon,nlat,jcap,npatterns,varspect_opt
integer, intent(in) :: ls_node(ls_dim,3),nlevs
logical, intent(in) :: new_lscale
type(random_pattern), intent(out), dimension(npatterns) :: rpattern
integer(8), intent(inout) :: iseed(npatterns)
integer m,j,l,n,nm,nn,np,indev1,indev2,indod1,indod2
integer(8) count, count_rate, count_max, count_trunc
integer(8) :: iscale = 10000000000
integer count4, ierr
! integer member_id
integer indlsod,indlsev,jbasev,jbasod
include 'function_indlsod'
include 'function_indlsev'
nlons = nlon
nlats = nlat
ntrunc = jcap
ndimspec = (ntrunc+1)*(ntrunc+2)/2
! propagate seed supplied from namelist to all patterns...
if (iseed(1) .NE. 0) then
do np=2,npatterns
if (iseed(np).EQ.0) then
iseed(np)=iseed(1)+np*100000000
endif
enddo
endif
do np=1,npatterns
allocate(rpattern(np)%idx(0:ntrunc,0:ntrunc))
allocate(rpattern(np)%idx_e(len_trie_ls))
allocate(rpattern(np)%idx_o(len_trio_ls))
allocate(rpattern(np)%spec_e(len_trie_ls,2,nlevs))
allocate(rpattern(np)%spec_o(len_trio_ls,2,nlevs))
rpattern(np)%idx_e = 0; rpattern(np)%idx_o = 0; rpattern(np)%idx = 0
rpattern(np)%spec_e(:,:,:)=0.
rpattern(np)%spec_o(:,:,:)=0.
nm = 0
do m=0,ntrunc
do n=m,ntrunc
nm = nm + 1
rpattern(np)%idx(m,n) = nm
enddo
enddo
do j = 1, ls_max_node
l=ls_node(j,1) ! zonal wavenumber
jbasev=ls_node(j,2)
jbasod=ls_node(j,3)
indev1 = indlsev(l,l)
indod1 = indlsod(l+1,l)
if (mod(l,2) .eq. mod(ntrunc+1,2)) then
indev2 = indlsev(ntrunc+1,l)
indod2 = indlsod(ntrunc ,l)
else
indev2 = indlsev(ntrunc ,l)
indod2 = indlsod(ntrunc+1,l)
endif
n = l ! degree
do nn=indev1,indev2
if (n <= ntrunc .and. l <= ntrunc) then
nm = rpattern(np)%idx(l,n)
rpattern(np)%idx_e(nn) = nm
endif
n = n + 2
enddo
n = l+1
do nn=indod1,indod2
if (n <= ntrunc .and. l <= ntrunc) then
nm = rpattern(np)%idx(l,n)
rpattern(np)%idx_o(nn) = nm
endif
n = n + 2
enddo
enddo
allocate(rpattern(np)%degree(ndimspec),rpattern(np)%order(ndimspec),rpattern(np)%lap(ndimspec))
#ifdef __GFORTRAN__
j = 0
do m=0,ntrunc
do n=m,ntrunc
j = j + 1
rpattern(np)%degree(j) = n
rpattern(np)%order(j) = m
end do
end do
#else
rpattern(np)%degree = (/((n,n=m,ntrunc),m=0,ntrunc)/)
rpattern(np)%order = (/((m,n=m,ntrunc),m=0,ntrunc)/)
#endif
rpattern(np)%lap = -rpattern(np)%degree*(rpattern(np)%degree+1.0)
rpattern(np)%tau = tscale(np)
rpattern(np)%lengthscale = lscale(np)
rpattern(np)%dt = delt
rpattern(np)%phi = exp(-delt/tscale(np))
rpattern(np)%stdev = stdev(np)
allocate(rpattern(np)%varspectrum(ndimspec))
allocate(rpattern(np)%varspectrum1d(0:ntrunc))
! seed computed on root, then bcast to all tasks and set.
if (is_master()) then
! read(ens_nam(2:3),'(i2)') member_id
! print *,'ens_nam,member_id',trim(ens_nam),member_id
if (iseed(np) == 0) then
! generate a random seed from system clock and ens member number
call system_clock(count, count_rate, count_max)
! iseed is elapsed time since unix epoch began (secs)
! truncate to 4 byte integer
count_trunc = iscale*(count/iscale)
count4 = count - count_trunc !+ member_id
print *,'using seed',count4
else
!count4 = iseed(np) + member_id
! don't rely on compiler to truncate integer(8) to integer(4) on
! overflow, do wrap around explicitly.
!count4 = mod(iseed(np) + member_id + 2147483648, 4294967296) - 2147483648
count4 = mod(iseed(np) + 2147483648, 4294967296) - 2147483648
print *,'using seed',count4,iseed(np)!,member_id
endif
endif
! broadcast seed to all tasks.
call mp_bcst(count4)
rpattern(np)%seed = count4
! set seed (to be the same) on all tasks. Save random state.
call random_setseed(rpattern(np)%seed,rpattern(np)%rstate)
if (varspect_opt .ne. 0 .and. varspect_opt .ne. 1) then
if (is_master()) then
print *,'WARNING: illegal value for varspect_opt (should be 0 or 1), using 0 (gaussian spectrum)...'
endif
call setvarspect(rpattern(np),0,new_lscale)
else
call setvarspect(rpattern(np),varspect_opt,new_lscale)
endif
enddo ! n=1,npatterns
end subroutine patterngenerator_init
!>@brief The subroutine 'patterngenerator_destroy' dellaocate arrays
!>@details This is acutally never called
subroutine patterngenerator_destroy(rpattern,npatterns)
!\callgraph
type(random_pattern), intent(inout) :: rpattern(npatterns)
integer, intent(in) :: npatterns
integer n
do n=1,npatterns
deallocate(rpattern(n)%varspectrum,rpattern(n)%varspectrum1d)
deallocate(rpattern(n)%degree,rpattern(n)%order,rpattern(n)%lap)
deallocate(rpattern(n)%idx,rpattern(n)%idx_e,rpattern(n)%idx_o)
enddo
end subroutine patterngenerator_destroy
!>@brief The subroutine 'computevarspec' compute the globally integrated
!! variance from complex spectral coefficients
!>@details this is necessary to ensure the proper global variance
subroutine computevarspec(rpattern,dataspec,var)
!\callgraph
! compute globally integrated variance from spectral coefficients
complex(kind_evod), intent(in) :: dataspec(ndimspec)
real(kind_evod), intent(out) :: var
type(random_pattern), intent(in) :: rpattern
integer n
var = 0.
do n=1,ndimspec
if (rpattern%order(n) .ne. 0) then
var = var + dataspec(n)*conjg(dataspec(n))
else
var = var + 0.5*dataspec(n)*conjg(dataspec(n))
endif
enddo
end subroutine computevarspec
!>@brief The subroutine 'computevarspec_r' compute the globally integrated
!! variance from real spectral coefficients
!>@details this is necessary to ensure the proper global variance
subroutine computevarspec_r(rpattern,dataspec,var)
!\callgraph
! compute globally integrated variance from spectral coefficients
real(kind_dbl_prec), intent(in) :: dataspec(2*ndimspec)
real(kind_dbl_prec), intent(out) :: var
type(random_pattern), intent(in) :: rpattern
integer n
var = 0.
do n=1,ndimspec
if (rpattern%order(n) .ne. 0) then
var = var + dataspec(n)**2+dataspec(n+ndimspec)**2
else
var = var + 0.5*(dataspec(n)**2+dataspec(n+ndimspec)**2)
endif
enddo
end subroutine computevarspec_r
!>@brief The subroutine 'getnoise' scales spectral cofficients with
!! white noise to the appropriate amplitude for speherical harmonincs
!! variance from real spectral c
subroutine getnoise(rpattern,noise_e,noise_o)
!\callgraph
real(kind_dbl_prec), intent(out) :: noise_e(len_trie_ls,2)
real(kind_dbl_prec), intent(out) :: noise_o(len_trio_ls,2)
! generate white noise with unit variance in spectral space
type(random_pattern), intent(inout) :: rpattern
real :: noise(2*ndimspec)
integer nm,nn
call random_gauss(noise,rpattern%rstate)
noise(1) = 0.; noise(ndimspec+1) = 0.
noise = noise*sqrt(1./ntrunc)
noise_e = 0.; noise_o = 0.
! subset
do nn=1,len_trie_ls
nm = rpattern%idx_e(nn)
if (nm == 0) cycle
noise_e(nn,1) = noise(nm)/sqrt(2.*rpattern%degree(nm)+1)
noise_e(nn,2) = noise(ndimspec+nm)/sqrt(2.*rpattern%degree(nm)+1)
if (rpattern%order(nm) .eq. 0) then
noise_e(nn,1) = sqrt(2.)*noise_e(nn,1)
noise_e(nn,2) = 0.
endif
enddo
do nn=1,len_trio_ls
nm = rpattern%idx_o(nn)
if (nm == 0) cycle
noise_o(nn,1) = noise(nm)/sqrt(2.*rpattern%degree(nm)+1)
noise_o(nn,2) = noise(ndimspec+nm)/sqrt(2.*rpattern%degree(nm)+1)
if (rpattern%order(nm) .eq. 0) then
noise_o(nn,1) = sqrt(2.)*noise_o(nn,1)
noise_o(nn,2) = 0.
endif
enddo
end subroutine getnoise
!>@brief The subroutine 'patterngenerator_advance' advance 1st-order autoregressive process
subroutine patterngenerator_advance(rpattern,k,skeb_first_call)
!\callgraph
! advance 1st-order autoregressive process with
! specified autocorrelation (phi) and variance spectrum (spectrum)
real(kind_dbl_prec) :: noise_e(len_trie_ls,2)
real(kind_dbl_prec) :: noise_o(len_trio_ls,2)
type(random_pattern), intent(inout) :: rpattern
logical, intent(in) :: skeb_first_call
integer j,l,n,nn,nm,k,k2
call getnoise(rpattern,noise_e,noise_o)
if (k.GT.1.AND.skeb_first_call) then
k2=k-1
else
k2=k
endif
do nn=1,len_trie_ls
nm = rpattern%idx_e(nn)
if (nm == 0) cycle
rpattern%spec_e(nn,1,k) = rpattern%phi*rpattern%spec_e(nn,1,k2) + &
rpattern%stdev*sqrt(1.-rpattern%phi**2)*rpattern%varspectrum(nm)*noise_e(nn,1)
rpattern%spec_e(nn,2,k) = rpattern%phi*rpattern%spec_e(nn,2,k2) + &
rpattern%stdev*sqrt(1.-rpattern%phi**2)*rpattern%varspectrum(nm)*noise_e(nn,2)
enddo
do nn=1,len_trio_ls
nm = rpattern%idx_o(nn)
if (nm == 0) cycle
rpattern%spec_o(nn,1,k) = rpattern%phi*rpattern%spec_o(nn,1,k2) + &
rpattern%stdev*sqrt(1.-rpattern%phi**2)*rpattern%varspectrum(nm)*noise_o(nn,1)
rpattern%spec_o(nn,2,k) = rpattern%phi*rpattern%spec_o(nn,2,k2) + &
rpattern%stdev*sqrt(1.-rpattern%phi**2)*rpattern%varspectrum(nm)*noise_o(nn,2)
enddo
end subroutine patterngenerator_advance
!>@brief The subroutine 'setvarspect' calculates the variance spectrum
! from a specified decorrelation lengthscale
subroutine setvarspect(rpattern,varspect_opt,new_lscale)
!\callgraph
! define variance spectrum (isotropic covariance)
! normalized to unit global variance
type(random_pattern), intent(inout) :: rpattern
integer, intent(in) :: varspect_opt
logical, intent(in) :: new_lscale
integer :: n
complex(kind_evod) noise(ndimspec)
real(kind_evod) var,rerth,inv_rerth_sq
rerth =6.3712e+6 ! radius of earth (m)
inv_rerth_sq=1.0/(rerth**2)
! 1d variance spectrum (as a function of total wavenumber)
if (varspect_opt == 0) then ! gaussian
! rpattern%lengthscale is interpreted as an efolding length
! scale, in meters.
do n=0,ntrunc
rpattern%varspectrum1d(n) = exp(-rpattern%lengthscale**2*(float(n)*(float(n)+1.))/(4.*rerth**2))
enddo
! scaling factors for spectral coeffs of white noise pattern with unit variance
if (new_lscale) then
!fix for proper lengthscale
rpattern%varspectrum = ntrunc*exp((rpattern%lengthscale*0.25)**2*rpattern%lap*inv_rerth_sq)
else
rpattern%varspectrum = sqrt(ntrunc*exp(rpattern%lengthscale**2*rpattern%lap/(4.*rerth**2)))
endif
else if (varspect_opt == 1) then ! power law
! rpattern%lengthscale is interpreted as a power, not a length.
do n=0,ntrunc
rpattern%varspectrum1d(n) = float(n)**(rpattern%lengthscale)
enddo
! scaling factors for spectral coeffs of white noise pattern with unit variance
rpattern%varspectrum = sqrt(ntrunc*(rpattern%degree**(rpattern%lengthscale)))
endif
noise = 0.
do n=1,ndimspec
if (rpattern%order(n) .ne. 0.) then
noise(n) = cmplx(1.,1.)/sqrt(2.*rpattern%degree(n)+1)
else
noise(n) = sqrt(2.)/sqrt(2.*rpattern%degree(n)+1.)
endif
enddo
noise(1) = 0 ! no global mean.
! make sure global mean variance is 1.
noise = noise*sqrt(1./ntrunc)
noise = rpattern%varspectrum*noise
call computevarspec(rpattern,noise,var)
rpattern%varspectrum = rpattern%varspectrum/sqrt(var)
rpattern%varspectrum1d = rpattern%varspectrum1d/var
end subroutine setvarspect
!>@brief The subroutine 'chgres_pattern' truncates the spherical harmonics if
!! restarting from a higher-resolution pattern
subroutine chgres_pattern(pattern2din,pattern2dout,ntruncin,ntruncout)
!\callgraph
real(kind_dbl_prec), intent(in) :: pattern2din((ntruncin+1)*(ntruncin+2))
real(kind_dbl_prec), intent(out) :: pattern2dout((ntruncout+1)*(ntruncout+2))
integer, intent(in) :: ntruncin,ntruncout
integer :: m,n,nm,ndimsspecin,ndimsspecout
integer,allocatable, dimension(:,:):: idxin
allocate(idxin(0:ntruncin,0:ntruncin))
ndimsspecin=(ntruncin+1)*(ntruncin+2)/2
ndimsspecout=(ntruncout+1)*(ntruncout+2)/2
nm = 0
do m=0,ntruncin
do n=m,ntruncin
nm = nm + 1
idxin(m,n) = nm
enddo
enddo
! chgres
nm = 0
do m=0,ntruncout
do n=m,ntruncout
nm = nm + 1
if (m .le. ntruncin .and. n .le. ntruncin) then
pattern2dout(nm) = pattern2din(idxin(m,n))
pattern2dout(ndimsspecout+nm) = pattern2din(ndimsspecin+idxin(m,n))
endif
enddo
enddo
deallocate(idxin)
end subroutine chgres_pattern
end module stochy_patterngenerator_mod