mirror of
https://gitlab.com/scemama/qmcchem.git
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269 lines
7.1 KiB
FortranFixed
269 lines
7.1 KiB
FortranFixed
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! Providers of *_dmc_block_walk
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!==============================
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BEGIN_SHELL [ /usr/bin/python ]
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from properties import *
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t = """
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BEGIN_PROVIDER [ $T, $X_dmc_block_walk $D1 ]
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&BEGIN_PROVIDER [ $T, $X_dmc_block_walk_kahan $D2 ]
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&BEGIN_PROVIDER [ $T, $X_2_dmc_block_walk $D1 ]
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&BEGIN_PROVIDER [ $T, $X_2_dmc_block_walk_kahan $D2 ]
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implicit none
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BEGIN_DOC
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! VMC averages of $X
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END_DOC
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$X_dmc_block_walk = 0.d0
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$X_dmc_block_walk_kahan = 0.d0
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$X_2_dmc_block_walk = 0.d0
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$X_2_dmc_block_walk_kahan = 0.d0
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END_PROVIDER
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"""
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for p in properties:
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if p[1] != 'e_loc':
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if p[2] == "":
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D1 = ""
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D2 = ", (3)"
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else:
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D1 = ", ("+p[2][1:-1]+")"
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D2 = ", ("+p[2][1:-1]+",3)"
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print t.replace("$X",p[1]).replace("$T",p[0]).replace("$D1",D1).replace("$D2",D2)
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END_SHELL
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BEGIN_PROVIDER [ double precision, E_loc_dmc_block_walk ]
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&BEGIN_PROVIDER [ double precision, E_loc_2_dmc_block_walk ]
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&BEGIN_PROVIDER [ double precision, E_loc_dmc_block_walk_kahan, (3) ]
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&BEGIN_PROVIDER [ double precision, E_loc_2_dmc_block_walk_kahan, (3)
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implicit none
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include '../types.F'
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BEGIN_DOC
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! Properties averaged over the block using the DMC method
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END_DOC
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real, allocatable :: elec_coord_tmp(:,:,:)
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integer :: mod_align
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double precision, allocatable :: psi_grad_psi_inv_save_tmp(:,:,:)
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double precision :: psi_value_save_tmp(walk_num)
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integer :: trapped_walk_tmp(walk_num)
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!DIR$ ATTRIBUTES ALIGN : $IRP_ALIGN :: psi_grad_psi_inv_save_tmp
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!DIR$ ATTRIBUTES ALIGN : $IRP_ALIGN :: psi_value_save_tmp
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allocate ( elec_coord_tmp(mod_align(elec_num+1),3,walk_num) )
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allocate ( psi_grad_psi_inv_save_tmp(elec_num_8,3,walk_num) )
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! Initialization
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if (vmc_algo /= t_Brownian) then
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call abrt(irp_here,'DMC should run with Brownian algorithm')
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endif
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PROVIDE E_loc_vmc_block_walk
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integer :: k, i_walk, i_step
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BEGIN_SHELL [ /usr/bin/python ]
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from properties import *
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t = """
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if (calc_$X) then
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$X_dmc_block_walk = 0.d0
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$X_dmc_block_walk_kahan = 0.d0
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$X_2_dmc_block_walk = 0.d0
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$X_2_dmc_block_walk_kahan = 0.d0
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$X_min = huge(1.)
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$X_max =-huge(1.)
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endif
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"""
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for p in properties:
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print t.replace("$X",p[1])
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END_SHELL
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double precision :: icount
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icount = 0.d0
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logical :: loop
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integer*8 :: cpu0, cpu1, cpu2, count_rate, count_max
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loop = .True.
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call system_clock(cpu0, count_rate, count_max)
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cpu2 = cpu0
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do while (loop)
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dmc_projection_step = mod(dmc_projection_step+1,dmc_projection)+1
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pop_weight_mult *= 1.d0/pop_weight(dmc_projection_step)
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pop_weight(dmc_projection_step) = 0.d0
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do k=1,walk_num
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pop_weight(dmc_projection_step) += dmc_weight(k)
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enddo
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do k=1,walk_num
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dmc_weight(k) = dmc_weight(k)/pop_weight(dmc_projection_step)
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enddo
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pop_weight(dmc_projection_step) = pop_weight(dmc_projection_step)/dble(walk_num)
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pop_weight_mult *= pop_weight(dmc_projection_step)
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BEGIN_SHELL [ /usr/bin/python ]
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from properties import *
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t = """
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if (calc_$X) then
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! Kahan's summation algorithm to compute these sums reducing the rounding error:
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! $X_dmc_block_walk($D) += $X * pop_weight_mult
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! $X_2_dmc_block_walk($D) += $X_2 * pop_weight_mult
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! see http://en.wikipedia.org/wiki/Kahan_summation_algorithm
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$X_dmc_block_walk_kahan($D2 3) = $X * pop_weight_mult - $X_dmc_block_walk_kahan($D2 1)
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$X_dmc_block_walk_kahan($D2 2) = $X_dmc_block_walk $D1 + $X_dmc_block_walk_kahan($D2 3)
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$X_dmc_block_walk_kahan($D2 1) = ($X_dmc_block_walk_kahan($D2 2) - $X_dmc_block_walk $D1 ) &
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- $X_dmc_block_walk_kahan($D2 3)
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$X_dmc_block_walk $D1 = $X_dmc_block_walk_kahan($D2 2)
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$X_2_dmc_block_walk_kahan($D2 3) = $X_2 * pop_weight_mult - $X_2_dmc_block_walk_kahan($D2 1)
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$X_2_dmc_block_walk_kahan($D2 2) = $X_2_dmc_block_walk $D1 + $X_2_dmc_block_walk_kahan($D2 3)
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$X_2_dmc_block_walk_kahan($D2 1) = ($X_2_dmc_block_walk_kahan($D2 2) - $X_2_dmc_block_walk $D1 ) &
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- $X_2_dmc_block_walk_kahan($D2 3)
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$X_2_dmc_block_walk $D1 = $X_2_dmc_block_walk_kahan($D2 2)
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endif
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"""
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for p in properties:
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if p[2] == "":
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D1 = ""
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D2 = ""
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else:
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D1 = "("+":"*(p[2].count(',')+1)+")"
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D2 = ":"*(p[2].count(',')+1)+","
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print t.replace("$X",p[1]).replace("$D1",D1).replace("$D2",D2)
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END_SHELL
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icount += pop_weight_mult
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! Reconfiguration
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integer :: ipos(walk_num)
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call reconfigure(ipos,dmc_weight)
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do k=1,walk_num
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integer :: i, l
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do l=1,3
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do i=1,elec_num+1
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elec_coord_tmp(i,l,k) = elec_coord_full(i,l,k)
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enddo
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!DIR$ VECTOR ALIGNED
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!DIR$ LOOP COUNT(200)
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do i=1,elec_num
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psi_grad_psi_inv_save_tmp(i,l,k) = psi_grad_psi_inv_save(i,l,k)
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enddo
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enddo
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psi_value_save_tmp(k) = psi_value_save(k)
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trapped_walk_tmp(k) = trapped_walk(k)
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enddo
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integer :: ipm
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do k=1,walk_num
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ipm = ipos(k)
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do l=1,3
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do i=1,elec_num+1
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elec_coord_full(i,l,k) = elec_coord_tmp(i,l,ipm)
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enddo
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!DIR$ VECTOR ALIGNED
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!DIR$ LOOP COUNT(200)
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do i=1,elec_num
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psi_grad_psi_inv_save(i,l,k) = psi_grad_psi_inv_save_tmp(i,l,ipm)
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enddo
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enddo
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psi_value_save(k) = psi_value_save_tmp(ipm)
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trapped_walk(k) = trapped_walk_tmp(ipm)
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enddo
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! Set 1st walker
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!DIR$ VECTOR ALIGNED
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!DIR$ LOOP COUNT(200)
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do i=1,elec_num
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psi_grad_psi_inv_x(i) = psi_grad_psi_inv_save(i,1,1)
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psi_grad_psi_inv_y(i) = psi_grad_psi_inv_save(i,2,1)
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psi_grad_psi_inv_z(i) = psi_grad_psi_inv_save(i,3,1)
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enddo
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!DIR$ VECTOR UNALIGNED
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!DIR$ LOOP COUNT(200)
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do i=1,elec_num
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elec_coord(i,1) = elec_coord_full(i,1,1)
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elec_coord(i,2) = elec_coord_full(i,2,1)
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elec_coord(i,3) = elec_coord_full(i,3,1)
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enddo
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psi_value = psi_value_save(1)
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TOUCH elec_coord_full psi_value_save psi_grad_psi_inv_save psi_value psi_grad_psi_inv_x psi_grad_psi_inv_y psi_grad_psi_inv_z elec_coord
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call system_clock(cpu1, count_rate, count_max)
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if (cpu1 < cpu0) then
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cpu1 = cpu1+cpu0
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endif
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loop = dble(cpu1-cpu0) < dble(block_time)*dble(count_rate)
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if (cpu1-cpu2 > count_rate) then
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integer :: do_run
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call get_running(do_run)
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loop = do_run == t_Running
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cpu2 = cpu1
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endif
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enddo
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double precision :: factor
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factor = 1.d0/icount
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block_weight *= icount
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SOFT_TOUCH block_weight
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BEGIN_SHELL [ /usr/bin/python ]
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from properties import *
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t = """
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if (calc_$X) then
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$X_dmc_block_walk *= factor
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$X_2_dmc_block_walk *= factor
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endif
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"""
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for p in properties:
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print t.replace("$X",p[1])
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END_SHELL
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deallocate ( elec_coord_tmp )
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deallocate ( psi_grad_psi_inv_save_tmp )
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, E_ref ]
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implicit none
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BEGIN_DOC
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! Weight of the DMC population
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END_DOC
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E_ref = 0.d0
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call get_simulation_E_ref(E_ref)
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, pop_weight_mult ]
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implicit none
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BEGIN_DOC
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! Population weight of DMC
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END_DOC
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pop_weight_mult = 1.d0
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END_PROVIDER
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BEGIN_PROVIDER [ integer, dmc_projection ]
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&BEGIN_PROVIDER [ integer, dmc_projection_step ]
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implicit none
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BEGIN_DOC
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! Number of projection steps for SRMC
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END_DOC
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dmc_projection = int( 10.d0/time_step)
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dmc_projection_step = 0
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, pop_weight, (dmc_projection) ]
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implicit none
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BEGIN_DOC
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! Population weight of DMC
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END_DOC
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pop_weight = 1.d0
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END_PROVIDER
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