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Added types.h
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27
LICENSE
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27
LICENSE
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All IRPF90 requestors MUST agree to the following license agreement which
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covers all versions of IRPF90 (source code and binaries).
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With regard to the IRP Fortran90 preprocessor IRPF90, together with its
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associated utility programs, with which you have supplied me a
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copy, I agree to the following conditions:
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1. I will not supply a copy of the code to anyone outside my institution or
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corporation for any reason whatsoever. Instead, I will refer any requests for
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copies of the program to Anthony Scemama at CNRS. This in no way limits my making of
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copies of the code for backup purposes, or for running on more than one
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computer system at my institution or home.
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2. I understand that copyright or ownership rights to IRPF90 are retained by
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Anthony Scemama and CNRS to the IRPF90 package. I will not incorporate any part
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of IRPF90 into any other program system, either for sale or for non-profit
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distribution, without written permission from Anthony Scemama and CNRS,
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3. I understand that no large program such as IRPF90 can be considered to be
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bug free, and accordingly Anthony Scemama and the CNRS supplies the IRPF90 software on an "as is"
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basis, with no additional responsibility or liability,
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4. This license is considered a "Research Group" license. Thus anyone
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directly associated with your research group is covered by the license and may
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share your copy of IRPF90 on all of your group's computer resources.
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6
Makefile
6
Makefile
@ -8,9 +8,9 @@ FCFLAGS= -O3 -g
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#FCFLAGS= -O3 -ffast-math -L ~/QCIO/lib
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#FCFLAGS= -O3 -ffast-math -L ~/QCIO/lib
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# Mono
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# Mono
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IRPF90 = irpf90
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#IRPF90 = irpf90
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FC = ifort -static-intel -static-libgcc
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#FC = ifort -static-intel -static-libgcc
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FCFLAGS= -O3 -axP
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#FCFLAGS= -O3 -axP
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SRC=
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SRC=
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OBJ=
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OBJ=
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98
Util.irp.f
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98
Util.irp.f
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double precision function Boys(x,n)
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implicit none
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include 'constants.F'
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real, intent(in) :: x
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integer, intent(in) :: n
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integer :: k
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real, parameter :: thr = 6.
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integer ,parameter :: Nmax = 20
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double precision :: fact,fact2
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if (n == 0) then
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if (x > thr) then
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Boys = 0.5d0*sqrt(pi/x)
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else
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Boys = 1.d0/dble(2*n+1)
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do k=1,Nmax
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Boys = Boys + (-x)**k/dble(fact(k)*(2*n+2*k+1))
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enddo
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endif
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else
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if (x > thr) then
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Boys = fact2(2*n-1)*0.5d0**(n+1)*sqrt(pi/x**(2*n+1))
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else
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Boys = 1.d0/dble(2*n+1)
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do k=1,Nmax
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Boys = Boys + (-x)**k/dble(fact(k)*(2*n+2*k+1))
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enddo
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endif
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endif
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end function
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double precision function fact2(n)
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implicit none
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integer :: n
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double precision, save :: memo(1:100)
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integer, save :: memomax = 1
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ASSERT (mod(n,2) /= 0)
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if (n<=memomax) then
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if (n<3) then
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fact2 = 1.d0
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else
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fact2 = memo(n)
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endif
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return
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endif
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integer :: i
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memo(1) = 1.d0
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do i=memomax+2,min(n,99),2
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memo(i) = memo(i-2)* float(i)
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enddo
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memomax = min(n,99)
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fact2 = memo(memomax)
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do i=101,n,2
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fact2 = fact2*float(i)
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enddo
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end function
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double precision function fact(n)
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implicit none
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integer :: n
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double precision, save :: memo(1:100)
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integer, save :: memomax = 1
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if (n<=memomax) then
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if (n<2) then
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fact = 1.d0
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else
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fact = memo(n)
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endif
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return
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endif
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integer :: i
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memo(1) = 1.d0
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do i=memomax+1,min(n,100)
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memo(i) = memo(i-1)*float(i)
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enddo
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memomax = min(n,100)
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fact = memo(memomax)
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do i=101,n
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fact = fact*float(i)
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enddo
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end function
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18
ao.irp.f
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ao.irp.f
@ -134,20 +134,6 @@ END_PROVIDER
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END_PROVIDER
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END_PROVIDER
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double precision function ddfact2(n)
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implicit none
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integer :: n
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ASSERT (mod(n,2) /= 0)
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integer :: i
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ddfact2 = 1.
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do i=1,n,2
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ddfact2 = ddfact2 * float(i)
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enddo
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end function
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double precision function rintgauss(n)
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double precision function rintgauss(n)
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implicit none
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implicit none
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@ -163,9 +149,9 @@ double precision function rintgauss(n)
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else if ( mod(n,2) == 1) then
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else if ( mod(n,2) == 1) then
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rintgauss = 0.
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rintgauss = 0.
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else
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else
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double precision :: ddfact2
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double precision :: fact2
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rintgauss = rintgauss/(2.**(n/2))
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rintgauss = rintgauss/(2.**(n/2))
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rintgauss = rintgauss * ddfact2(n-1)
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rintgauss = rintgauss * fact2(n-1)
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endif
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endif
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end function
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end function
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14
types.F
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14
types.F
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integer, parameter :: t_Gaussian = 1
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integer, parameter :: t_Slater = 2
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integer, parameter :: t_Brownian = 3
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integer, parameter :: t_Langevin = 4
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integer, parameter :: t_VMC = 5
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integer, parameter :: t_DMC = 6
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integer, parameter :: t_CI = 7
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character*(32) :: types(t_CI) = &
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(/ "Gaussian", "Slater", "Brownian", "Langevin", &
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"VMC", "DMC", "CI" /)
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