"Subroutine mod3dpar" 修訂間的差異
出自 DDCC TCAD TOOL Manual
(已建立頁面,內容為 "Subroutine mod3dpar is the subroutine called "after" all parameters are arranged to the memory. This subroutine allows user to modify the parameters locally. This fu...") |
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| − | Subroutine mod3dpar is the subroutine called "after" all parameters are arranged to the memory. This subroutine allows user to modify the parameters locally. This function is activated by the command $assignparbyfunc. Some examples are listed below |
+ | Subroutine mod3dpar is the subroutine called "after" all parameters are arranged to the memory. This subroutine allows user to modify the parameters locally. This function is activated by the command $assignparbyfunc. Some examples are listed below <br> |
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subroutine mod3dpar |
subroutine mod3dpar |
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| − | use meshelement |
+ | use meshelement |
| − | use global3d |
+ | use global3d |
| − | implicit none |
+ | implicit none |
| − | real(dp) :: x,y,z |
+ | real(dp) :: x,y,z |
| − | integer(i8b) :: nodetype ,i ,j <br> |
+ | integer(i8b) :: nodetype ,i ,j <br> |
do i=1,mshnd%n |
do i=1,mshnd%n |
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nodetype = mshnd%element(i) ! Get the node number |
nodetype = mshnd%element(i) ! Get the node number |
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於 2017年12月5日 (二) 10:11 的最新修訂
Subroutine mod3dpar is the subroutine called "after" all parameters are arranged to the memory. This subroutine allows user to modify the parameters locally. This function is activated by the command $assignparbyfunc. Some examples are listed below
subroutine mod3dpar use meshelement use global3d implicit none real(dp) :: x,y,z integer(i8b) :: nodetype ,i ,j
do i=1,mshnd%n nodetype = mshnd%element(i) ! Get the node number x=mshnd%x(i) y=mshnd%y(i) z=mshnd%z(i) material%dope(i)=mshelectric%dope(nodetype) material%Eg(i)=mshelectric%Eg(nodetype) material%Ea(i)=mshelectric%Ea(nodetype) material%impurity(i)=mshelectric%impurity(nodetype) material%charges(i)=mshelectric%charges(nodetype) material%ep(i)=mshelectric%ep(nodetype) material%polx(i)=mshelectric%polx(nodetype) material%poly(i)=mshelectric%poly(nodetype) material%polz(i)=mshelectric%polz(nodetype) material%efmass(1:4,i)=mshelectric%efmass(1:4,nodetype) material%trapNT(i)=mshelectric%trapNT(nodetype) material%trapEt(i)=mshelectric%trapEt(nodetype) material%trapdegenercy(i)=mshelectric%trapdegenercy(nodetype) material%traptaun(i)=mshelectric%traptaun(nodetype) material%traptaup(i)=mshelectric%traptaup(nodetype) material%taun(i)=mshelectric%taun(nodetype) material%taup(i)=mshelectric%taup(nodetype) if( ifusegenfunc) then generations(i) = mshelectric%taun(nodetype) end if end do do j=mshel%tetraelenumstart,mshel%n material%EgEl(j) = mshelectric%Eg(mshel%realvolnum(j)) ! Setup the tetrahydron volnum material%polxEl(j)=mshelectric%polx(mshel%realvolnum(j)) material%polyEl(j)=mshelectric%poly(mshel%realvolnum(j)) material%polzEl(j)=mshelectric%polz(mshel%realvolnum(j)) end do print*, "You have activated the program to assign material parameters by an external function!" print*, "You have to run the program with 3D-ddcc-dyna.exe. In adition, please remember to modify " print*, "lib3dmodpar.f90 and recompile it! Program stop" stop end subroutine
