文件名称:Possion_FEM
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有限元求解柏松方程。本文采用FORTRAN语言编制程序。程序中大部分变量采用有名公共区存储方式存储,这样可以减少内存占用量。
IFG:生成有限元网格信息,即元素节点局部编码与总体编码对照表,节点实际坐标,边界节点编码与边界点上的已知值
GKD:生成总刚一维存储对角元的地址,计算总刚一维存储长度
FIXP:设置已知节点函数值
GK(NI,NJ,ADJ,AIJ):单元刚度矩阵计算
GF(NI,N,M,LE,YI,FE):单元列阵的计算
AK(I,J,AIJ):总刚度矩阵元素迭加
QEB:总刚度矩阵和总列阵合成
BDE:边界条件处理
SOLGS:Gauss-Seidel迭代法求解方程组
UDIFF(NI,NFLAG,UDIF,LE,ADJ):标准元素内形状函数导数计算
DIFF:节点上 , 加权平均
-In this program, FEM was used to solve the possion equation. It is implemented through FORTRAN
IFG:生成有限元网格信息,即元素节点局部编码与总体编码对照表,节点实际坐标,边界节点编码与边界点上的已知值
GKD:生成总刚一维存储对角元的地址,计算总刚一维存储长度
FIXP:设置已知节点函数值
GK(NI,NJ,ADJ,AIJ):单元刚度矩阵计算
GF(NI,N,M,LE,YI,FE):单元列阵的计算
AK(I,J,AIJ):总刚度矩阵元素迭加
QEB:总刚度矩阵和总列阵合成
BDE:边界条件处理
SOLGS:Gauss-Seidel迭代法求解方程组
UDIFF(NI,NFLAG,UDIF,LE,ADJ):标准元素内形状函数导数计算
DIFF:节点上 , 加权平均
-In this program, FEM was used to solve the possion equation. It is implemented through FORTRAN
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Possion_FEM
...........\DATA
...........\....\FIG.DAT
...........\....\FIG0.DAT
...........\....\LINE.DAT
...........\....\LINEX.DAT
...........\....\LINEY.DAT
...........\....\RESULTS.DAT
...........\....\RESULTS0.DAT
...........\....\RESULTS1.DAT
...........\....\RESULTS2.DAT
...........\....\复件 LINE.DAT
...........\DATA80
...........\......\FIG.DAT
...........\......\LINEX.DAT
...........\......\LINEY.DAT
...........\......\RESULTS.DAT
...........\Debug
...........\DIFF.FOR
...........\fig
...........\...\DAT.DAT
...........\...\Doc1.doc
...........\...\F80.bmp
...........\...\fdif.lay
...........\...\FDIF80.lay
...........\...\figy.bmp
...........\...\LINEX.bmp
...........\...\LINEX.lay
...........\...\LINEX80.bmp
...........\...\LINEX80.lay
...........\...\LINEY.bmp
...........\...\LINEY.lay
...........\...\LINEY80.bmp
...........\...\LINEY80.lay
...........\...\nLINEX80.bmp
...........\...\nLINEY80.bmp
...........\...\zone.bmp
...........\...\ZONE.lay
...........\...\ZONE0.bmp
...........\...\复件 DIFX80.bmp
...........\...\复件 DIFY80.bmp
...........\...\复件 F80.bmp
...........\...\复件 LINEX80.bmp
...........\...\复件 LINEY80.bmp
...........\FIG.DAT
...........\GK.FOR
...........\GKD.FOR
...........\IFG.FOR
...........\LINEX.DAT
...........\LINEY.DAT
...........\MYFEM.mak
...........\MYFEM.mdp
...........\RESULTS.DAT
...........\DATA
...........\....\FIG.DAT
...........\....\FIG0.DAT
...........\....\LINE.DAT
...........\....\LINEX.DAT
...........\....\LINEY.DAT
...........\....\RESULTS.DAT
...........\....\RESULTS0.DAT
...........\....\RESULTS1.DAT
...........\....\RESULTS2.DAT
...........\....\复件 LINE.DAT
...........\DATA80
...........\......\FIG.DAT
...........\......\LINEX.DAT
...........\......\LINEY.DAT
...........\......\RESULTS.DAT
...........\Debug
...........\DIFF.FOR
...........\fig
...........\...\DAT.DAT
...........\...\Doc1.doc
...........\...\F80.bmp
...........\...\fdif.lay
...........\...\FDIF80.lay
...........\...\figy.bmp
...........\...\LINEX.bmp
...........\...\LINEX.lay
...........\...\LINEX80.bmp
...........\...\LINEX80.lay
...........\...\LINEY.bmp
...........\...\LINEY.lay
...........\...\LINEY80.bmp
...........\...\LINEY80.lay
...........\...\nLINEX80.bmp
...........\...\nLINEY80.bmp
...........\...\zone.bmp
...........\...\ZONE.lay
...........\...\ZONE0.bmp
...........\...\复件 DIFX80.bmp
...........\...\复件 DIFY80.bmp
...........\...\复件 F80.bmp
...........\...\复件 LINEX80.bmp
...........\...\复件 LINEY80.bmp
...........\FIG.DAT
...........\GK.FOR
...........\GKD.FOR
...........\IFG.FOR
...........\LINEX.DAT
...........\LINEY.DAT
...........\MYFEM.mak
...........\MYFEM.mdp
...........\RESULTS.DAT