Four Permanent-Magnet Cylinders (for PANDIRA) 
Cylindrically symmetric, R = 0 is at the left edge of geometry 
Dirichlet boundary at Z = 0 
[Originally appeared in 1987 User's Guide 10.6]

; Copyright 1987, by the University of California. 
; Unauthorized commercial use is prohibited. 

&reg kprob=0,           ; Poisson or Pandira problem
mode=0                  ; Some materials have variable permeability
icylin=1,               ; Cylindrical symmetry
nbslo=0,                ; Dirichlet boundary condition on lower edge
nbsup=0,                ; Dirichlet boundary condition on upper edge
nbslf=0,                ; Dirichlet boundary condition on left edge
nbsrt=0,                ; Dirichlet boundary condition on right edge
dx=.7,                  ; X Mexh interval
xreg1=11 &              ; Line region where mesh interval doubles 


&po x=  0.00,y=  0.00 &
&po x=  0.00,y=150.00 &
&po x= 60.00,y=150.00 &
&po x= 60.00,y=  0.00 &
&po x=  0.00,y=  0.00 &

&reg mat=6,mshape=1,mtid=1 &
&po x=0.00 ,y= 10.20 &
&po x=0.00 ,y=103.00 &
&po x=7.62 ,y=103.00 &
&po x=7.62 ,y= 10.20 &
&po x=0.00 ,y= 10.20 &

&reg mat=7,mshape=1,mtid=2 &
&po x=0.00,y= 3.00 &
&po x=7.62,y= 3.00 &
&po x=7.62,y=10.20 &
&po x=0.00,y=10.20 &
&po x=0.00,y= 3.00 &

&mt mtid=1
aeasy=-90,gamper=1
hcept=-10000,bcept=10000 &

&mt mtid=2
aeasy=90,gamper=1
hcept=-10000,bcept=10000 &