TOPB=TDR     BOTB=TDR
 Depth of Water Table=   0.0
 No. of Layer: 2    ALPMAX= 0.50


 Layer      TUW       HL       NZ       CV        PK
   1       120.0      5.0       6    10.00     0.10E+01
   2       115.0     20.0      11     0.10     0.10E-02


 e-p Curve  JE=       1       2
 Layer: 1    e=   1.000   1.000
 Layer: 1    P=     0.0  5000.0


 e-p Curve  JE=       1       2       3
 Layer: 2    e=   0.912   0.883   0.677
 Layer: 2    P=   100.0  1814.0  5000.0


 Unit Weight of Fill= 120.0
 JL=      1      2      3      4      5      6      7
 TL=    0.0    0.0   50.0   50.0  100.0  100.0*******
 HF=    0.0    5.0    5.0   15.0   15.0   25.0   25.0


 Layer No.    Initial Effective Stress    Initial Void   Ratio
     1                  144.0                    1.000
     2                  814.0                    0.900


 Output Time(Days)=   30.0
 Layer   Effective Stress    Void Ratio    Compression  (In)
   1           743.3          1.000          0.00
   2           924.6          0.898          0.24
 SETTLTMENT=   0.24  Inches


 Output Time(Days)=  150.0
 Layer   Effective Stress    Void Ratio    Compression  (In)
   1          3140.3          1.000          0.00
   2          1693.0          0.885          1.93
 SETTLTMENT=   1.93  Inches


 Output Time(Days)=  200.0
 Layer   Effective Stress    Void Ratio    Compression  (In)
   1          3140.3          1.000          0.00
   2          1917.4          0.876          3.04
 SETTLTMENT=   3.04  Inches


 Output Time(Days)=  300.0
 Layer   Effective Stress    Void Ratio    Compression  (In)
   1          3140.3          1.000          0.00
   2          2270.0          0.853          5.92
 SETTLTMENT=   5.92  Inches


 Output time(Days)= Infinite
 Layer   Effective Stress    Void Ratio    Compression  (In)
   1          3144.0          1.000          0.00
   2          3814.0          0.753         18.51
 SETTLTMENT=  18.51  Inches