Skipping 214 KB.. Full Log

79  6.1e-07  8.0e-03  3.7e-05  1.00e+00   1.664419590e+02   1.664433528e+02   3.2e-10  0.63  
80  5.5e-07  8.0e-03  3.4e-05  1.00e+00   1.664420503e+02   1.664433048e+02   2.9e-10  0.64  
81  4.9e-07  7.9e-03  3.0e-05  1.00e+00   1.664421325e+02   1.664432615e+02   2.6e-10  0.64  
82  4.4e-07  7.9e-03  2.7e-05  1.00e+00   1.664422064e+02   1.664432225e+02   2.3e-10  0.65  
83  4.0e-07  7.9e-03  2.5e-05  1.00e+00   1.664422728e+02   1.664431874e+02   2.1e-10  0.66  
84  3.6e-07  7.9e-03  2.2e-05  1.00e+00   1.664423326e+02   1.664431558e+02   1.9e-10  0.66  
85  3.2e-07  7.8e-03  2.0e-05  1.00e+00   1.664423865e+02   1.664431273e+02   1.7e-10  0.67  
86  2.9e-07  7.8e-03  1.8e-05  1.00e+00   1.664424349e+02   1.664431016e+02   1.5e-10  0.68  
87  2.6e-07  7.8e-03  1.6e-05  1.00e+00   1.664424785e+02   1.664430785e+02   1.4e-10  0.68  
88  2.3e-07  7.8e-03  1.5e-05  1.00e+00   1.664425177e+02   1.664430577e+02   1.2e-10  0.69  
89  2.1e-07  7.8e-03  1.3e-05  1.00e+00   1.664425530e+02   1.664430390e+02   1.1e-10  0.70  
90  1.9e-07  7.7e-03  1.2e-05  1.00e+00   1.664425847e+02   1.664430222e+02   1.0e-10  0.70  
91  1.7e-07  7.7e-03  1.1e-05  1.00e+00   1.664426133e+02   1.664430070e+02   9.1e-11  0.71  
92  1.5e-07  7.7e-03  9.5e-06  1.00e+00   1.664426390e+02   1.664429934e+02   8.2e-11  0.72  
93  1.4e-07  7.7e-03  8.6e-06  1.00e+00   1.664426622e+02   1.664429811e+02   7.4e-11  0.73  
94  1.2e-07  7.7e-03  7.7e-06  1.00e+00   1.664426830e+02   1.664429701e+02   6.6e-11  0.73  
95  1.1e-07  7.7e-03  6.9e-06  1.00e+00   1.664427018e+02   1.664429601e+02   6.0e-11  0.74  
96  1.0e-07  7.7e-03  6.2e-06  1.00e+00   1.664427187e+02   1.664429512e+02   5.4e-11  0.75  
97  9.1e-08  7.6e-03  5.6e-06  1.00e+00   1.664427339e+02   1.664429431e+02   4.8e-11  0.75  
98  8.2e-08  7.6e-03  5.1e-06  1.00e+00   1.664427476e+02   1.664429359e+02   4.4e-11  0.76  
99  7.4e-08  7.6e-03  4.6e-06  1.00e+00   1.664427599e+02   1.664429294e+02   3.9e-11  0.77  
100 6.6e-08  6.9e-03  4.1e-06  1.00e+00   1.664427710e+02   1.664429234e+02   3.5e-11  0.78  
101 6.0e-08  6.2e-03  3.7e-06  1.00e+00   1.664427809e+02   1.664429182e+02   3.2e-11  0.78  
102 5.4e-08  5.6e-03  3.3e-06  1.00e+00   1.664427899e+02   1.664429134e+02   2.9e-11  0.79  
103 4.8e-08  5.0e-03  3.0e-06  9.99e-01   1.664427980e+02   1.664429092e+02   2.6e-11  0.80  
104 4.3e-08  4.5e-03  2.7e-06  1.00e+00   1.664428052e+02   1.664429053e+02   2.3e-11  0.80  
105 3.9e-08  4.1e-03  2.4e-06  9.98e-01   1.664428118e+02   1.664429019e+02   2.1e-11  0.81  
106 3.5e-08  3.6e-03  2.2e-06  1.00e+00   1.664428177e+02   1.664428987e+02   1.9e-11  0.82  
107 3.2e-08  3.3e-03  2.0e-06  1.00e+00   1.664428230e+02   1.664428959e+02   1.7e-11  0.83  
108 2.9e-08  3.0e-03  1.8e-06  1.00e+00   1.664428277e+02   1.664428934e+02   1.5e-11  0.84  
109 2.6e-08  2.7e-03  1.6e-06  1.00e+00   1.664428320e+02   1.664428911e+02   1.4e-11  0.85  
110 2.3e-08  2.4e-03  1.4e-06  9.97e-01   1.664428359e+02   1.664428891e+02   1.2e-11  0.86  
111 2.1e-08  2.2e-03  1.3e-06  1.00e+00   1.664428394e+02   1.664428873e+02   1.1e-11  0.87  
112 1.9e-08  1.9e-03  1.2e-06  9.98e-01   1.664428425e+02   1.664428857e+02   1.0e-11  0.88  
113 1.7e-08  1.7e-03  1.0e-06  1.00e+00   1.664428453e+02   1.664428842e+02   9.0e-12  0.88  
114 1.6e-08  1.6e-03  9.4e-07  9.77e-01   1.664428478e+02   1.664428830e+02   8.1e-12  0.89  
115 1.4e-08  1.4e-03  8.4e-07  1.00e+00   1.664428501e+02   1.664428817e+02   7.3e-12  0.90  
116 1.3e-08  1.3e-03  7.6e-07  9.88e-01   1.664428521e+02   1.664428807e+02   6.5e-12  0.90  
117 1.2e-08  1.1e-03  6.8e-07  1.01e+00   1.664428541e+02   1.664428796e+02   5.9e-12  0.91  
118 1.1e-08  1.0e-03  6.2e-07  1.00e+00   1.664428557e+02   1.664428787e+02   5.3e-12  0.92  
119 9.6e-09  9.3e-04  5.5e-07  9.88e-01   1.664428572e+02   1.664428779e+02   4.8e-12  0.92  
120 8.7e-09  8.3e-04  5.0e-07  9.93e-01   1.664428586e+02   1.664428772e+02   4.3e-12  0.93  
121 1.9e-08  7.5e-04  4.5e-07  1.01e+00   1.664428598e+02   1.664428765e+02   3.9e-12  0.94  
122 2.1e-08  6.8e-04  4.0e-07  1.01e+00   1.664428610e+02   1.664428759e+02   3.5e-12  0.94  
123 1.9e-08  6.1e-04  3.6e-07  1.02e+00   1.664428620e+02   1.664428753e+02   3.2e-12  0.95  
124 1.7e-08  5.5e-04  3.3e-07  1.00e+00   1.664428629e+02   1.664428748e+02   2.9e-12  0.96  
125 1.5e-08  4.9e-04  2.9e-07  9.79e-01   1.664428637e+02   1.664428744e+02   2.6e-12  0.97  
126 1.4e-08  4.4e-04  2.6e-07  1.02e+00   1.664428644e+02   1.664428740e+02   2.4e-12  0.97  
127 1.3e-08  4.0e-04  2.4e-07  1.00e+00   1.664428650e+02   1.664428737e+02   2.1e-12  0.98  
128 1.1e-08  3.6e-04  2.1e-07  1.02e+00   1.664428657e+02   1.664428734e+02   1.9e-12  0.98  
129 1.1e-08  3.2e-04  1.9e-07  9.81e-01   1.664428662e+02   1.664428731e+02   1.7e-12  0.99  
130 9.6e-09  2.9e-04  1.7e-07  9.92e-01   1.664428666e+02   1.664428729e+02   1.6e-12  1.00  
131 8.7e-09  2.6e-04  1.6e-07  1.03e+00   1.664428671e+02   1.664428726e+02   1.4e-12  1.01  
132 7.8e-09  2.4e-04  1.4e-07  9.97e-01   1.664428674e+02   1.664428724e+02   1.3e-12  1.01  
133 6.9e-09  2.1e-04  1.3e-07  9.85e-01   1.664428677e+02   1.664428723e+02   1.2e-12  1.02  
134 6.2e-09  1.9e-04  1.1e-07  9.94e-01   1.664428680e+02   1.664428721e+02   1.0e-12  1.03  
135 5.6e-09  1.7e-04  1.0e-07  9.91e-01   1.664428683e+02   1.664428720e+02   9.3e-13  1.03  
Optimizer terminated. Time: 1.03    

solsta = 1, prosta = 1

Interior-point solution summary
  Problem status  : PRIMAL_AND_DUAL_FEASIBLE
  Solution status : OPTIMAL
  Primal.  obj: 1.6644286830e+02    nrm: 2e+01    Viol.  con: 2e-07    var: 0e+00  
  Dual.    obj: 1.6644287195e+02    nrm: 1e+03    Viol.  con: 0e+00    var: 1e-03  
* End solution on dual form. *
Transforming to primal solution.
Solving took 1.06 seconds.
Using solver 'mosek'
Solving for 1748 variables.
MOSEK warning 710: #1 (nearly) zero elements are specified in sparse col '' (450) of matrix 'A'.
Number of Hessian non-zeros: 2054
* Solving exponential optimization problem on dual form. *
* The following log information refers to the solution of the dual problem. *
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer started.
Presolve started.
Linear dependency checker started.
Linear dependency checker terminated.
Eliminator started.
Freed constraints in eliminator : 472
Eliminator terminated.
Eliminator started.
Freed constraints in eliminator : 6
Eliminator terminated.
Eliminator - tries                  : 2                 time                   : 0.00            
Lin. dep.  - tries                  : 1                 time                   : 0.00            
Lin. dep.  - number                 : 0               
Presolve terminated. Time: 0.01    
Matrix reordering started.
Local matrix reordering started.
Local matrix reordering terminated.
Matrix reordering terminated.
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer  - threads                : 8               
Optimizer  - solved problem         : the primal      
Optimizer  - Constraints            : 868
Optimizer  - Cones                  : 0
Optimizer  - Scalar variables       : 3451              conic                  : 0               
Optimizer  - Semi-definite variables: 0                 scalarized             : 0               
Factor     - setup time             : 0.02              dense det. time        : 0.00            
Factor     - ML order time          : 0.00              GP order time          : 0.01            
Factor     - nonzeros before factor : 1.48e+04          after factor           : 1.48e+05        
Factor     - dense dim.             : 0                 flops                  : 2.93e+07        
Factor     - GP saved nzs           : 3.33e+04          GP saved flops         : 9.12e+05        
ITE PFEAS    DFEAS    GFEAS    PRSTATUS   POBJ              DOBJ              MU       TIME  
0   2.3e+03  3.6e+03  1.2e+05  0.00e+00   -1.237706206e+05  2.000000000e+00   1.0e+00  0.03  
1   1.7e+03  2.6e+03  9.0e+04  -9.71e-01  -1.230321596e+05  2.618476980e+00   7.3e-01  0.04  
2   8.7e+02  1.4e+03  4.7e+04  -9.59e-01  -1.207092172e+05  4.631299788e+00   3.8e-01  0.05  
3   2.9e+02  4.6e+02  1.6e+04  -9.21e-01  -1.116388875e+05  2.010679045e+01   1.3e-01  0.05  
4   2.9e+02  4.5e+02  1.6e+04  -7.71e-01  -1.094230997e+05  1.962291865e+03   1.3e-01  0.06  
5   1.2e+02  1.9e+02  6.4e+03  -7.61e-01  -8.785793218e+04  6.263182648e+03   5.2e-02  0.07  
6   2.6e+01  4.1e+01  1.4e+03  -4.45e-01  -3.316835220e+04  1.269767615e+04   1.2e-02  0.07  
7   1.7e+01  2.7e+01  9.2e+02  4.98e-01   -2.422632748e+04  7.083733147e+03   7.5e-03  0.08  
8   1.0e+01  1.6e+01  5.4e+02  6.67e-01   -1.518713164e+04  4.349438842e+03   4.4e-03  0.09  
9   4.0e+00  6.3e+00  2.2e+02  8.16e-01   -6.253806240e+03  1.985800338e+03   1.8e-03  0.09  
10  2.1e+00  3.3e+00  1.1e+02  9.46e-01   -3.093879792e+03  1.203594049e+03   9.3e-04  0.10  
11  8.4e-01  1.3e+00  4.6e+01  9.86e-01   -1.145500547e+03  6.338782408e+02   3.8e-04  0.11  
12  8.2e-01  1.3e+00  4.5e+01  9.50e-01   -1.137960646e+03  6.093711314e+02   3.7e-04  0.11  
13  5.2e-01  8.3e-01  2.9e+01  9.70e-01   -6.844600457e+02  4.368156380e+02   2.4e-04  0.12  
14  3.3e-01  5.4e-01  1.9e+01  1.00e+00   -3.665602888e+02  3.537892051e+02   1.5e-04  0.13  
15  1.1e-01  2.0e-01  6.3e+00  9.97e-01   -2.732814371e+01  2.163541368e+02   5.3e-05  0.14  
16  8.4e-02  1.5e-01  4.7e+00  1.02e+00   2.245602987e+01   2.054082491e+02   4.0e-05  0.14  
17  4.4e-02  9.1e-02  2.5e+00  1.02e+00   9.404505834e+01   1.878214886e+02   2.1e-05  0.15  
18  1.5e-02  8.6e-02  8.4e-01  1.02e+00   1.425020548e+02   1.744453424e+02   7.1e-06  0.16  
19  6.8e-03  7.5e-02  3.9e-01  1.01e+00   1.551720364e+02   1.698416553e+02   3.3e-06  0.16  
20  1.6e-03  1.6e-01  9.8e-02  1.01e+00   1.637887523e+02   1.674579832e+02   8.2e-07  0.17  
21  9.3e-04  1.1e-01  5.6e-02  9.78e-01   1.649100104e+02   1.670143929e+02   4.7e-07  0.18  
22  2.9e-04  1.1e-01  1.8e-02  9.88e-01   1.659434069e+02   1.666331473e+02   1.6e-07  0.19  
23  1.3e-04  9.3e-02  8.0e-03  1.01e+00   1.662132718e+02   1.665137253e+02   6.9e-08  0.20  
24  1.1e-04  8.6e-02  7.2e-03  1.01e+00   1.662362811e+02   1.665066924e+02   6.2e-08  0.21  
25  1.0e-04  7.8e-02  6.5e-03  1.01e+00   1.662550118e+02   1.664982554e+02   5.6e-08  0.22  
26  9.1e-05  7.1e-02  5.9e-03  1.01e+00   1.662720854e+02   1.664909344e+02   5.1e-08  0.23  
27  8.2e-05  6.4e-02  5.3e-03  1.01e+00   1.662873803e+02   1.664842821e+02   4.6e-08  0.24  
28  7.4e-05  5.9e-02  4.7e-03  1.01e+00   1.663011123e+02   1.664782724e+02   4.1e-08  0.25  
29  6.6e-05  5.3e-02  4.3e-03  1.01e+00   1.663134330e+02   1.664728330e+02   3.7e-08  0.25  
30  6.0e-05  4.9e-02  3.8e-03  1.01e+00   1.663244890e+02   1.664679121e+02   3.3e-08  0.26  
31  5.4e-05  4.5e-02  3.5e-03  1.01e+00   1.663344111e+02   1.664634611e+02   3.0e-08  0.27  
32  4.8e-05  4.1e-02  3.1e-03  1.01e+00   1.663433169e+02   1.664594363e+02   2.7e-08  0.27  
33  4.4e-05  3.8e-02  2.8e-03  1.01e+00   1.663513115e+02   1.664557980e+02   2.4e-08  0.28  
34  3.9e-05  3.5e-02  2.5e-03  1.01e+00   1.663584889e+02   1.664525096e+02   2.2e-08  0.29  
35  3.5e-05  3.2e-02  2.3e-03  1.01e+00   1.663649336e+02   1.664495382e+02   2.0e-08  0.30  
36  3.2e-05  3.0e-02  2.0e-03  1.00e+00   1.663707209e+02   1.664468536e+02   1.8e-08  0.31  
37  2.9e-05  2.7e-02  1.8e-03  1.00e+00   1.663759184e+02   1.664444285e+02   1.6e-08  0.31  
38  2.6e-05  2.5e-02  1.7e-03  1.00e+00   1.663805867e+02   1.664422382e+02   1.4e-08  0.32  
39  2.3e-05  2.4e-02  1.5e-03  1.00e+00   1.663847800e+02   1.664402602e+02   1.3e-08  0.33  
40  2.1e-05  2.2e-02  1.3e-03  1.00e+00   1.663885470e+02   1.664384742e+02   1.2e-08  0.34  
41  1.9e-05  2.1e-02  1.2e-03  1.00e+00   1.663919312e+02   1.664368618e+02   1.0e-08  0.34  
42  1.7e-05  1.9e-02  1.1e-03  1.00e+00   1.663949719e+02   1.664354061e+02   9.4e-09  0.35  
43  1.5e-05  1.8e-02  9.8e-04  1.00e+00   1.663977039e+02   1.664340922e+02   8.5e-09  0.36  
44  1.4e-05  1.7e-02  8.8e-04  1.00e+00   1.664001590e+02   1.664329064e+02   7.6e-09  0.37  
45  1.2e-05  1.6e-02  7.9e-04  1.00e+00   1.664023653e+02   1.664318363e+02   6.9e-09  0.37  
46  1.1e-05  1.6e-02  7.1e-04  1.00e+00   1.664043481e+02   1.664308707e+02   6.2e-09  0.38  
47  1.0e-05  1.5e-02  6.4e-04  1.00e+00   1.664061303e+02   1.664299996e+02   5.6e-09  0.39  
48  9.0e-06  1.4e-02  5.8e-04  1.00e+00   1.664077322e+02   1.664292138e+02   5.0e-09  0.39  
49  8.1e-06  1.4e-02  5.2e-04  1.00e+00   1.664091722e+02   1.664285050e+02   4.5e-09  0.40  
50  7.3e-06  1.3e-02  4.7e-04  1.00e+00   1.664104668e+02   1.664278658e+02   4.1e-09  0.41  
51  6.5e-06  1.2e-02  4.2e-04  1.00e+00   1.664116306e+02   1.664272894e+02   3.6e-09  0.42  
52  5.9e-06  1.2e-02  3.8e-04  1.00e+00   1.664126770e+02   1.664267697e+02   3.3e-09  0.42  
53  5.3e-06  1.2e-02  3.4e-04  1.00e+00   1.664136179e+02   1.664263011e+02   3.0e-09  0.43  
54  4.8e-06  1.1e-02  3.1e-04  1.00e+00   1.664144640e+02   1.664258787e+02   2.7e-09  0.44  
55  4.3e-06  1.1e-02  2.8e-04  1.00e+00   1.664152247e+02   1.664254979e+02   2.4e-09  0.44  
56  3.9e-06  1.1e-02  2.5e-04  1.00e+00   1.664159088e+02   1.664251546e+02   2.2e-09  0.46  
57  3.5e-06  1.0e-02  2.2e-04  1.00e+00   1.664165240e+02   1.664248452e+02   1.9e-09  0.47  
58  3.1e-06  1.0e-02  2.0e-04  1.00e+00   1.664170772e+02   1.664245662e+02   1.7e-09  0.47  
59  2.8e-06  1.0e-02  1.8e-04  1.00e+00   1.664175747e+02   1.664243148e+02   1.6e-09  0.48  
60  2.5e-06  9.8e-03  1.6e-04  1.00e+00   1.664180222e+02   1.664240883e+02   1.4e-09  0.49  
61  2.3e-06  9.7e-03  1.5e-04  1.00e+00   1.664184247e+02   1.664238842e+02   1.3e-09  0.49  
62  2.1e-06  9.5e-03  1.3e-04  1.00e+00   1.664187868e+02   1.664237003e+02   1.1e-09  0.50  
63  1.8e-06  9.4e-03  1.2e-04  1.00e+00   1.664191125e+02   1.664235347e+02   1.0e-09  0.51  
64  1.7e-06  9.2e-03  1.1e-04  1.00e+00   1.664194056e+02   1.664233856e+02   9.3e-10  0.52  
65  1.5e-06  9.1e-03  9.6e-05  1.00e+00   1.664196692e+02   1.664232513e+02   8.3e-10  0.52  
66  1.3e-06  9.0e-03  8.7e-05  1.00e+00   1.664199064e+02   1.664231303e+02   7.5e-10  0.53  
67  1.2e-06  8.9e-03  7.8e-05  1.00e+00   1.664201198e+02   1.664230213e+02   6.8e-10  0.54  
68  1.1e-06  8.8e-03  7.0e-05  1.00e+00   1.664203118e+02   1.664229232e+02   6.1e-10  0.55  
69  9.8e-07  8.7e-03  6.3e-05  1.00e+00   1.664204846e+02   1.664228348e+02   5.5e-10  0.56  
70  8.8e-07  8.6e-03  5.7e-05  1.00e+00   1.664206400e+02   1.664227552e+02   4.9e-10  0.57  
71  8.0e-07  8.6e-03  5.1e-05  1.00e+00   1.664207798e+02   1.664226835e+02   4.4e-10  0.57  
72  7.2e-07  8.5e-03  4.6e-05  1.00e+00   1.664209056e+02   1.664226189e+02   4.0e-10  0.59  
73  6.4e-07  8.4e-03  4.2e-05  1.00e+00   1.664210187e+02   1.664225608e+02   3.6e-10  0.60  
74  5.8e-07  8.4e-03  3.7e-05  1.00e+00   1.664211205e+02   1.664225084e+02   3.2e-10  0.60  
75  5.2e-07  8.3e-03  3.4e-05  1.00e+00   1.664212121e+02   1.664224611e+02   2.9e-10  0.61  
76  4.7e-07  8.3e-03  3.0e-05  1.00e+00   1.664212945e+02   1.664224186e+02   2.6e-10  0.62  
77  4.2e-07  8.2e-03  2.7e-05  1.00e+00   1.664213686e+02   1.664223803e+02   2.4e-10  0.63  
78  3.8e-07  8.2e-03  2.5e-05  1.00e+00   1.664214352e+02   1.664223458e+02   2.1e-10  0.64  
79  3.4e-07  8.1e-03  2.2e-05  1.00e+00   1.664214952e+02   1.664223147e+02   1.9e-10  0.65  
80  3.1e-07  8.1e-03  2.0e-05  1.00e+00   1.664215491e+02   1.664222867e+02   1.7e-10  0.66  
81  2.8e-07  8.1e-03  1.8e-05  1.00e+00   1.664215977e+02   1.664222615e+02   1.5e-10  0.67  
82  2.5e-07  8.0e-03  1.6e-05  1.00e+00   1.664216413e+02   1.664222387e+02   1.4e-10  0.67  
83  2.2e-07  8.0e-03  1.4e-05  1.00e+00   1.664216806e+02   1.664222183e+02   1.3e-10  0.68  
84  2.0e-07  8.0e-03  1.3e-05  1.00e+00   1.664217160e+02   1.664221999e+02   1.1e-10  0.69  
85  1.8e-07  7.9e-03  1.2e-05  1.00e+00   1.664217478e+02   1.664221833e+02   1.0e-10  0.70  
86  1.6e-07  7.9e-03  1.1e-05  1.00e+00   1.664217764e+02   1.664221684e+02   9.1e-11  0.70  
87  1.5e-07  7.9e-03  9.5e-06  1.00e+00   1.664218022e+02   1.664221550e+02   8.2e-11  0.71  
88  1.3e-07  7.9e-03  8.6e-06  1.00e+00   1.664218254e+02   1.664221429e+02   7.4e-11  0.72  
89  1.2e-07  7.8e-03  7.7e-06  1.00e+00   1.664218463e+02   1.664221320e+02   6.7e-11  0.73  
90  1.1e-07  7.8e-03  6.9e-06  1.00e+00   1.664218650e+02   1.664221222e+02   6.0e-11  0.73  
91  9.7e-08  7.8e-03  6.2e-06  1.00e+00   1.664218819e+02   1.664221134e+02   5.4e-11  0.74  
92  8.7e-08  7.8e-03  5.6e-06  1.00e+00   1.664218971e+02   1.664221055e+02   4.9e-11  0.75  
93  7.8e-08  7.8e-03  5.1e-06  1.00e+00   1.664219108e+02   1.664220983e+02   4.4e-11  0.76  
94  7.1e-08  7.8e-03  4.5e-06  1.00e+00   1.664219231e+02   1.664220919e+02   3.9e-11  0.77  
95  6.4e-08  7.7e-03  4.1e-06  1.00e+00   1.664219342e+02   1.664220861e+02   3.5e-11  0.77  
96  5.7e-08  7.0e-03  3.7e-06  1.00e+00   1.664219443e+02   1.664220807e+02   3.2e-11  0.78  
97  5.1e-08  6.3e-03  3.3e-06  1.00e+00   1.664219532e+02   1.664220760e+02   2.9e-11  0.79  
98  4.6e-08  5.6e-03  3.0e-06  1.00e+00   1.664219613e+02   1.664220718e+02   2.6e-11  0.80  
99  4.2e-08  5.1e-03  2.7e-06  9.99e-01   1.664219686e+02   1.664220680e+02   2.3e-11  0.80  
100 3.8e-08  4.6e-03  2.4e-06  1.00e+00   1.664219751e+02   1.664220646e+02   2.1e-11  0.81  
101 3.4e-08  4.1e-03  2.2e-06  9.99e-01   1.664219810e+02   1.664220616e+02   1.9e-11  0.82  
102 3.0e-08  3.7e-03  2.0e-06  1.00e+00   1.664219863e+02   1.664220588e+02   1.7e-11  0.83  
103 2.7e-08  3.3e-03  1.8e-06  9.97e-01   1.664219910e+02   1.664220564e+02   1.5e-11  0.83  
104 2.5e-08  3.0e-03  1.6e-06  1.00e+00   1.664219953e+02   1.664220542e+02   1.4e-11  0.84  
105 2.2e-08  2.7e-03  1.4e-06  9.98e-01   1.664219992e+02   1.664220521e+02   1.2e-11  0.85  
106 2.0e-08  2.4e-03  1.3e-06  1.00e+00   1.664220027e+02   1.664220503e+02   1.1e-11  0.86  
107 1.8e-08  2.2e-03  1.2e-06  1.00e+00   1.664220058e+02   1.664220487e+02   1.0e-11  0.87  
108 1.6e-08  2.0e-03  1.0e-06  1.00e+00   1.664220086e+02   1.664220472e+02   9.0e-12  0.87  
109 1.5e-08  1.8e-03  9.4e-07  9.97e-01   1.664220112e+02   1.664220459e+02   8.1e-12  0.88  
110 1.3e-08  1.6e-03  8.4e-07  1.00e+00   1.664220134e+02   1.664220447e+02   7.3e-12  0.89  
111 1.2e-08  1.4e-03  7.6e-07  9.96e-01   1.664220155e+02   1.664220437e+02   6.6e-12  0.90  
112 1.1e-08  1.3e-03  6.8e-07  9.99e-01   1.664220173e+02   1.664220427e+02   5.9e-12  0.91  
113 9.6e-09  1.2e-03  6.1e-07  9.97e-01   1.664220190e+02   1.664220418e+02   5.3e-12  0.91  
114 8.6e-09  1.0e-03  5.5e-07  9.91e-01   1.664220205e+02   1.664220410e+02   4.8e-12  0.92  
115 7.8e-09  9.4e-04  5.0e-07  1.01e+00   1.664220219e+02   1.664220403e+02   4.3e-12  0.93  
116 7.0e-09  8.5e-04  4.5e-07  9.92e-01   1.664220231e+02   1.664220397e+02   3.9e-12  0.94  
117 1.4e-08  7.6e-04  4.0e-07  1.02e+00   1.664220242e+02   1.664220394e+02   3.5e-12  0.94  
118 2.0e-08  6.9e-04  3.6e-07  9.99e-01   1.664220252e+02   1.664220387e+02   3.2e-12  0.95  
119 1.8e-08  6.2e-04  3.3e-07  1.01e+00   1.664220261e+02   1.664220382e+02   2.9e-12  0.96  
120 3.3e-08  5.6e-04  2.9e-07  9.98e-01   1.664220268e+02   1.664220382e+02   2.6e-12  0.97  
121 2.2e-08  5.0e-04  2.6e-07  9.99e-01   1.664220276e+02   1.664220373e+02   2.3e-12  0.97  
122 2.0e-08  4.5e-04  2.4e-07  1.01e+00   1.664220282e+02   1.664220370e+02   2.1e-12  0.98  
123 1.8e-08  4.1e-04  2.1e-07  1.00e+00   1.664220288e+02   1.664220367e+02   1.9e-12  0.99  
124 1.7e-08  3.7e-04  1.9e-07  1.02e+00   1.664220294e+02   1.664220364e+02   1.7e-12  1.00  
125 1.5e-08  3.3e-04  1.7e-07  1.01e+00   1.664220298e+02   1.664220361e+02   1.5e-12  1.01  
126 1.3e-08  3.0e-04  1.6e-07  1.00e+00   1.664220303e+02   1.664220359e+02   1.4e-12  1.01  
127 1.2e-08  2.7e-04  1.4e-07  9.96e-01   1.664220306e+02   1.664220357e+02   1.2e-12  1.02  
128 1.1e-08  2.4e-04  1.3e-07  1.01e+00   1.664220310e+02   1.664220355e+02   1.1e-12  1.03  
129 9.9e-09  2.2e-04  1.1e-07  1.00e+00   1.664220313e+02   1.664220354e+02   1.0e-12  1.04  
130 1.0e-09  2.2e-05  1.2e-08  1.00e+00   1.664220337e+02   1.664220341e+02   1.0e-13  1.05  
Optimizer terminated. Time: 1.05    

solsta = 1, prosta = 1

Interior-point solution summary
  Problem status  : PRIMAL_AND_DUAL_FEASIBLE
  Solution status : OPTIMAL
  Primal.  obj: 1.6642203368e+02    nrm: 2e+01    Viol.  con: 2e-08    var: 0e+00  
  Dual.    obj: 1.6642203410e+02    nrm: 1e+03    Viol.  con: 0e+00    var: 2e-04  
* End solution on dual form. *
Transforming to primal solution.
Solving took 1.07 seconds.
Using solver 'mosek'
Solving for 1748 variables.
MOSEK warning 710: #1 (nearly) zero elements are specified in sparse col '' (312) of matrix 'A'.
MOSEK warning 710: #1 (nearly) zero elements are specified in sparse col '' (450) of matrix 'A'.
Number of Hessian non-zeros: 2054
* Solving exponential optimization problem on dual form. *
* The following log information refers to the solution of the dual problem. *
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer started.
Presolve started.
Linear dependency checker started.
Linear dependency checker terminated.
Eliminator started.
Freed constraints in eliminator : 472
Eliminator terminated.
Eliminator started.
Freed constraints in eliminator : 6
Eliminator terminated.
Eliminator - tries                  : 2                 time                   : 0.00            
Lin. dep.  - tries                  : 1                 time                   : 0.00            
Lin. dep.  - number                 : 0               
Presolve terminated. Time: 0.01    
Matrix reordering started.
Local matrix reordering started.
Local matrix reordering terminated.
Matrix reordering terminated.
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer  - threads                : 8               
Optimizer  - solved problem         : the primal      
Optimizer  - Constraints            : 868
Optimizer  - Cones                  : 0
Optimizer  - Scalar variables       : 3451              conic                  : 0               
Optimizer  - Semi-definite variables: 0                 scalarized             : 0               
Factor     - setup time             : 0.02              dense det. time        : 0.00            
Factor     - ML order time          : 0.00              GP order time          : 0.01            
Factor     - nonzeros before factor : 1.48e+04          after factor           : 1.48e+05        
Factor     - dense dim.             : 0                 flops                  : 2.93e+07        
Factor     - GP saved nzs           : 3.33e+04          GP saved flops         : 9.12e+05        
ITE PFEAS    DFEAS    GFEAS    PRSTATUS   POBJ              DOBJ              MU       TIME  
0   2.3e+03  3.6e+03  1.2e+05  0.00e+00   -1.237697757e+05  2.000000000e+00   1.0e+00  0.03  
1   1.7e+03  2.6e+03  9.0e+04  -9.71e-01  -1.230310708e+05  2.618658392e+00   7.3e-01  0.04  
2   8.7e+02  1.4e+03  4.7e+04  -9.59e-01  -1.207072283e+05  4.631967602e+00   3.8e-01  0.05  
3   2.9e+02  4.6e+02  1.6e+04  -9.21e-01  -1.116239239e+05  2.011668198e+01   1.3e-01  0.06  
4   2.9e+02  4.5e+02  1.6e+04  -7.71e-01  -1.094044853e+05  1.966473714e+03   1.3e-01  0.06  
5   1.2e+02  1.9e+02  6.4e+03  -7.61e-01  -8.784053867e+04  6.251650733e+03   5.2e-02  0.07  
6   2.6e+01  4.1e+01  1.4e+03  -4.45e-01  -3.306603809e+04  1.270142506e+04   1.2e-02  0.08  
7   1.7e+01  2.7e+01  9.1e+02  4.99e-01   -2.410345416e+04  7.059532995e+03   7.5e-03  0.09  
8   9.9e+00  1.6e+01  5.4e+02  6.69e-01   -1.509576583e+04  4.325329085e+03   4.4e-03  0.10  
9   3.9e+00  6.2e+00  2.1e+02  8.17e-01   -6.165428475e+03  1.962599328e+03   1.8e-03  0.11  
10  2.0e+00  3.2e+00  1.1e+02  9.46e-01   -3.034895445e+03  1.193153232e+03   9.1e-04  0.11  
11  8.5e-01  1.3e+00  4.7e+01  9.86e-01   -1.168555856e+03  6.294711099e+02   3.9e-04  0.12  
12  8.2e-01  1.3e+00  4.5e+01  9.51e-01   -1.158089507e+03  6.045830226e+02   3.8e-04  0.13  
13  5.2e-01  8.3e-01  2.9e+01  9.70e-01   -6.910803073e+02  4.348560115e+02   2.4e-04  0.14  
14  3.3e-01  5.3e-01  1.8e+01  1.00e+00   -3.582552166e+02  3.500458516e+02   1.5e-04  0.14  
15  1.1e-01  2.0e-01  6.2e+00  9.97e-01   -2.527655392e+01  2.158431403e+02   5.2e-05  0.15  
16  8.3e-02  1.5e-01  4.7e+00  1.02e+00   2.363102125e+01   2.049700552e+02   3.9e-05  0.16  
17  4.1e-02  8.8e-02  2.3e+00  1.02e+00   9.799313343e+01   1.868005351e+02   1.9e-05  0.17  
18  1.1e-02  1.7e-01  6.3e-01  1.02e+00   1.487956591e+02   1.727754642e+02   5.3e-06  0.18  
19  3.5e-03  2.0e-01  2.1e-01  1.01e+00   1.605532700e+02   1.683301713e+02   1.7e-06  0.18  
20  1.3e-03  1.4e-01  8.0e-02  1.01e+00   1.642277735e+02   1.672301862e+02   6.8e-07  0.19  
21  8.8e-04  1.0e-01  5.3e-02  9.84e-01   1.649840636e+02   1.669558345e+02   4.5e-07  0.21  
22  2.6e-04  1.1e-01  1.7e-02  9.86e-01   1.659721215e+02   1.665916548e+02   1.4e-07  0.22  
23  9.3e-05  1.1e-01  6.0e-03  1.01e+00   1.662531933e+02   1.664754263e+02   5.2e-08  0.22  
24  3.5e-05  1.0e-01  2.3e-03  1.01e+00   1.663489963e+02   1.664340420e+02   2.0e-08  0.23  
25  1.6e-05  8.4e-02  1.1e-03  1.00e+00   1.663808103e+02   1.664201668e+02   9.4e-09  0.24  
26  1.5e-05  7.7e-02  9.6e-04  1.00e+00   1.663840618e+02   1.664194962e+02   8.4e-09  0.25  
27  1.3e-05  7.0e-02  8.6e-04  1.01e+00   1.663864463e+02   1.664183305e+02   7.6e-09  0.26  
28  1.2e-05  6.3e-02  7.7e-04  1.00e+00   1.663886321e+02   1.664173227e+02   6.8e-09  0.27  
29  1.1e-05  5.8e-02  7.0e-04  1.00e+00   1.663905903e+02   1.664164076e+02   6.2e-09  0.28  
30  9.6e-06  5.3e-02  6.3e-04  1.00e+00   1.663923512e+02   1.664155833e+02   5.5e-09  0.28  
31  8.7e-06  4.8e-02  5.6e-04  1.00e+00   1.663939340e+02   1.664148400e+02   5.0e-09  0.30  
32  7.8e-06  4.4e-02  5.1e-04  1.00e+00   1.663953569e+02   1.664141700e+02   4.5e-09  0.31  
33  7.0e-06  4.1e-02  4.6e-04  1.00e+00   1.663966362e+02   1.664135660e+02   4.0e-09  0.31  
34  6.3e-06  3.7e-02  4.1e-04  1.00e+00   1.663977864e+02   1.664130217e+02   3.6e-09  0.32  
35  5.7e-06  3.5e-02  3.7e-04  1.00e+00   1.663988207e+02   1.664125312e+02   3.3e-09  0.33  
36  5.1e-06  3.2e-02  3.3e-04  1.00e+00   1.663997507e+02   1.664120891e+02   2.9e-09  0.34  
37  4.6e-06  2.9e-02  3.0e-04  1.00e+00   1.664005870e+02   1.664116908e+02   2.6e-09  0.34  
38  4.1e-06  2.7e-02  2.7e-04  1.00e+00   1.664013391e+02   1.664113318e+02   2.4e-09  0.35  
39  3.7e-06  2.5e-02  2.4e-04  1.00e+00   1.664020155e+02   1.664110084e+02   2.1e-09  0.36  
40  3.4e-06  2.4e-02  2.2e-04  1.00e+00   1.664026238e+02   1.664107169e+02   1.9e-09  0.37  
41  3.0e-06  2.2e-02  2.0e-04  1.00e+00   1.664031708e+02   1.664104542e+02   1.7e-09  0.38  
42  2.7e-06  2.1e-02  1.8e-04  1.00e+00   1.664036628e+02   1.664102176e+02   1.6e-09  0.39  
43  2.4e-06  1.9e-02  1.6e-04  1.00e+00   1.664041053e+02   1.664100044e+02   1.4e-09  0.39  
44  2.2e-06  1.8e-02  1.4e-04  1.00e+00   1.664045034e+02   1.664098124e+02   1.3e-09  0.41  
45  2.0e-06  1.7e-02  1.3e-04  1.00e+00   1.664048615e+02   1.664096395e+02   1.1e-09  0.42  
46  1.8e-06  1.6e-02  1.2e-04  1.00e+00   1.664051837e+02   1.664094838e+02   1.0e-09  0.42  
47  1.6e-06  1.5e-02  1.0e-04  1.00e+00   1.664054736e+02   1.664093436e+02   9.2e-10  0.44  
48  1.4e-06  1.5e-02  9.4e-05  1.00e+00   1.664057344e+02   1.664092173e+02   8.3e-10  0.45  
49  1.3e-06  1.4e-02  8.5e-05  1.00e+00   1.664059691e+02   1.664091036e+02   7.5e-10  0.45  
50  1.2e-06  1.3e-02  7.6e-05  1.00e+00   1.664061802e+02   1.664090012e+02   6.7e-10  0.47  
51  1.1e-06  1.3e-02  6.9e-05  1.00e+00   1.664063701e+02   1.664089090e+02   6.1e-10  0.48  
52  9.5e-07  1.2e-02  6.2e-05  1.00e+00   1.664065410e+02   1.664088260e+02   5.5e-10  0.48  
53  8.5e-07  1.2e-02  5.6e-05  1.00e+00   1.664066948e+02   1.664087512e+02   4.9e-10  0.50  
54  7.7e-07  1.1e-02  5.0e-05  1.00e+00   1.664068331e+02   1.664086839e+02   4.4e-10  0.51  
55  6.9e-07  1.1e-02  4.5e-05  1.00e+00   1.664069575e+02   1.664086232e+02   4.0e-10  0.52  
56  6.2e-07  1.1e-02  4.1e-05  1.00e+00   1.664070695e+02   1.664085686e+02   3.6e-10  0.53  
57  5.6e-07  1.0e-02  3.7e-05  1.00e+00   1.664071702e+02   1.664085194e+02   3.2e-10  0.54  
58  5.0e-07  1.0e-02  3.3e-05  1.00e+00   1.664072608e+02   1.664084750e+02   2.9e-10  0.54  
59  4.5e-07  9.9e-03  3.0e-05  1.00e+00   1.664073423e+02   1.664084351e+02   2.6e-10  0.55  
60  4.1e-07  9.7e-03  2.7e-05  1.00e+00   1.664074156e+02   1.664083991e+02   2.4e-10  0.56  
61  3.7e-07  9.5e-03  2.4e-05  1.00e+00   1.664074815e+02   1.664083667e+02   2.1e-10  0.57  
62  3.3e-07  9.3e-03  2.2e-05  1.00e+00   1.664075408e+02   1.664083374e+02   1.9e-10  0.58  
63  3.0e-07  9.2e-03  1.9e-05  1.00e+00   1.664075942e+02   1.664083111e+02   1.7e-10  0.59  
64  2.7e-07  9.0e-03  1.7e-05  1.00e+00   1.664076422e+02   1.664082874e+02   1.5e-10  0.60  
65  2.4e-07  8.9e-03  1.6e-05  1.00e+00   1.664076853e+02   1.664082661e+02   1.4e-10  0.61  
66  2.2e-07  8.8e-03  1.4e-05  1.00e+00   1.664077242e+02   1.664082469e+02   1.2e-10  0.61  
67  2.0e-07  8.7e-03  1.3e-05  1.00e+00   1.664077592e+02   1.664082296e+02   1.1e-10  0.62  
68  1.8e-07  8.6e-03  1.1e-05  1.00e+00   1.664077906e+02   1.664082140e+02   1.0e-10  0.64  
69  1.6e-07  8.5e-03  1.0e-05  1.00e+00   1.664078190e+02   1.664082000e+02   9.1e-11  0.64  
70  1.4e-07  8.4e-03  9.3e-06  1.00e+00   1.664078444e+02   1.664081874e+02   8.2e-11  0.65  
71  1.3e-07  8.3e-03  8.4e-06  1.00e+00   1.664078674e+02   1.664081760e+02   7.4e-11  0.66  
72  1.2e-07  8.2e-03  7.5e-06  1.00e+00   1.664078880e+02   1.664081658e+02   6.6e-11  0.67  
73  1.0e-07  8.2e-03  6.8e-06  1.00e+00   1.664079065e+02   1.664081567e+02   6.0e-11  0.68  
74  9.3e-08  8.1e-03  6.1e-06  1.00e+00   1.664079232e+02   1.664081484e+02   5.4e-11  0.69  
75  8.4e-08  8.1e-03  5.5e-06  1.00e+00   1.664079383e+02   1.664081409e+02   4.8e-11  0.70  
76  7.6e-08  8.0e-03  4.9e-06  1.00e+00   1.664079518e+02   1.664081342e+02   4.4e-11  0.71  
77  6.8e-08  8.0e-03  4.4e-06  1.00e+00   1.664079640e+02   1.664081281e+02   3.9e-11  0.72  
78  6.1e-08  7.9e-03  4.0e-06  1.00e+00   1.664079750e+02   1.664081227e+02   3.5e-11  0.73  
79  5.5e-08  7.9e-03  3.6e-06  1.00e+00   1.664079848e+02   1.664081178e+02   3.2e-11  0.73  
80  5.0e-08  7.9e-03  3.2e-06  1.00e+00   1.664079937e+02   1.664081134e+02   2.9e-11  0.74  
81  4.5e-08  7.9e-03  2.9e-06  1.00e+00   1.664080017e+02   1.664081094e+02   2.6e-11  0.75  
82  4.0e-08  7.8e-03  2.6e-06  1.00e+00   1.664080089e+02   1.664081058e+02   2.3e-11  0.76  
83  3.6e-08  7.8e-03  2.4e-06  1.00e+00   1.664080153e+02   1.664081026e+02   2.1e-11  0.77  
84  3.3e-08  7.8e-03  2.1e-06  1.00e+00   1.664080212e+02   1.664080997e+02   1.9e-11  0.78  
85  2.9e-08  7.8e-03  1.9e-06  1.00e+00   1.664080264e+02   1.664080970e+02   1.7e-11  0.79  
86  2.6e-08  7.7e-03  1.7e-06  1.00e+00   1.664080311e+02   1.664080947e+02   1.5e-11  0.80  
87  2.4e-08  7.7e-03  1.5e-06  9.99e-01   1.664080354e+02   1.664080926e+02   1.4e-11  0.81  
88  2.1e-08  7.7e-03  1.4e-06  1.00e+00   1.664080392e+02   1.664080907e+02   1.2e-11  0.82  
89  1.9e-08  7.7e-03  1.3e-06  1.00e+00   1.664080426e+02   1.664080890e+02   1.1e-11  0.83  
90  1.7e-08  7.6e-03  1.1e-06  9.93e-01   1.664080457e+02   1.664080875e+02   1.0e-11  0.84  
91  1.6e-08  7.6e-03  1.0e-06  9.96e-01   1.664080485e+02   1.664080861e+02   9.0e-12  0.85  
92  1.4e-08  7.6e-03  9.1e-07  1.00e+00   1.664080510e+02   1.664080848e+02   8.1e-12  0.86  
93  1.3e-08  6.8e-03  8.2e-07  1.01e+00   1.664080533e+02   1.664080837e+02   7.3e-12  0.87  
94  1.2e-08  6.2e-03  7.4e-07  9.98e-01   1.664080553e+02   1.664080827e+02   6.6e-12  0.88  
95  1.0e-08  5.5e-03  6.7e-07  9.97e-01   1.664080571e+02   1.664080818e+02   5.9e-12  0.89  
96  9.4e-09  5.0e-03  6.0e-07  9.95e-01   1.664080588e+02   1.664080810e+02   5.3e-12  0.90  
97  8.4e-09  4.5e-03  5.4e-07  1.00e+00   1.664080603e+02   1.664080802e+02   4.8e-12  0.91  
98  7.5e-09  4.0e-03  4.9e-07  9.83e-01   1.664080616e+02   1.664080795e+02   4.3e-12  0.92  
99  6.8e-09  3.6e-03  4.4e-07  9.99e-01   1.664080628e+02   1.664080789e+02   3.9e-12  0.93  
100 6.1e-09  3.3e-03  3.9e-07  1.02e+00   1.664080639e+02   1.664080784e+02   3.5e-12  0.94  
101 5.5e-09  2.9e-03  3.5e-07  1.01e+00   1.664080649e+02   1.664080779e+02   3.2e-12  0.95  
102 4.9e-09  2.6e-03  3.2e-07  1.02e+00   1.664080658e+02   1.664080774e+02   2.9e-12  0.96  
103 4.4e-09  2.4e-03  2.9e-07  1.01e+00   1.664080666e+02   1.664080770e+02   2.6e-12  0.98  
104 4.0e-09  2.1e-03  2.6e-07  1.04e+00   1.664080674e+02   1.664080765e+02   2.4e-12  0.99  
105 3.7e-09  1.9e-03  2.3e-07  1.00e+00   1.664080680e+02   1.664080763e+02   2.1e-12  1.00  
106 3.3e-09  1.7e-03  2.1e-07  1.04e+00   1.664080687e+02   1.664080759e+02   2.0e-12  1.01  
107 2.9e-09  1.6e-03  1.9e-07  9.99e-01   1.664080692e+02   1.664080757e+02   1.8e-12  1.02  
108 2.6e-09  1.4e-03  1.7e-07  9.99e-01   1.664080696e+02   1.664080755e+02   1.6e-12  1.03  
109 2.4e-09  1.3e-03  1.5e-07  1.00e+00   1.664080700e+02   1.664080753e+02   1.4e-12  1.03  
110 2.2e-09  1.1e-03  1.4e-07  1.00e+00   1.664080704e+02   1.664080751e+02   1.3e-12  1.04  
111 1.9e-09  1.0e-03  1.2e-07  1.01e+00   1.664080707e+02   1.664080749e+02   1.2e-12  1.05  
112 1.7e-09  9.2e-04  1.1e-07  9.94e-01   1.664080710e+02   1.664080748e+02   1.0e-12  1.06  
113 1.6e-09  8.3e-04  1.0e-07  1.00e+00   1.664080712e+02   1.664080747e+02   9.5e-13  1.06  
Optimizer terminated. Time: 1.07    

solsta = 1, prosta = 1

Interior-point solution summary
  Problem status  : PRIMAL_AND_DUAL_FEASIBLE
  Solution status : OPTIMAL
  Primal.  obj: 1.6640807123e+02    nrm: 2e+01    Viol.  con: 2e-08    var: 0e+00  
  Dual.    obj: 1.6640807466e+02    nrm: 1e+03    Viol.  con: 0e+00    var: 5e-03  
* End solution on dual form. *
Transforming to primal solution.
Solving took 1.09 seconds.
Solving took 9 GP solves and 16.7 seconds.

Solves with these variables bounded:
   value near lower bound: Mission.CruiseAlt
   value near upper bound: Mission.Aircraft.HorizontalTail.WingBox.M_{r_{out}}, Mission.Aircraft.Engine.Thrust.\alpha_{max}, Mission.Aircraft.Wing.WingNoStruct.A_{tri}, Mission.TotalTime, Mission.Aircraft.LandingGear.d_{nacelle}, Mission.T_{t_{4.1_{max-Cruise}}}

Checking for relaxed constants...
Solution check warning: Primal solution computed cost did not match solver-returned cost: 1.495742457694431e+110 vs 1.4956976656e+110
GP iteration 0 has relaxed constants

Cost
----
 1.496e+110

Free Variables
--------------
                   | Mission.Aircraft.Engine.Turbine.Relax
        C_{p_{t2}} : 2.251                                                Cp Value for Combustion Products in LP Turbine

                   | Mission.Aircraft.Fuselage.Relax
          l_{nose} : 1.042                                                Nose length
          n_{pass} : [ 2.86     ]                                         Number of passengers

                   | Mission.Aircraft.Relax
f_{L_{total/wing}} : 1.656                                                Total lift as a percentage of wing lift

                   | Mission.Aircraft.Wing.WingNoStruct.Relax
     \tan(\Lambda) : 1.133                                                Tangent of quarter-chord sweep angle

                   | Mission.FlightState.Atmosphere.Relax
           L_{atm} : [ 1.77      1         1         1         1        ] Temperature lapse rate
            T_{sl} : [ 1         1         1.25      1         1        ] Temperature at sea level

                   | Mission.Relax
           R_{req} : 2.362                                                Required Cruise Range

GP iteration 1 has relaxed constants

Cost
----
 7.486e+74

Free Variables
--------------
          | Mission.Aircraft.Engine.Combustor.Relax
hold_{4a} : 1.093        1+(gamma-1)/2 * M_4a**2

          | Mission.Aircraft.Fuselage.Relax
 n_{pass} : [ 1.03     ] Number of passengers

          | Mission.Aircraft.LandingGear.Relax
 h_{hold} : 1.006        Hold height

Solution check warning: Primal solution computed cost did not match solver-returned cost: 3.7050980759335926e+72 vs 3.70502020539e+72
WEIGHT DIFFERENCES


Total Fuel Weight Percent Diff: [-92.94682113]


Total Aircraft Weight Percent Diff: [-21.48054877]


Engine Weight Percent Diff: -56.278166751133654


Fuselage Weight Percent Diff: -0.8697062242189039


Payload Weight Percent Diff: [-0.04003553]


VT Weight Percent Diff: -8.607369318686331


HT Weight Percent Diff: -93.23322032086058


Wing Weight Percent Diff: 8.26743549310153




WING DIFFERENCES


Wing Span Percent Diff: -0.029997996845333903


Wing Area Percent Diff: 32.90022842687177




HORIZONTAL TAIL DIFFERENCES


HT Area Percent Diff: 40.489576650137494




VERTICAL TAIL DIFFERENCES




VT Span Percent Diff: -11.022306825728005


VT Area Percent Diff: -60.38680571118094




CRUISE SEGMENT 1 DRAG DIFFERENCES


Overall Cd Percent Diff: [-18.54737792]


L/D Percent Diff: [24.01020217]


Nacelle Cd Percent Diff: [-94.27640436]


HT Cd Percent Diff: [-80.76934841] dimensionless


Fuselage Cd Percent Diff: [108.78752887]


VT Cd Percent Diff: [-58.00304986] dimensionless


Wing Cd percent Diff: [-14.22936117]
Induced Drag Cd Percent Diff: [1.21931584]




CRUISE SEGMENT 1 TSFC DIFFERENCES


Initial Cruise TSFC Percent Diff: [-90.57035921]




FUSELAGE DIFFERENCES




Weight of HB material: -38.35923841364424 


Weight of VB material: 87.8307550215667 
Fan Propulsive Efficiency in Cruise Segment 1
---------------------
[0.71260527]
Mission1
========

Cost
----
 W_{f_{total}}[:].sum()

Constraints
-----------
   W_{buoy}[:] >= \rho_{cabin}[:]*9.81*V_{cabin}
   PRFC[:] = W_{f_{primary}}[:]/9.81*h_{f}/(R_{req}*W_{payload}[:])
   x_{CG}[:]*W_{avg}[:] >= x_{misc}*W_{misc} + x_{CG_{lg}}*W_{lg} + 0.5*(W_{fuse} + W_{payload}[:])*l_{fuse} + W_{ht}*x_{CG_{ht}} + W_{vt}*x_{CG_{vt}} + n_{eng}*W_{engsys}*x_{eng} + W_{wing}*(x_{wing} + \Delta x_{AC_{wing}}) + (F_{fuel}[:] + f_{fuel_{res}})*W_{f_{primary}}[:]*(x_{wing} + \Delta x_{AC_{wing}}*F_{fuel}[:])
   x_{CG}[3] <= \Delta x_n + x_n
   \Delta x_m + x_{CG}[3] >= x_m
   \tan(\phi)*(z_{CG} + l_m) + x_{CG}[3] <= x_m
   C_{D_{fuse}}[:] = 0.018081
   M_{fuseD} = 0.72
   W_{start}[0] = W_{total}[:]
   W_{start}[:] >= W_{end}[:] + W_{burn}[:]
   W_{start}[1:] = W_{end}[:4]
   W_{dry}[:] + W_{payload}[:] + f_{fuel_{res}}*W_{f_{primary}}[:] <= W_{end}[-1]
   W_{f_{climb}}[:] >= 0 + W_{burn}[:3][0] + W_{burn}[:3][1] + W_{burn}[:3][2]
   W_{f_{cruise}}[:] >= 0 + W_{burn}[3:][0] + W_{burn}[3:][1]
   hft[2] >= CruiseAlt
   hft[1:5] = hft[:4] + dhft[1:5]
   hft[0] = dhft[0]
   dhft[1:3] = dhft[:2]
   RC[0] >= 2.5e+03
   RC[:3] >= RC_{min}[:3]
   \theta[2] >= 0.015
   hft[2] >= MinCruiseAlt
   n_{eng}*F[:] >= D[:] + W_{avg}[:]*\theta[:]
   R_{segment}[3:4] = R_{segment}[4:5]
   M[3:5] >= M_{min}
   0 + R_{segment}[0] + R_{segment}[1] + R_{segment}[2] + R_{segment}[3] + R_{segment}[4] >= R_{req}
   Fsafetyfac*F[0] = T_e
   W_{burn}[:] = n_{eng}*TSFC[:]*thr[:]*F[:]
   V_2[:] = M_2[:]*a[:]
   \alpha_{max,w}[:3] = 0.18
   \alpha_{max,w}[3:] = 0.1
   0 + thr[0] + thr[1] + thr[2] + thr[3] + thr[4] <= TotalTime
   0 + thr[:3][0] + thr[:3][1] + thr[:3][2] <= ClimbTime
   ClimbTime <= MaxClimbTime
   T_{t_{4.1}}[3:] <= T_{t_{4.1_{max-Cruise}}}
   F_{fuel}[0] >= (0 + W_{burn}[1:][0] + W_{burn}[1:][1] + W_{burn}[1:][2] + W_{burn}[1:][3] + 1e-07*W_{f_{primary}}[:])/W_{f_{primary}}[:]
   F_{fuel}[:] <= 1.0000001
   F_{fuel}[1] >= (0 + W_{burn}[2:][0] + W_{burn}[2:][1] + W_{burn}[2:][2] + 1e-07*W_{f_{primary}}[:])/W_{f_{primary}}[:]
   F_{fuel}[:] <= 1.0000001
   F_{fuel}[2] >= (0 + W_{burn}[3:][0] + W_{burn}[3:][1] + 1e-07*W_{f_{primary}}[:])/W_{f_{primary}}[:]
   F_{fuel}[:] <= 1.0000001
   F_{fuel}[3] >= (0 + W_{burn}[4:][0] + 1e-07*W_{f_{primary}}[:])/W_{f_{primary}}[:]
   F_{fuel}[:] <= 1.0000001
   F_{fuel}[4] >= (0 + 1e-07*W_{f_{primary}}[:])/W_{f_{primary}}[:]
   F_{fuel}[:] <= 1.0000001
   OPR[:] <= OPR_{max}
 
 Aircraft
     Fuselage
       W_{lugg}[:] >= f_{lugg,2}*n_{pass}[:]*2*W_{checked} + f_{lugg,1}*n_{pass}[:]*W_{checked} + W_{carry on}
       W_{pass}[:] >= n_{pass}[:]*W_{avg. pass}
       W_{payload}[:] >= W_{pass}[:] + W_{lugg}[:] + W_{cargo}
       W_{payload}[:] >= n_{pass}[:]*W_{avg. pass_{total}}
       W_{payload}[:] <= W_{payload_{max}}
       n_{pass}[:] <= n_{seat}
       n_{rows} = n_{seat}/SPR
       l_{shell} = n_{rows}*p_s
       \theta_{db} = w_{db}/R_{fuse}
       R_{fuse}*(1 - 0.5*\theta_{db}^2) <= h_{db}
       A_{db} >= (2*h_{db} + \Delta R_{fuse})*t_{db}
       (PI + 2*\theta_{db} + 2*\theta_{db}*(1 - \theta_{db}^2/2))*R_{fuse}^2 + 2*\Delta R_{fuse}*R_{fuse} <= A_{fuse}
       A_{skin} >= (2PI + 4*\theta_{db})*R_{fuse}*t_{skin} + 2*\Delta R_{fuse}*t_{skin}
       w_{floor} = w_{fuse}
       R_{fuse} + w_{db} >= w_{fuse}
       h_{fuse} = R_{fuse} + 0.5*\Delta R_{fuse}
       t_{skin}*(1 + r_E*f_{string}*\rho_{skin}/\rho_{bend}) >= t_{shell}
       S_{nose} >= (2PI + 4*\theta_{db})*R_{fuse}^2
       S_{bulk} >= (2PI + 4*\theta_{db})*R_{fuse}^2
       l_{fuse} = l_{nose} + l_{shell} + l_{cone}
       l_{cone} = R_{fuse}/\lambda_{cone}
       x_{shell1} = l_{nose}
       x_{shell2} >= l_{nose} + l_{shell}
       t_{skin} = \Delta P_{over}*R_{fuse}/\sigma_{skin}
       t_{db} = 2*\Delta P_{over}*w_{db}/\sigma_{skin}
       \sigma_x = \Delta P_{over}*R_{fuse}/(2*t_{shell})
       \sigma_{\theta} = \Delta P_{over}*R_{fuse}/t_{skin}
       l_{floor} >= l_{shell} + 2*R_{fuse}
       P_{floor} >= N_{land}*(W_{payload_{max}} + W_{seat})
       A_{floor} >= 2*M_{floor}/(\sigma_{floor}*h_{floor}) + 1.5*S_{floor}/\tau_{floor}
       V_{floor} = 2*w_{floor}*A_{floor}
       W_{floor} >= \rho_{floor}*g*V_{floor} + 2*w_{floor}*l_{floor}*W''_{floor}
       \tau_{cone} = \sigma_{skin}
       W_{cone} >= \rho_{cone}*g*V_{cone}*(1 + f_{string} + f_{frame})
       x_{tail} >= l_{nose} + l_{shell} + 0.5*l_{cone}
       -2*R_{fuse}^2*\Delta R_{fuse}*\theta_{db}^2*t_{shell} + 1.57*R_{fuse}*\Delta R_{fuse}^2*t_{shell} + 3.14*R_{fuse}^3*t_{shell} + 4*R_{fuse}^2*\Delta R_{fuse}*t_{shell} + 4*R_{fuse}^3*\theta_{db}*t_{shell} + R_{fuse}*\Delta R_{fuse}^2*\theta_{db}*t_{shell} >= I_{h_{shell}}
       (PI*R_{fuse}^2 + 8*w_{db}*R_{fuse} + (2PI + 4*\theta_{db})*w_{db}^2)*R_{fuse}*t_{shell} >= I_{v_{shell}}
       x_{hbend_{Land}} >= x_{wing}
       x_{hbend_{Land}} <= l_{fuse}
       x_{hbend_{MLF}} >= x_{wing}
       x_{hbend_{MLF}} <= l_{fuse}
       A_{0h} = A_{2h_{Land}}*(x_{shell2} - x_{hbend_{Land}})^0 + A_{1h_{Land}}*(x_{tail} - x_{hbend_{Land}})
       A_{0h} = A_{2h_{MLF}}*(x_{shell2} - x_{hbend_{MLF}})^0 + A_{1h_{MLF}}*(x_{tail} - x_{hbend_{MLF}})
       A_{2h_{Land}} >= N_{land}*(W_{payload_{max}} + W_{padd} + W_{shell} + W_{window} + W_{insul} + W_{floor} + W_{seat})/(2*l_{shell}*h_{fuse}*\sigma_{M_h})
       A_{2h_{MLF}} >= Mission1.Aircraft.Fuselage.N_{lift}*(W_{payload_{max}} + W_{padd} + W_{shell} + W_{window} + W_{insul} + W_{floor} + W_{seat})/(2*l_{shell}*h_{fuse}*\sigma_{M_h})
       A_{0h} = I_{h_{shell}}/(r_E*h_{fuse}^2)
       A_{2h_{Land}}*(x_{shell2} - x_f)^0 + A_{1h_{Land}}*(x_{tail} - x_f) - A_{0h} <= A_{hbendf_{Land}}
       A_{2h_{MLF}}*(x_{shell2} - x_f)^0 + A_{1h_{MLF}}*(x_{tail} - x_f) - A_{0h} <= A_{hbendf_{MLF}}
       A_{2h_{Land}}*(x_{shell2} - x_b)^0 + A_{1h_{Land}}*(x_{tail} - x_b) - A_{0h} <= A_{hbendb_{Land}}
       A_{2h_{MLF}}*(x_{shell2} - x_b)^0 + A_{1h_{MLF}}*(x_{tail} - x_b) - A_{0h} <= A_{hbendb_{MLF}}
       A_{2h_{Land}}/3*(x_{shell2} - x_f)^0 - (x_{shell2} - x_{hbend_{Land}})^0 + A_{1h_{Land}}/2*(x_{tail} - x_f)^0 - (x_{tail} - x_{hbend_{Land}})^0 - A_{0h}*(x_{hbend_{Land}} - x_f) <= V_{hbend_{f}}
       A_{2h_{MLF}}/3*(x_{shell2} - x_f)^0 - (x_{shell2} - x_{hbend_{MLF}})^0 + A_{1h_{MLF}}/2*(x_{tail} - x_f)^0 - (x_{tail} - x_{hbend_{MLF}})^0 - A_{0h}*(x_{hbend_{MLF}} - x_f) <= V_{hbend_{f}}
       A_{2h_{Land}}/3*(x_{shell2} - x_b)^0 - (x_{shell2} - x_{hbend_{Land}})^0 + A_{1h_{Land}}/2*(x_{tail} - x_b)^0 - (x_{tail} - x_{hbend_{Land}})^0 - A_{0h}*(x_{hbend_{Land}} - x_b) <= V_{hbend_{b}}
       A_{2h_{MLF}}/3*(x_{shell2} - x_b)^0 - (x_{shell2} - x_{hbend_{MLF}})^0 + A_{1h_{MLF}}/2*(x_{tail} - x_b)^0 - (x_{tail} - x_{hbend_{MLF}})^0 - A_{0h}*(x_{hbend_{MLF}} - x_b) <= V_{hbend_{b}}
       V_{hbend_{c}} >= 0.5*(A_{hbendf_{Land}} + A_{hbendb_{Land}})*c_0*Mission1.Aircraft.Fuselage.r_{w/c}
       V_{hbend_{c}} >= 0.5*(A_{hbendf_{MLF}} + A_{hbendb_{MLF}})*c_0*Mission1.Aircraft.Fuselage.r_{w/c}
       V_{hbend} >= V_{hbend_{c}} + V_{hbend_{f}} + V_{hbend_{b}}
       W_{hbend} >= g*\rho_{bend}*V_{hbend}
       x_{vbend} >= x_{wing}
       x_{vbend} <= l_{fuse}
       B_{0v} = B_{1v}*(x_{tail} - x_{vbend})
       B_{0v} = I_{v_{shell}}/(r_E*w_{fuse}^2)
       B_{1v}*(x_{tail} - x_b) - B_{0v} <= A_{vbend_{b}}
       0.5*B_{1v}*(x_{tail} - x_b)^0 - (x_{tail} - x_{vbend})^0 - B_{0v}*(x_{vbend} - x_b) <= V_{vbend_{b}}
       V_{vbend_{c}} >= 0.5*A_{vbend_{b}}*c_0*Mission1.Aircraft.Fuselage.r_{w/c}
       V_{vbend} >= V_{vbend_{b}} + V_{vbend_{c}}
       W_{vbend} >= \rho_{bend}*g*V_{vbend}
       x_f = x_{wing} + 0.5*c_0*Mission1.Aircraft.Fuselage.r_{w/c}
       x_b = x_{wing} - 0.5*c_0*Mission1.Aircraft.Fuselage.r_{w/c}
       \sigma_{bend} - r_E*\Delta P_{over}/2*R_{fuse}/t_{shell} >= \sigma_{M_h}
       \sigma_{bend} - r_E*\Delta P_{over}/2*R_{fuse}/t_{shell} >= \sigma_{M_v}
       V_{cyl} = A_{skin}*l_{shell}
       V_{nose} = S_{nose}*t_{skin}
       V_{bulk} = S_{bulk}*t_{skin}
       V_{db} = A_{db}*l_{shell}
       V_{cabin} >= A_{fuse}*(l_{shell} + 0.67*l_{nose} + 0.67*R_{fuse})
       W_{apu} = W_{payload_{max}}*f_{apu}
       W_{db} = \rho_{skin}*g*V_{db}
       W_{insul} >= W''_{insul}*(3.46 + 2*\theta_{db})*R_{fuse}*l_{shell} + 0.55*(S_{nose} + S_{bulk})
       W_{window} >= W'_{window}*l_{shell}
       W_{padd} = W_{payload_{max}}*f_{padd}
       W_{seat} >= W'_{seat}*n_{seat}
       W_{seat} >= f_{seat}*W_{payload_{max}}
       W_{skin} >= \rho_{skin}*g*(V_{cyl} + V_{nose} + V_{bulk})
       W_{shell} >= W_{skin}*(1 + f_{string} + f_{fadd} + f_{frame}) + W_{db}
       W_{fuse} >= C_{fuse}*(W_{shell} + W_{floor} + W_{insul} + W_{apu} + W_{fix} + W_{window} + W_{padd} + W_{seat} + W_{hbend} + W_{vbend} + W_{cone})
     
     Wing
       WingNoStruct
         A_{rect} = c_{tip}*b
         0.5*(1 - \lambda)*c_{root}*b <= A_{tri}
         p >= 1 + 2*\lambda
         2*q >= 1 + p
         y_{mac} = b/3*q/p
         mac >= 0.667*(1 + \lambda + \lambda^2)*c_{root}/q
         \lambda = c_{tip}/c_{root}
         S = b*(c_{root} + c_{tip})/2
         0.0524*\lambda^4 - 0.15*\lambda^3 + 0.166*\lambda^2 - 0.0706*\lambda + 0.0119 <= f(\lambda_w)
         e*(1 + f(\lambda_w)*AR) <= 1
         \lambda >= 0.15
         V_{fuel, max} <= 0.303*mac^2*b*\tau
         W_{fuel_{wing}} <= \rho_{fuel}*V_{fuel, max}*g
         b <= b_{max}
       
       WingBox
         AR = b^2/S
         0.423*Mission1.Aircraft.Wing.WingBox.r_{w/c}*\tau^2*t_{cap} >= 0.92*Mission1.Aircraft.Wing.WingBox.r_{w/c}*\tau*t_{cap}^2 + I_{cap}
         \nu^3.94 >= 0.86*p^-2.38 + 0.14*p^0.56
         W_{web} >= 8*\rho_{web}*g*r_h*\tau*t_{web}*S^1.5*\nu/(3*AR^0.5)
         \tau <= \tau_{max_w}
         W_{struct} >= W_{web} + W_{cap}
         AR*L_{max}*q^2/(\tau*S*t_{web}*\sigma_{max,shear}) <= 12
         W_{cap} >= 8*\rho_{cap}*g*Mission1.Aircraft.Wing.WingBox.r_{w/c}*t_{cap}*S^1.5*\nu/(3*AR^0.5)
         Mission1.Aircraft.Wing.WingBox.N_{lift} = 3
         Mission1.Aircraft.Wing.WingBox.M_r*AR*q^2*\tau/(S*I_{cap}*\sigma_{max}) <= 8
         \lambda = taper
         W_{wing} >= C_{wing}*W_{struct} + W_{struct}*(f_{flap} + f_{slat} + f_{aileron} + f_{lete} + f_{ribs} + f_{spoiler} + f_{watt})
         0.0417*(c_{root} + 5*c_{tip})/S*b^2*\tan(\Lambda) >= \Delta x_{AC_{wing}}
     
     Engine
         Compressor
           (no constraints)
         
         Combustor
           (no constraints)
         
         Turbine
           (no constraints)
         
         Thrust
           (no constraints)
         
         FanMap
           (no constraints)
         
         LPCMap
           (no constraints)
         
         HPCMap
           (no constraints)
         
         Sizing
           A_{2} >= A_{5} + A_{7}
         
         FlightState
             V[:] = V[:]
             a[:] = (\gamma[:]*R[:]*T_{atm}[:])^0.5
             V[:] = M[:]*a[:]
           
           Altitude
             h[:] = hft[:]
           
           Atmosphere
             (P_{atm}[:]/p_{sl}[:])^0.190222560396 = T_{atm}[:]/T_{sl}[:]
             \rho[:] = P_{atm}[:]/(R_{atm}[:]/M_{atm}[:]*T_{atm}[:])
             T_{sl}[:] = T_{atm}[:] + L_{atm}[:]*h[:]
             \mu[:] = C_1[:]*T_{atm}[:]^1.5/(6.64*T_s[:]^0.72)
         
         EnginePerformance
           CompressorPerformance
               T_{t_0}[:] = T_{atm}[:]/c1[:]^-1
               h_{t_0}[:] = C_{p_{air}*T_{t_0}[:]
               P_{t_{1.8}}[:] = \pi_{d}*P_{t_0}[:]
               T_{t_{1.8}}[:] = T_{t_0}[:]
               h_{t_{1.8}}[:] = h_{t_0}[:]
               P_{t_0}[:] = f_{BLI_{P}}*P_{atm}[:]/c1[:]^-3.5
               T_{T_{2}}[:] = T_{t_{1.8}}[:]
               h_{T_{2}}[:] = h_{t_{1.8}}[:]
               P_{T_{2}}[:] = P_{t_{1.8}}[:]
               P_{t_{2.1}}[:] = \pi_{f}[:]*P_{T_{2}}[:]
               T_{t_{2.1}}[:] = T_{T_{2}}[:]*\pi_{f}[:]^0.307767877016
               h_{t_{2.1}}[:] = C_{p_{air}*T_{t_{2.1}}[:]
               P_{t_7}[:] = \pi_{fn}*P_{t_{2.1}}[:]
               T_{t_7}[:] = T_{t_{2.1}}[:]
               h_{t_7}[:] = h_{t_{2.1}}[:]
               P_{t_{2.5}}[:] = \pi_{lc}[:]*\pi_{f}[:]*P_{T_{2}}[:]
               T_{t_{2.5}}[:] = T_{T_{2}}[:]*(\pi_{f}[:]*\pi_{lc}[:])^0.309448280152
               h_{t_{2.5}}[:] = T_{t_{2.5}}[:]*C_{p_{1}
               P_{t_3}[:] = \pi_{hc}[:]*P_{t_{2.5}}[:]
               T_{t_3}[:] = T_{t_{2.5}}[:]*\pi_{hc}[:]^0.293761306491
               h_{t_3}[:] = C_{p_{2}*T_{t_3}[:]
           
           CombustorPerformance
             h_{t_4}[:] = C_{p_{c}}*T_{t_4}[:]
             h_{t_{4.1}}[:] = C_{p_{c}}*T_{t_{4.1}}[:]
             fp1[:] = f[:] + 1
             M_{4a}[:] = 0.1025
             fp1[:]*u_{4.1}[:] = (u_{4a}[:]*fp1[:]*\alpha_c*u_c[:])^0.5
             T_{4.1}[:] <= [[T_{t_{4.1}}[0,0] - u_{4.1}[0,0]^2*0.5/C_{p_{c}}], [T_{t_{4.1}}[1,0] - u_{4.1}[1,0]^2*0.5/C_{p_{c}}], [T_{t_{4.1}}[2,0] - u_{4.1}[2,0]^2*0.5/C_{p_{c}}], [T_{t_{4.1}}[3,0] - u_{4.1}[3,0]^2*0.5/C_{p_{c}}], [T_{t_{4.1}}[4,0] - u_{4.1}[4,0]^2*0.5/C_{p_{c}}]]
             P_{t_{4.1}}[:] = P_{4a}[:]*(T_{t_{4.1}}[:]/T_{4.1}[:])^-4.19488817891
             u_{4a}[:] = M_{4a}[:]*(1.31*Mission1.Aircraft.Engine.EngineConstants.R*T_{t_4}[:])^0.5/hold_{4a}
             u_c[:] = r_{uc}*u_{4a}[:]
             P_{4a}[:] = P_{t_4}[:]*hold_{4a}^4.19488817891
           
           TurbinePerformance
             h_{t_{4.5}}[:] = C_{p_{t1}}*T_{t_{4.5}}[:]
             P_{t_{4.9}}[:] = \pi_{LPT}[:]*P_{t_{4.5}}[:]
             \pi_{LPT}[:] = (T_{t_{4.9}}[:]/T_{t_{4.5}}[:])^3.5188700565
             h_{t_{4.9}}[:] = C_{p_{t2}}*T_{t_{4.9}}[:]
             P_{t_5}[:] = \pi_{tn}*P_{t_{4.9}}[:]
             T_{t_5}[:] = T_{t_{4.9}}[:]
             h_{t_5}[:] = h_{t_{4.9}}[:]
           
           ThrustPerformance
             P_{8}[:] = P_{atm}[:]
             h_{8}[:] = C_{p_{fex}*T_{8}[:]
             u_{8}[:]^2 + 2*h_{8}[:] <= 2*h_{t_8}[:]
             (P_{8}[:]/P_{t_8}[:])^0.279019466474 = T_{8}[:]/T_{t_8}[:]
             h_{t_8}[:] = C_{p_{fex}*T_{t_8}[:]
             P_{6}[:] = P_{atm}[:]
             (P_{6}[:]/P_{t_6}[:])^0.285714285714 = T_{6}[:]/T_{t_6}[:]
             u_{6}[:]^2 + 2*h_6[:] <= 2*h_{t_6}[:]
             h_6[:] = C_{p_{tex}*T_{6}[:]
             h_{t_6}[:] = C_{p_{tex}*T_{t_6}[:]
             \alpha[:] = m_{fan}[:]/m_{core}[:]
             \alpha_{+1}[:] = \alpha[:] + 1
             \alpha[:] <= \alpha_{max}
             F[:] <= F_{6}[:] + F_{8}[:]
             F_{sp}[:] = F[:]/(\alpha_{+1}[:]*m_{core}[:]*a[:])
             TSFC[:] = 1/I_{sp}[:]
             F_{8}[:]/(\alpha[:]*m_{core}[:]) + V[:]*f_{BLI_{V}} <= u_{8}[:]
           
           FanMapPerformance
             m_{tild_f}[:] = m_{f}[:]/\bar{m}_{fan_{D}}
           
           LPCMapPerformance
             m_{tild_lc}[:] = m_{lc}[:]/m_{lc_D}
           
           HPCMapPerformance
             m_{tild_{hc}}[:] = m_{hc}[:]/m_{hc_D}
           
           SizingPerformance
             P_{7}[:] >= P_{atm}[:]
             M_7[:] <= 1
             a_{7}[:] = (1.4*Mission1.Aircraft.Engine.EngineConstants.R*T_{7}[:])^0.5
             a_{7}[:]*M_7[:] = u_{7}[:]
             \rho_7[:] = P_{7}[:]/(Mission1.Aircraft.Engine.EngineConstants.R*T_{7}[:])
             P_{5}[:] >= P_{atm}[:]
             M_5[:] <= 1
             a_{5}[:] = (1.39*Mission1.Aircraft.Engine.EngineConstants.R*T_{5}[:])^0.5
             a_{5}[:]*M_5[:] = u_{5}[:]
             \rho_5[:] = P_{5}[:]/(Mission1.Aircraft.Engine.EngineConstants.R*T_{5}[:])
             h_{2}[:] = C_{p_{1}*T_{2}[:]
             \rho_{2}[:] = P_{2}[:]/(Mission1.Aircraft.Engine.EngineConstants.R*T_{2}[:])
             u_{2}[:] = M_2[:]*(C_{p_{1}*Mission1.Aircraft.Engine.EngineConstants.R*T_{2}[:]/781)^0.5
             h_{2.5}[:] = C_{p_{2}*T_{2.5}[:]
             \rho_{2.5}[:] = P_{2.5}[:]/(Mission1.Aircraft.Engine.EngineConstants.R*T_{2.5}[:])
             u_{2.5}[:] = M_{2.5}[:]*(C_{p_{2}*Mission1.Aircraft.Engine.EngineConstants.R*T_{2.5}[:]/781)^0.5
         m_{total}[:]/\alpha_{+1}[:]*1/100*9.81*(1.68e+03 + 17.7*\pi_{f}[:]*\pi_{lc}[:]*\pi_{hc}[:]/30 + 1.66e+03*(\alpha[:]/5)^1.2) <= W_{engine}
           d_{f} = (4*A_{2}/(PI*HTR_{f_{SUB}}))^0.5
           d_{LPC} = (4*A_{2.5}/(PI*HTR_{lpc_{SUB}}))^0.5
           \eta_{B}*f[:]*h_{f} >= [[(1 - \alpha_c)*h_{t_4}[0,0] - (1 - \alpha_c)*h_{t_3}[0,0]], [(1 - \alpha_c)*h_{t_4}[1,0] - (1 - \alpha_c)*h_{t_3}[1,0]], [(1 - \alpha_c)*h_{t_4}[2,0] - (1 - \alpha_c)*h_{t_3}[2,0]], [(1 - \alpha_c)*h_{t_4}[3,0] - (1 - \alpha_c)*h_{t_3}[3,0]], [(1 - \alpha_c)*h_{t_4}[4,0] - (1 - \alpha_c)*h_{t_3}[4,0]]] + C_{p_{fuel}*f[:]*([[T_{t_4}[0,0] - T_{t_f}], [T_{t_4}[1,0] - T_{t_f}], [T_{t_4}[2,0] - T_{t_f}], [T_{t_4}[3,0] - T_{t_f}], [T_{t_4}[4,0] - T_{t_f}]])
           h_{t_{4.1}}[:]*fp1[:] <= (1 - \alpha_c + f[:])*h_{t_4}[:] + \alpha_c*h_{t_3}[:]
           P_{t_4}[:] = \pi_{b}*P_{t_3}[:]
           M_{takeoff}*\eta_{HPshaft}*fp1[:]*([[h_{t_{4.1}}[0,0] - h_{t_{4.5}}[0,0]], [h_{t_{4.1}}[1,0] - h_{t_{4.5}}[1,0]], [h_{t_{4.1}}[2,0] - h_{t_{4.5}}[2,0]], [h_{t_{4.1}}[3,0] - h_{t_{4.5}}[3,0]], [h_{t_{4.1}}[4,0] - h_{t_{4.5}}[4,0]]]) >= [[h_{t_3}[0,0] - h_{t_{2.5}}[0,0]], [h_{t_3}[1,0] - h_{t_{2.5}}[1,0]], [h_{t_3}[2,0] - h_{t_{2.5}}[2,0]], [h_{t_3}[3,0] - h_{t_{2.5}}[3,0]], [h_{t_3}[4,0] - h_{t_{2.5}}[4,0]]]
           M_{takeoff}*\eta_{LPshaft}*fp1[:]*([[h_{t_{4.5}}[0,0] - h_{t_{4.9}}[0,0]], [h_{t_{4.5}}[1,0] - h_{t_{4.9}}[1,0]], [h_{t_{4.5}}[2,0] - h_{t_{4.9}}[2,0]], [h_{t_{4.5}}[3,0] - h_{t_{4.9}}[3,0]], [h_{t_{4.5}}[4,0] - h_{t_{4.9}}[4,0]]]) >= [[h_{t_{2.5}}[0,0] - h_{t_{1.8}}[0,0]], [h_{t_{2.5}}[1,0] - h_{t_{1.8}}[1,0]], [h_{t_{2.5}}[2,0] - h_{t_{1.8}}[2,0]], [h_{t_{2.5}}[3,0] - h_{t_{1.8}}[3,0]], [h_{t_{2.5}}[4,0] - h_{t_{1.8}}[4,0]]] + \alpha[:]*([[h_{t_{2.1}}[0,0] - h_{T_{2}}[0,0]], [h_{t_{2.1}}[1,0] - h_{T_{2}}[1,0]], [h_{t_{2.1}}[2,0] - h_{T_{2}}[2,0]], [h_{t_{2.1}}[3,0] - h_{T_{2}}[3,0]], [h_{t_{2.1}}[4,0] - h_{T_{2}}[4,0]]])
           P_{t_{4.5}}[:] = \pi_{HPT}[:]*P_{t_{4.1}}[:]
           \pi_{HPT}[:] = (T_{t_{4.5}}[:]/T_{t_{4.1}}[:])^3.77163522013
           \pi_{f}[:]*1.7/\pi_{f_D} = (1.05*N_{f}[:]^0.0871)^10
           \pi_{f}[:]*1.7/\pi_{f_D} <= 1.1*(1.06*m_{tild_f}[:]^0.137)^10
           \pi_{f}[:]*1.7/\pi_{f_D} >= 0.9*(1.06*m_{tild_f}[:]^0.137)^10
           m_{f}[:] = m_{fan}[:]*(T_{T_{2}}[:]/T_{ref})^0.5/(P_{T_{2}}[:]/P_{ref})
           \pi_{f}[:] >= 1
           \pi_{lc}[:]*26/\pi_{lc_D} = (1.38*N_{1}[:]^0.566)^10
           \pi_{lc}[:]*26/\pi_{lc_D} <= 1.1*(1.38*m_{tild_lc}[:]^0.122)^10
           \pi_{lc}[:]*26/\pi_{lc_D} >= 0.9*(1.38*m_{tild_lc}[:]^0.122)^10
           \pi_{lc}[:] >= 1
           m_{lc}[:] = m_{core}[:]*(T_{T_{2}}[:]/T_{ref})^0.5/(P_{T_{2}}[:]/P_{ref})
           \pi_{hc}[:]*26/\pi_{hc_D} = (1.38*N_{2}[:]^0.566)^10
           \pi_{hc}[:]*26/\pi_{hc_D} >= 0.9*(1.38*m_{tild_{hc}}[:]^0.122)^10
           \pi_{hc}[:]*26/\pi_{hc_D} <= 1.1*(1.38*m_{tild_{hc}}[:]^0.122)^10
           m_{hc}[:] = m_{core}[:]*(T_{t_{2.5}}[:]/T_{ref})^0.5/(P_{t_{2.5}}[:]/P_{ref})
           \pi_{hc}[:] >= 1
         OPR[:] = \pi_{hc}[:]*\pi_{lc}[:]*\pi_{f}[:]
           P_{t_8}[:] = P_{t_7}[:]
           T_{t_8}[:] = T_{t_7}[:]
           P_{t_6}[:] = P_{t_5}[:]
           T_{t_6}[:] = T_{t_5}[:]
           F_{6}[:]/(M_{takeoff}*m_{core}[:]) + fp1[:]*V[:] <= fp1[:]*u_{6}[:]
           I_{sp}[:] = F_{sp}[:]*a[:]*\alpha_{+1}[:]/(f[:]*g)
           N_{f}[:]*G_{f} = N_{1}[:]
           N_{1}[:] <= 1.1
           N_{2}[:] <= 1.1
         fp1[:]*m_{hc}[:]*M_{takeoff}*P_{t_{2.5}}[:]/P_{t_{4.1}}[:]*(T_{t_{4.1}}[:]/T_{t_{2.5}}[:])^0.5 = m_{htD}
         fp1[:]*m_{lc}[:]*M_{takeoff}*P_{t_{1.8}}[:]/P_{t_{4.5}}[:]*(T_{t_{4.5}}[:]/T_{t_{1.8}}[:])^0.5 = m_{ltD}
           P_{7}[:]/P_{t_7}[:] = (T_{7}[:]/T_{t_7}[:])^3.5
           (T_{7}[:]/T_{t_7}[:])^-1 >= 1 + 0.2*M_7[:]^2
           P_{5}[:]/P_{t_5}[:] = (T_{5}[:]/T_{t_5}[:])^3.583979
           (T_{5}[:]/T_{t_5}[:])^-1 >= 1 + 0.2*M_5[:]^2
           M_{takeoff}*m_{core}[:] = \rho_5[:]*A_{5}*u_{5}[:]/fp1[:]
           m_{fan}[:] = \rho_7[:]*A_{7}*u_{7}[:]
           m_{total}[:] = m_{fan}[:] + m_{core}[:]
           P_{2}[:] = P_{T_{2}}[:]*hold_{2}[:]^-3.512
           T_{2}[:] = T_{T_{2}}[:]*hold_{2}[:]^-1
           m_{fan}[:]/(\rho_{2}[:]*u_{2}[:]) = A_{2}
           P_{2.5}[:] = P_{t_{2.5}}[:]*hold_{2.5}[:]^-3.824857
           T_{2.5}[:] = T_{t_{2.5}}[:]*hold_{2.5}[:]^-1
           m_{core}[:]/(\rho_{2.5}[:]*u_{2.5}[:]) = A_{2.5}
           1.3*fp1[:]*M_{takeoff}*m_{coreD}*2.2/14.1 >= m_{htD}
           0.7*fp1[:]*M_{takeoff}*m_{coreD}*2.2/14.1 <= m_{htD}
           1.3*fp1[:]*M_{takeoff}*m_{coreD}*1.97/6.98 >= m_{ltD}
           0.7*fp1[:]*M_{takeoff}*m_{coreD}*1.97/6.98 <= m_{ltD}
           m_{lc_D} >= 0.7*m_{coreD}/0.649
           m_{lc_D} <= 1.3*m_{coreD}/0.649
           m_{hc_D} >= 0.7*m_{coreD}*1.29/3.23
           m_{hc_D} <= 1.3*m_{coreD}*1.29/3.23
           \bar{m}_{fan_{D}} >= 0.7*\alpha_{OD}*m_{coreD}*0.932/0.405
           \bar{m}_{fan_{D}} <= 1.3*\alpha_{OD}*m_{coreD}*0.932/0.405
           F[:] = F_{spec}[:]
           T_{t_{4.1}}[:] <= T_{t_{4.1_{max}}}
           OPR[:] <= OPR_{max}
     
     VerticalTail
       VerticalTailNoStruct
         C_{L_{vt,yaw}} = 0.85*C_{L_{vt,max}}
         L_{vt,EO} = 0.5*\rho_{TO}*V_1^2*S_{vt}*C_{L_{vt,EO}}
         c_{l_{vt,EO}} >= C_{L_{vt,EO}}*(1 + c_{l_{vt,EO}}/(PI*e_{vt}*A_{vt}))
         A_{vt} = b_{vt}^2/S_{vt}
         b_{vt}*(c_{root_{vt}} + c_{tip_{vt}})/2 >= S_{vt}
         p_{vt} >= 1 + 2*\lambda_{vt}
         2*q_{vt} >= 1 + p_{vt}
         y_{\bar{c}_{vt}} = b_{vt}/3*q_{vt}/p_{vt}
         z_{\bar{c}_{vt}} = b_{vt}/3*q_{vt}/p_{vt}
         0.667*(1 + \lambda_{vt} + \lambda_{vt}^2)*c_{root_{vt}}/q_{vt} = \bar{c}_{vt}
         \lambda_{vt} = c_{tip_{vt}}/c_{root_{vt}}
         \Delta x_{trail_{vt}} >= \Delta x_{lead_{vt}} + c_{root_{vt}}
         \Delta x_{lead_{vt}} + y_{\bar{c}_{vt}}*\tan(\Lambda_{vt}) + 0.25*\bar{c}_{vt} >= l_{vt}
         \lambda_{vt} >= 0.25
         V_{vt} >= V_{vt_{min}}
       
       WingBox
         AR_{vt} = (2*b_{vt})^2/(2*S_{vt})
         0.423*Mission1.Aircraft.VerticalTail.WingBox.r_{w/c}*\tau_{vt}^2*t_{cap} >= 0.92*Mission1.Aircraft.VerticalTail.WingBox.r_{w/c}*\tau_{vt}*t_{cap}^2 + I_{cap}
         \nu^3.94 >= 0.86*p_{vt}^-2.38 + 0.14*p_{vt}^0.56
         W_{web} >= 8*\rho_{web}*g*r_h*\tau_{vt}*t_{web}*(2*S_{vt})^1.5*\nu/(3*AR_{vt}^0.5)
         \tau_{vt} <= 0.14
         W_{struct} >= 0.5*(W_{web} + W_{cap})
         Mission1.Aircraft.VerticalTail.WingBox.M_r >= 2*L_{vt_{max}}*AR_{vt}*p_{vt}/24
         AR_{vt}*2*L_{vt_{max}}*Mission1.Aircraft.VerticalTail.WingBox.N_{lift}*q_{vt}^2/(\tau_{vt}*2*S_{vt}*t_{web}*\sigma_{max,shear}) <= 12
         W_{cap} >= 8*\rho_{cap}*g*Mission1.Aircraft.VerticalTail.WingBox.r_{w/c}*t_{cap}*(2*S_{vt})^1.5*\nu/(3*AR_{vt}^0.5)
         Mission1.Aircraft.VerticalTail.WingBox.N_{lift} = 1
         Mission1.Aircraft.VerticalTail.WingBox.N_{lift}*Mission1.Aircraft.VerticalTail.WingBox.M_r*AR_{vt}*q_{vt}^2*\tau_{vt}/(2*S_{vt}*I_{cap}*\sigma_{max}) <= 8
         \lambda_{vt} = taper
         W_{vt} >= N_{spar}*C_{VT}*(W_{struct} + W_{struct}*f_{VT})
     
     HorizontalTail
       HorizontalTailNoStruct
         \Delta x_{lead_{ht}} + y_{\bar{c}_{ht}}*\tan(\Lambda_{ht}) + 0.25*\bar{c}_{ht} >= l_{ht}
         \Delta x_{trail_{ht}} >= \Delta x_{lead_{ht}} + c_{root_{ht}}
         p_{ht} >= 1 + 2*\lambda_{ht}
         2*q_{ht} >= 1 + p_{ht}
         y_{\bar{c}_{ht}} = b_{ht}/3*q_{ht}/p_{ht}
         0.667*(1 + \lambda_{ht} + \lambda_{ht}^2)*c_{root_{ht}}/q_{ht} = \bar{c}_{ht}
         \lambda_{ht} = c_{tip_{ht}}/c_{root_{ht}}
         S_{ht} = b_{ht}*(c_{root_{ht}} + c_{tip_{ht}})/2
         0.0524*\lambda_{ht}^4 - 0.15*\lambda_{ht}^3 + 0.166*\lambda_{ht}^2 - 0.0706*\lambda_{ht} + 0.0119 <= f(\lambda_{ht})
         e_{ht}*(1 + f(\lambda_{ht})*AR_{ht}) <= 1
         AR_{ht} = b_{ht}^2/S_{ht}
         \lambda_{ht} >= 0.2
         \lambda_{ht} <= 1
       
       WingBox
         AR_{ht} = b_{ht}^2/S_{ht}
         0.423*Mission1.Aircraft.HorizontalTail.WingBox.r_{w/c}*\tau_{ht}^2*t_{cap} >= 0.92*Mission1.Aircraft.HorizontalTail.WingBox.r_{w/c}*\tau_{ht}*t_{cap}^2 + I_{cap}
         \nu^3.94 >= 0.86*p_{ht}^-2.38 + 0.14*p_{ht}^0.56
         W_{web} >= 8*\rho_{web}*g*r_h*\tau_{ht}*t_{web}*S_{ht}^1.5*\nu/(3*AR_{ht}^0.5)
         \tau_{ht} <= 0.14
         W_{struct} >= W_{web} + W_{cap}
         L_{ht_{tri_{out}}} >= L_{ht_{tri}}*b_{ht_{out}}^2/(0.5*b_{ht})^2
         L_{ht_{rect_{out}}} >= L_{ht_{rect}}*b_{ht_{out}}/(0.5*b_{ht})
         2*AR_{ht}*L_{shear}*Mission1.Aircraft.HorizontalTail.WingBox.N_{lift}*q_{ht}^2/(\tau_{ht}*S_{ht}*t_{web}*\sigma_{max,shear}) <= 12
         W_{cap} >= \pi_{M-fac}*8*\rho_{cap}*g*Mission1.Aircraft.HorizontalTail.WingBox.r_{w/c}*t_{cap}*S_{ht}^1.5*\nu/(3*AR_{ht}^0.5)
         Mission1.Aircraft.HorizontalTail.WingBox.N_{lift} = 1
         Mission1.Aircraft.HorizontalTail.WingBox.N_{lift}*Mission1.Aircraft.HorizontalTail.WingBox.M_r*AR_{ht}*q_{ht}^2*\tau_{ht}/(S_{ht}*I_{cap}*\sigma_{max}) <= 8
         L_{ht_{rect}} >= L_{ht_{max}}/2*c_{tip_{ht}}*b_{ht}/S_{ht}
         L_{ht_{max}}/4*(1 - taper)*c_{root_{ht}}*b_{ht}/S_{ht} <= L_{ht_{tri}}
         W_{ht} >= C_{ht}*(W_{struct} + W_{struct}*f_{ht})
     
     LandingGear
       l_n + z_{wing} + y_m*\tan(\gamma) >= l_m
       T = 2*y_m
       x_m >= x_n + B
       x_n >= 5
       \tan(\phi) = \tan(\phi_{min})
       (z_{CG} + l_m)^0*(y_m^2 + B^2)/(\Delta x_n*y_m*\tan(\psi))^2 <= 1
       \tan(\psi) <= \tan(\psi_{max})
       x_{up} - x_m <= l_m/\tan(\theta_{max})
       y_m >= l_m
       S_{sa} = 1/\eta_s*E_{land}/(L_m*\lambda_{LG})
       l_{oleo} = 2.5*S_{sa}
       d_{oleo} = 1.3*(4*\lambda_{LG}*L_m/n_{mg}/(PI*p_{oleo}))^0.5
       l_m >= l_{oleo} + d_{t_m}/2
       F_{w_m} = L_{w_m}*d_{t_m}/(1e+03 [N*in])
       W_{wa,m} = 1.2*F_{w_m}^0.609
       F_{w_n} = L_{w_n}*d_{t_n}/1e+03
       W_{wa,n} = 1.2*F_{w_n}^0.609
       L_{w_m} = L_m/(n_{mg}*n_{wps})
       L_{w_n} = L_n/n_{wps}
       d_{t_m} = 1.63*(L_{w_m}/4.44)^0.315
       w_{t_m} = 0.104*(L_{w_m}/4.44)^0.48
       d_{t_n} = 0.8*d_{t_m}
       w_{t_n} = 0.8*w_{t_m}
       W_{ms} >= 2PI*r_m*t_m*l_m*\rho_{st}*g
       N_s*\lambda_{LG}*L_m/n_{mg} <= \sigma_{y_c}*2PI*r_m*t_m
       W_{mw} = n_{wps}*W_{wa,m}
       W_{ns} >= 2PI*r_n*t_n*l_n*\rho_{st}*g
       \sigma_{y_c}*2PI*r_n*t_n >= N_s*(L_n + L_{n_{dyn}})
       W_{nw} >= n_{wps}*W_{wa,n}
       L_m <= 9.87*E*I_m/(K*l_m)^2
       I_m = PI*r_m^3*t_m
       L_n <= 9.87*E*I_n/(K*l_n)^2
       I_n = PI*r_n^3*t_n
       2*r_m/t_m <= 40
       2*r_m/t_n <= 40
       h_{hold} >= 2*w_{t_m} + 2*r_m
       0.8 >= 2*w_{t_n} + 2*r_n
       W_{mg} >= n_{mg}*(W_{ms} + W_{mw}*(1 + f_{add,m}))
       W_{ng} >= W_{ns} + W_{nw}*(1 + f_{add,n})
       W_{lg} >= C_{lg}*(W_{mg} + W_{ng})
       W_{lg}*x_{CG_{lg}} >= W_{ng}*x_n + W_{mg}*x_m
       x_m >= x_{CG_{lg}}
     c_{root} = c_0
     Mission1.Aircraft.Wing.WingBox.r_{w/c} = Mission1.Aircraft.Fuselage.r_{w/c}
     x_w = x_{wing}
     Mission1.Aircraft.Fuselage.N_{lift} = Mission1.Aircraft.Wing.WingBox.N_{lift}
     f_{L_{total/wing}}*L_{max} >= Mission1.Aircraft.Wing.WingBox.N_{lift}*W_{total, max} + L_{ht_{max}}
     W_{dry}[:] >= W_{fuse} + n_{eng}*W_{engsys} + W_{tail} + W_{wing} + W_{misc}
     W_{f_{total}}[:] + W_{dry}[:] + W_{payload}[:] <= W_{total}[:]
     W_{f_{total}}[:] + W_{dry}[:] + W_{payload}[:] <= W_{total}[:]
     W_{f_{total}}[:] >= W_{f_{primary}}[:] + f_{fuel_{res}}*W_{f_{primary}}[:]
     W_{f_{primary}}[:] >= W_{f_{climb}}[:] + W_{f_{cruise}}[:]
     W_{total}[:] <= W_{total, max}
     f_{wingfuel}*W_{f_{total}}[:]/FuelFrac <= W_{fuel_{wing}}
     W_{misc} >= W_{lg} + W_{hpesys}
     W_{hpesys} = f_{hpesys}*W_{total, max}
     x_n <= l_{nose}
     x_m >= x_{wing}
     \Delta x_{AC_{wing}} + x_{wing} >= x_m
     x_{hpesys} = 1.1*l_{nose}
     x_{misc}*W_{misc} >= x_{hpesys}*W_{hpesys}
     d_{nacelle} >= d_{f} + 2*t_{nacelle}
     E_{land} >= W_{total, max}/(2*g)*w_{ult}^2
     x_{up} = x_{shell2}
     L_n = W_{total, max}*\Delta x_m/B
     L_m = W_{total, max}*\Delta x_n/B
     L_{n_{dyn}} >= 0.31*(z_{CG} + l_m)/B*W_{total, max}
     y_{eng} >= y_m
     3*n_{vt}*Mission1.Aircraft.VerticalTail.WingBox.M_r*c_{root_{vt}}*(p_{\lambda_{vt}} - 1) >= n_{vt}*L_{vt_{max}}*b_{vt}*p_{\lambda_{vt}}
     V_{cone}*(1 + \lambda_{cone})*(PI + 4*\theta_{db}) >= n_{vt}*Mission1.Aircraft.VerticalTail.WingBox.M_r*c_{root_{vt}}/\tau_{cone}*(PI + 2*\theta_{db})*l_{cone}/R_{fuse}
     W_{tail} >= n_{vt}*W_{vt} + W_{ht}
     2*w_{fuse} >= SPR*w_{seat} + n_{aisle}*w_{aisle} + 2*w_{sys} + t_{db}
     B_{1v} = r_{M_v}*n_{vt}*L_{vt_{max}}/(w_{fuse}*\sigma_{M_v})
     m_{ratio}*(1 + 2/AR) = 1 + 2/AR_{ht}
     x_{CG_{ht}} <= l_{fuse}
     V_{ht} = S_{ht}*l_{ht}/(S*mac)
     L_{ht_{max}} >= 0.5*\rho_{T/O}*V_{ne}^2*S_{ht}*C_{L_{ht,max}}
     L_{vt_{max}} >= 0.5*\rho_{T/O}*V_{ne}^2*S_{vt}*C_{L_{vt,max}}
     x_{CG_{vt}} <= l_{fuse}
     V_{vt} = n_{vt}*S_{vt}*l_{vt}/(S*b)
     n_{vt}*0.5*\rho_{TO}*V_{land}^2*S_{vt}*l_{vt}*C_{L_{vt,yaw}} >= \dot{r}_{req}*I_{z, max}
     n_{vt}*L_{vt,EO}*l_{vt} >= T_e*y_{eng} + D_{wm}*y_{eng}
     D_{wm} >= 0.5*\rho_{TO}*V_1^2.0*A_{2}*C_{D_{wm}}
     I_{z}[:] >= I_{z_{wing}}[:] + I_{z_{tail}}[:] + I_{z_{fuse}}[:]
     I_{z}[:] <= I_{z, max}
     S_{nacelle} = r_{S_{nacelle}}*PI*0.25*d_{f}^2
     l_{nacelle} = 0.15*d_{f}*r_{S_{nacelle}}
     f_{S_{nacelle}} = S_{nacelle}*S^-1
     A_{inlet} = 0.4*S_{nacelle}
     A_{fancowl} = 0.2*S_{nacelle}
     A_{exh} = 0.4*S_{nacelle}
     A_{corecowl} = 3PI*d_{LPC}^2
       W_{nacelle} >= ((2.5 + 0.238*d_{f})*A_{inlet} + 1.9*A_{fancowl} + (2.5 + 0.0363*d_{f})*A_{exh} + 1.9*A_{corecowl})
       W_{eadd} = f_{eadd}*W_{engine}
     W_{pylon} >= (W_{nacelle} + W_{eadd} + W_{engine})*f_{pylon}
     W_{engsys} >= C_{engsys}*(W_{pylon} + W_{nacelle} + W_{eadd} + W_{engine})
     y_{eng} = 0.5*w_{fuse}
     (L_{max} - Mission1.Aircraft.Wing.WingBox.N_{lift}*(W_{wing} + f_{wingfuel}*W_{f_{total}}[:]))*b^2/(12*S)*(c_{root} + 2*c_{tip}) <= Mission1.Aircraft.Wing.WingBox.M_r*c_{root}
     A_{1h_{Land}} >= N_{land}*(W_{tail} + n_{eng}*W_{engsys} + W_{apu})/(h_{fuse}*\sigma_{bend})
     A_{1h_{MLF}} >= (Mission1.Aircraft.Fuselage.N_{lift}*(W_{tail} + n_{eng}*W_{engsys} + W_{apu}) + r_{M_h}*L_{ht_{max}})/(h_{fuse}*\sigma_{M_h})
     I_{z_{wing}}[:] >= (W_{fuel_{wing}} + W_{wing})/(S*9.81)*c_{root}*b^3.0*(0.0833 - (1 - \lambda)/16)
     I_{z_{tail}}[:] >= (W_{apu} + W_{vt} + n_{eng}*W_{engsys})*l_{vt}^2.0/9.81 + W_{ht}*l_{ht}^2.0/9.81
     I_{z_{fuse}}[:] >= (W_{fuse} + W_{payload_{max}})/l_{fuse}*(x_{wing}^3.0 + l_{vt}^3.0)/(3*9.81)
     x_{shell2} + l_{cone} >= x_{eng}
     x_{eng} >= x_{shell2} + 0.75*l_{cone}
     S_{floor} = 0.312*P_{floor}
     M_{floor} = 0.0352*P_{floor}*w_{floor}
     \Delta R_{fuse} = R_{fuse}*0.43/1.75
     b_{ht}/4*L_{ht_{rect}} + b_{ht}/3*L_{ht_{tri}} = b_{ht_{out}}*L_{ht_{max}}/2
     b_{ht_{out}} = 0.5*b_{ht} - w_{fuse}
     L_{ht_{rect}}*b_{ht}/4 + L_{ht_{tri}}*b_{ht}/6 - w_{fuse}*L_{ht_{max}}/2 <= Mission1.Aircraft.HorizontalTail.WingBox.M_r*c_{root_{ht}}
     M_{r_{out}}*c_{attach} >= L_{ht_{rect_{out}}}*0.5*b_{ht_{out}} + L_{ht_{tri_{out}}}*0.333*b_{ht_{out}}
     L_{shear} >= L_{ht_{rect_{out}}} + L_{ht_{tri_{out}}}
     c_{tip_{ht}} + (1 - \lambda_{ht})*2*b_{ht_{out}}/b_{ht}*c_{root_{ht}} = c_{attach}
     \pi_{M-fac} >= (0.5*(M_{r_{out}}*c_{attach} + Mission1.Aircraft.HorizontalTail.WingBox.M_r*c_{root_{ht}})*w_{fuse}/(0.5*M_{r_{out}}*c_{attach}*b_{ht_{out}}) + 1)*b_{ht_{out}}/(0.5*b_{ht})
 
 FlightSegment
   FlightState
       V[:] = V[:]
       a[:] = (\gamma[:]*R[:]*T_{atm}[:])^0.5
       V[:] = M[:]*a[:]
     
     Altitude
       h[:] = hft[:]
     
     Atmosphere
       (P_{atm}[:]/p_{sl}[:])^0.190222560396 = T_{atm}[:]/T_{sl}[:]
       \rho[:] = P_{atm}[:]/(R_{atm}[:]/M_{atm}[:]*T_{atm}[:])
       T_{sl}[:] = T_{atm}[:] + L_{atm}[:]*h[:]
       \mu[:] = C_1[:]*T_{atm}[:]^1.5/(6.64*T_s[:]^0.72)
   
   FlightP
     P_{excess}[:] + V[:]*D[:] <= V[:]*n_{eng}*F[:]
     RC[:] = P_{excess}[:]/W_{avg}[:]
     \theta[:]*V[:] = RC[:]
     dhft[:] = tmin[:]*RC[:]
     R_{segment}[:] = thr[:]*V[:]
       WingPerformance
         0.5*\rho[:]*V[:]^2*S*C_{L}[:] >= L_w[:] + \Delta L_{o}[:] + 2*\Delta L_{t}[:]
         \Delta L_{o}[:] = \eta_{o}[:]*f_{L_{o}}[:]*b/2*p_{o}[:]
         \Delta L_{t}[:] = f_{L_{t}}[:]*p_{o}[:]*c_{root}*taper^2
         (AR/\eta)^2*(1 + \tan(\Lambda)^2 - M[:]^2) + 8PI*AR/C_{L_{\alpha,w}}[:] = (2PI*AR/C_{L_{\alpha,w}}[:])^2
         C_{L}[:] = C_{L_{\alpha,w}}[:]*\alpha_w[:]
         \alpha_w[:] <= \alpha_{max,w}[:]
         D_{wing}[:] = 0.5*\rho[:]*V[:]^2*S*C_{d_w}[:]
         C_{d_w}[:] >= C_{D_{p_w}}[:] + C_{D_{i_w}}[:]
         C_{D_{i_w}}[:] >= TipReduct*C_{L}[:]^2/(PI*e*AR)
         Re_w[:] = \rho[:]*V[:]*mac/\mu[:]
         C_{D_{p_w}}[:]^1.6515 >= 1.61*(Re_w[:]/1e+03)^-0.550434*\tau^1.29151*(\cos(\Lambda)*M[:])^3.03609*C_{L}[:]^1.77743 + 0.0466*(Re_w[:]/1e+03)^-0.389048*\tau^0.784123*(\cos(\Lambda)*M[:])^-0.340157*C_{L}[:]^0.950763 + 191*(Re_w[:]/1e+03)^-0.218621*\tau^3.94654*(\cos(\Lambda)*M[:])^19.2524*C_{L}[:]^1.15233 + 2.82e-12*(Re_w[:]/1e+03)^1.18147*\tau^-1.75664*(\cos(\Lambda)*M[:])^0.10563*C_{L}[:]^-1.44114
       
       FuselagePerformance
         (no constraints)
       
       VerticalTailPerformance
         D_{vt}[:] >= 0.5*\rho[:]*V[:]^2*S_{vt}*C_{D_{vis}}[:]
         Re_{vt}[:] = \rho[:]*V[:]*\bar{c}_{vt}/\mu[:]
         C_{D_{vis}}[:]^1.18909 >= 2.44e-77*Re_{vt}[:]^-0.52841*\tau_{vt}^133.796*M[:]^1022.7 + 0.00304*Re_{vt}[:]^-0.409988*\tau_{vt}^1.22062*M[:]^1.55119 + 0.000197*Re_{vt}[:]^0.214479*\tau_{vt}^-0.0383195*M[:]^-0.137561 + 6.59e-50*Re_{vt}[:]^-0.498092*\tau_{vt}^1.55922*M[:]^-114.577
       
       HorizontalTailPerformance
         L_{ht}[:] = 0.5*\rho[:]*V[:]^2*S_{ht}*C_{L_{ht}}[:]
         C_{L_{ht}}[:] = C_{L_{\alpha,ht}}[:]*\alpha_{ht}[:]
         \alpha_{ht}[:] <= \alpha_{ht,max}
         C_{L_{\alpha,ht_0}}[:] = 6.28
         D_{ht}[:] = 0.5*\rho[:]*V[:]^2*S_{ht}*C_{D_{ht}}[:]
         C_{D_{ht}}[:] >= C_{D_{0,ht}}[:] + C_{L_{ht}}[:]^2/(PI*e_{ht}*AR_{ht})
         Re_{c_h}[:] = \rho[:]*V[:]*\bar{c}_{ht}/\mu[:]
         C_{D_{0,ht}}[:]^6.48983 >= 5.29e-20*Re_{c_h}[:]^0.900672*\tau_{ht}^0.912222*M[:]^8.64547 + 1.68e-28*Re_{c_h}[:]^0.350958*\tau_{ht}^6.29187*M[:]^10.2559 + 7.1e-25*Re_{c_h}[:]^1.39489*\tau_{ht}^1.96239*M[:]^0.567066 + 3.73e-14*Re_{c_h}[:]^-2.57406*\tau_{ht}^3.12793*M[:]^0.448159 + 1.44e-12*Re_{c_h}[:]^-3.91046*\tau_{ht}^4.66279*M[:]^7.68852
       W_{burn}[:] = W_{burn}[:]
       F_{fuel}[:] = F_{fuel}[:]
       \rho_{cabin}[:] = P_{cabin}[:]/(R[:]*T_{cabin}[:])
       P_{cabin}[:] = 7.5e+04
       T_{cabin}[:] = 297
       V[:] >= V_{stall}[:]
       W_{avg}[:] >= (W_{start}[:]*W_{end}[:])^0.5 + W_{buoy}[:]
       tmin[:] = thr[:]
       L_{fuse}[:] = (f_{L_{total/wing}} - 1)*L_w[:]
       L_{total}[:] = f_{L_{total/wing}}*L_w[:]
       L_{total}[:] >= W_{avg}[:] + L_{ht}[:]
       D_{fuse}[:] = 0.5*\rho[:]*V[:]^2*C_{D_{fuse}}[:]*l_{fuse}*R_{fuse}*M[:]^2/M_{fuseD}^2
       D[:] >= D_{reduct}*(D_{wing}[:] + D_{fuse}[:] + n_{vt}*D_{vt}[:] + D_{ht}[:] + n_{eng}*D_{nacelle}[:])
       C_D[:] = D[:]/(0.5*\rho[:]*V[:]^2*S)
       L/D[:] = W_{avg}[:]/D[:]
       W_{Load}[:] <= W_{Load_{max}}[:]
       W_{Load}[:] = 0.5*C_{L}[:]*S*\rho[:]*V[:]^2/S
       p_{o}[:] >= L_w[:]*c_{root}/S
       \eta_{o}[:] = w_{fuse}/(b/2)
       x_{AC}[:] <= x_{wing} + 0.25*\Delta x_{AC_{wing}} + x_{NP}[:]
       c_{m_{w}}[:] = 1.9
       x_{NP}[:]/mac/V_{ht}*(AR + 2)*(1 + 2/AR_{ht}) = (1 + 2/AR)*(AR - 2)
       x_{CG}[:] + \Delta x_{trail_{vt}} <= l_{fuse}
       x_{CG}[:] + 0.5*(\Delta x_{lead_{vt}} + \Delta x_{trail_{vt}}) <= x_{CG_{vt}}
       x_{CG}[:] + 0.5*(\Delta x_{lead_{ht}} + \Delta x_{trail_{ht}}) <= x_{CG_{ht}}
       C_{L_{\alpha,ht}}[:] + 2*C_{L_{\alpha,w}}[:]/(PI*AR)*\eta_{ht}*C_{L_{\alpha,ht_0}}[:] <= C_{L_{\alpha,ht_0}}[:]*\eta_{ht}
       AR_{ht} >= 4
       C_{L_{ht}}[:] >= 0.01
       SM[:] <= ([[x_{AC}[0,0] - x_{CG}[0,0]], [x_{AC}[1,0] - x_{CG}[1,0]], [x_{AC}[2,0] - x_{CG}[2,0]], [x_{AC}[3,0] - x_{CG}[3,0]], [x_{AC}[4,0] - x_{CG}[4,0]]])/mac
       SM[:] >= SM_{min}
       SM_{min} + \Delta x_{CG}/mac + c_{m_{w}}[:]/C_{L_{w,max}} <= V_{ht}*m_{ratio} + V_{ht}*C_{L_{ht,max}}/C_{L_{w,max}}
       x_{AC}[:]/mac <= x_{CG}[:]/mac + c_{m_{w}}[:]/C_{L}[:] + V_{ht}*C_{L_{ht}}[:]/C_{L}[:]
       R_{e_{nacelle}}[:] = \rho[:]*V[:]*l_{nacelle}/\mu[:]
       C_{f_{nacelle}}[:] = 0.279/R_{e_{nacelle}}[:]^0.2
       V_{nacelle}[:] = r_{v_{nacelle}}*V[:]
       V_{nacelle_ratio}[:] >= [[V_{nacelle}[0,0]*2/V[0,0] - V_2[0,0]/V[0,0]], [V_{nacelle}[1,0]*2/V[1,0] - V_2[1,0]/V[1,0]], [V_{nacelle}[2,0]*2/V[2,0] - V_2[2,0]/V[2,0]], [V_{nacelle}[3,0]*2/V[3,0] - V_2[3,0]/V[3,0]], [V_{nacelle}[4,0]*2/V[4,0] - V_2[4,0]/V[4,0]]]
       r_{v_{nsurf}}[:]^3.0 >= 0.25*(V_{nacelle_ratio}[:] + r_{v_{nacelle}})*(V_{nacelle_ratio}[:]^2.0 + r_{v_{nacelle}}^2.0)
       C_{d_{nacelle}}[:] = f_{S_{nacelle}}*C_{f_{nacelle}}[0]*r_{v_{nsurf}}[:]^3.0
       D_{nacelle}[:] = C_{d_{nacelle}}[:]*0.5*\rho[:]*V[:]^2.0*S
       \Delta x_{lead_{vt}} + b_{vt}/\tan(\Lambda_{vt}) + w_{fuse}/\tan(\Lambda_{ht}) + c_{root_{ht}} >= \Delta x_{trail_{ht}}
   M_2[:3] = M[:3]
   M_{2.5}[:3] = 0.6
   hold_{2}[:3] = 1.07164
   hold_{2.5}[:3] = 1.06372
   P_{excess}[:] + V[:]*D[:] <= V[:]*n_{eng}*F_{spec}[:]
   c1[:] = 1 + 0.201*M[:]^2.0
   M_2[3:] = M[3:]
   M_{2.5}[3:] = 0.6
   hold_{2}[3:] = 1.07164
   hold_{2.5}[3:] = 1.06372
Beginning signomial solve.
Using solver 'mosek'
Solving for 1748 variables.
Number of Hessian non-zeros: 2054
* Solving exponential optimization problem on dual form. *
* The following log information refers to the solution of the dual problem. *
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer started.
Presolve started.
Linear dependency checker started.
Linear dependency checker terminated.
Eliminator started.
Freed constraints in eliminator : 471
Eliminator terminated.
Eliminator started.
Freed constraints in eliminator : 6
Eliminator terminated.
Eliminator - tries                  : 2                 time                   : 0.00            
Lin. dep.  - tries                  : 1                 time                   : 0.00            
Lin. dep.  - number                 : 0               
Presolve terminated. Time: 0.01    
Matrix reordering started.
Local matrix reordering started.
Local matrix reordering terminated.
Matrix reordering terminated.
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer  - threads                : 8               
Optimizer  - solved problem         : the primal      
Optimizer  - Constraints            : 869
Optimizer  - Cones                  : 0
Optimizer  - Scalar variables       : 3451              conic                  : 0               
Optimizer  - Semi-definite variables: 0                 scalarized             : 0               
Factor     - setup time             : 0.03              dense det. time        : 0.00            
Factor     - ML order time          : 0.00              GP order time          : 0.02            
Factor     - nonzeros before factor : 1.48e+04          after factor           : 1.46e+05        
Factor     - dense dim.             : 0                 flops                  : 2.87e+07        
Factor     - GP saved nzs           : 3.32e+04          GP saved flops         : 9.06e+05        
ITE PFEAS    DFEAS    GFEAS    PRSTATUS   POBJ              DOBJ              MU       TIME  
0   2.3e+03  3.1e+03  1.2e+05  0.00e+00   -1.225677090e+05  2.000000000e+00   1.0e+00  0.04  
1   1.6e+03  2.1e+03  8.4e+04  -9.71e-01  -1.216848616e+05  2.766603376e+00   6.9e-01  0.05  
2   8.2e+02  1.1e+03  4.4e+04  -9.57e-01  -1.192284454e+05  5.074629256e+00   3.6e-01  0.05  
3   2.9e+02  3.9e+02  1.6e+04  -9.16e-01  -1.104950334e+05  2.156321042e+01   1.3e-01  0.06  
4   2.9e+02  3.9e+02  1.6e+04  -7.68e-01  -1.085357608e+05  1.724066982e+03   1.3e-01  0.07  
5   1.1e+02  1.5e+02  6.0e+03  -7.59e-01  -8.496747542e+04  6.645584441e+03   4.9e-02  0.08  
6   3.8e+01  5.0e+01  2.0e+03  -4.14e-01  -4.573108853e+04  1.064008602e+04   1.7e-02  0.08  
7   2.0e+01  2.7e+01  1.1e+03  2.50e-01   -2.853524473e+04  6.956951010e+03   9.0e-03  0.09  
8   9.4e+00  1.3e+01  5.1e+02  5.70e-01   -1.401680654e+04  4.219068590e+03   4.2e-03  0.10  
9   4.7e+00  6.4e+00  2.6e+02  8.27e-01   -7.046366663e+03  2.497942694e+03   2.1e-03  0.11  
10  1.4e+00  1.9e+00  7.8e+01  9.33e-01   -2.013352976e+03  9.403827672e+02   6.4e-04  0.11  
11  6.4e-01  8.6e-01  3.5e+01  9.93e-01   -6.804485566e+02  6.596896968e+02   2.9e-04  0.12  
12  4.8e-01  6.5e-01  2.6e+01  9.96e-01   -4.518204661e+02  5.573058292e+02   2.2e-04  0.13  
13  3.5e-01  7.3e-01  1.9e+01  9.80e-01   -2.686036694e+02  4.735665754e+02   1.6e-04  0.14  
14  1.7e-01  3.6e-01  9.5e+00  9.96e-01   -1.706351213e+00  3.632401846e+02   7.9e-05  0.14  
15  5.7e-02  1.5e-01  3.2e+00  9.94e-01   1.663588588e+02   2.900324402e+02   2.7e-05  0.15  
16  3.3e-02  1.3e-01  1.9e+00  1.00e+00   2.025528074e+02   2.744117059e+02   1.6e-05  0.16  
17  5.1e-03  1.9e-01  3.2e-01  1.00e+00   2.450077405e+02   2.572047198e+02   2.8e-06  0.17  
18  1.5e-03  1.3e-01  9.4e-02  1.00e+00   2.510860215e+02   2.546831567e+02   8.5e-07  0.17  
19  4.8e-04  1.1e-01  3.1e-02  1.00e+00   2.528335324e+02   2.540184841e+02   2.8e-07  0.18  
20  2.1e-04  8.8e-02  1.3e-02  1.00e+00   2.533175848e+02   2.538309261e+02   1.2e-07  0.19  
21  1.9e-04  8.0e-02  1.2e-02  1.00e+00   2.533556918e+02   2.538177109e+02   1.1e-07  0.20  
22  1.7e-04  7.3e-02  1.1e-02  1.00e+00   2.533889178e+02   2.538047106e+02   9.9e-08  0.20  
23  1.5e-04  6.6e-02  9.8e-03  1.00e+00   2.534188561e+02   2.537930533e+02   9.0e-08  0.21  
24  1.4e-04  6.0e-02  8.8e-03  1.00e+00   2.534457755e+02   2.537825390e+02   8.1e-08  0.22  
25  1.2e-04  5.5e-02  7.9e-03  1.00e+00   2.534699859e+02   2.537730615e+02   7.3e-08  0.23  
26  1.1e-04  5.0e-02  7.1e-03  1.00e+00   2.534917592e+02   2.537645177e+02   6.5e-08  0.23  
27  1.0e-04  4.6e-02  6.4e-03  1.00e+00   2.535113429e+02   2.537568176e+02   5.9e-08  0.24  
28  9.0e-05  4.2e-02  5.8e-03  1.00e+00   2.535289580e+02   2.537498787e+02   5.3e-08  0.25  
29  8.1e-05  3.9e-02  5.2e-03  1.00e+00   2.535448032e+02   2.537436266e+02   4.8e-08  0.26  
30  7.3e-05  3.6e-02  4.7e-03  1.00e+00   2.535590570e+02   2.537379938e+02   4.3e-08  0.27  
31  6.6e-05  3.3e-02  4.2e-03  1.00e+00   2.535718796e+02   2.537329193e+02   3.9e-08  0.27  
32  5.9e-05  3.0e-02  3.8e-03  1.00e+00   2.535834151e+02   2.537283480e+02   3.5e-08  0.28  
33  5.3e-05  2.8e-02  3.4e-03  1.00e+00   2.535937929e+02   2.537242304e+02   3.1e-08  0.29  
34  4.8e-05  2.6e-02  3.1e-03  1.00e+00   2.536031295e+02   2.537205215e+02   2.8e-08  0.30  
35  4.3e-05  2.4e-02  2.8e-03  1.00e+00   2.536115294e+02   2.537171809e+02   2.5e-08  0.30  
36  3.9e-05  2.2e-02  2.5e-03  1.00e+00   2.536190868e+02   2.537141721e+02   2.3e-08  0.31  
37  3.5e-05  2.1e-02  2.2e-03  1.00e+00   2.536258864e+02   2.537114623e+02   2.0e-08  0.32  
38  3.1e-05  2.0e-02  2.0e-03  1.00e+00   2.536320042e+02   2.537090219e+02   1.8e-08  0.33  
39  2.8e-05  1.8e-02  1.8e-03  1.00e+00   2.536375087e+02   2.537068241e+02   1.7e-08  0.33  
40  2.5e-05  1.7e-02  1.6e-03  1.00e+00   2.536424614e+02   2.537048450e+02   1.5e-08  0.34  
41  2.3e-05  1.6e-02  1.5e-03  1.00e+00   2.536469178e+02   2.537030627e+02   1.3e-08  0.35  
42  2.1e-05  1.6e-02  1.3e-03  1.00e+00   2.536509277e+02   2.537014579e+02   1.2e-08  0.36  
43  1.9e-05  1.5e-02  1.2e-03  1.00e+00   2.536545358e+02   2.537000129e+02   1.1e-08  0.37  
44  1.7e-05  1.4e-02  1.1e-03  1.00e+00   2.536577825e+02   2.536987118e+02   9.8e-09  0.37  
45  1.5e-05  1.3e-02  9.6e-04  1.00e+00   2.536607040e+02   2.536975404e+02   8.8e-09  0.38  
46  1.3e-05  1.3e-02  8.7e-04  1.00e+00   2.536633330e+02   2.536964857e+02   7.9e-09  0.39  
47  1.2e-05  1.2e-02  7.8e-04  1.00e+00   2.536656987e+02   2.536955361e+02   7.1e-09  0.40  
48  1.1e-05  1.2e-02  7.0e-04  1.00e+00   2.536678276e+02   2.536946813e+02   6.4e-09  0.40  
49  9.8e-06  1.1e-02  6.3e-04  1.00e+00   2.536697434e+02   2.536939118e+02   5.8e-09  0.41  
50  8.9e-06  1.1e-02  5.7e-04  1.00e+00   2.536714675e+02   2.536932190e+02   5.2e-09  0.42  
51  8.0e-06  1.1e-02  5.1e-04  1.00e+00   2.536730190e+02   2.536925954e+02   4.7e-09  0.43  
52  7.2e-06  1.0e-02  4.6e-04  1.00e+00   2.536744152e+02   2.536920340e+02   4.2e-09  0.43  
53  6.5e-06  1.0e-02  4.1e-04  1.00e+00   2.536756717e+02   2.536915286e+02   3.8e-09  0.44  
54  5.8e-06  9.8e-03  3.7e-04  1.00e+00   2.536768025e+02   2.536910737e+02   3.4e-09  0.45  
55  5.2e-06  9.6e-03  3.4e-04  1.00e+00   2.536778201e+02   2.536906643e+02   3.1e-09  0.46  
56  4.7e-06  9.4e-03  3.0e-04  1.00e+00   2.536787359e+02   2.536902957e+02   2.8e-09  0.46  
57  4.2e-06  9.2e-03  2.7e-04  1.00e+00   2.536795600e+02   2.536899639e+02   2.5e-09  0.47  
58  3.8e-06  9.0e-03  2.5e-04  1.00e+00   2.536803017e+02   2.536896652e+02   2.2e-09  0.48  
59  3.4e-06  8.9e-03  2.2e-04  1.00e+00   2.536809692e+02   2.536893963e+02   2.0e-09  0.49  
60  3.1e-06  8.8e-03  2.0e-04  1.00e+00   2.536815699e+02   2.536891543e+02   1.8e-09  0.49  
61  1.2e-06  3.4e-03  7.7e-05  1.00e+00   2.536848849e+02   2.536878177e+02   7.0e-10  0.50  
62  1.1e-06  3.0e-03  6.9e-05  1.00e+00   2.536850944e+02   2.536877339e+02   6.3e-10  0.51  
63  3.8e-07  1.1e-03  2.5e-05  1.00e+00   2.536863010e+02   2.536872470e+02   2.3e-10  0.52  
64  3.5e-07  9.8e-04  2.2e-05  1.00e+00   2.536863685e+02   2.536872198e+02   2.0e-10  0.53  
65  3.1e-07  8.8e-04  2.0e-05  1.00e+00   2.536864291e+02   2.536871953e+02   1.8e-10  0.53  
66  2.8e-07  7.9e-04  1.8e-05  1.00e+00   2.536864836e+02   2.536871733e+02   1.7e-10  0.54  
67  2.5e-07  7.1e-04  1.6e-05  1.00e+00   2.536865328e+02   2.536871534e+02   1.5e-10  0.55  
68  2.3e-07  6.4e-04  1.5e-05  1.00e+00   2.536865770e+02   2.536871356e+02   1.3e-10  0.56  
69  2.0e-07  5.8e-04  1.3e-05  1.00e+00   2.536866167e+02   2.536871195e+02   1.2e-10  0.56  
70  1.8e-07  5.2e-04  1.2e-05  1.00e+00   2.536866525e+02   2.536871050e+02   1.1e-10  0.57  
71  1.7e-07  4.7e-04  1.1e-05  1.00e+00   2.536866848e+02   2.536870920e+02   9.8e-11  0.58  
72  1.5e-07  4.2e-04  9.6e-06  1.00e+00   2.536867138e+02   2.536870803e+02   8.8e-11  0.59  
73  1.3e-07  3.8e-04  8.6e-06  1.00e+00   2.536867399e+02   2.536870697e+02   7.9e-11  0.59  
74  1.2e-07  3.4e-04  7.8e-06  1.00e+00   2.536867634e+02   2.536870602e+02   7.1e-11  0.60  
75  1.1e-07  3.1e-04  7.0e-06  1.00e+00   2.536867845e+02   2.536870517e+02   6.4e-11  0.61  
76  9.8e-08  2.8e-04  6.3e-06  1.00e+00   2.536868035e+02   2.536870440e+02   5.8e-11  0.62  
77  8.8e-08  2.5e-04  5.7e-06  1.00e+00   2.536868206e+02   2.536870371e+02   5.2e-11  0.63  
78  7.9e-08  2.2e-04  5.1e-06  1.00e+00   2.536868360e+02   2.536870308e+02   4.7e-11  0.63  
79  7.1e-08  2.0e-04  4.6e-06  1.00e+00   2.536868499e+02   2.536870252e+02   4.2e-11  0.64  
80  6.4e-08  1.8e-04  4.1e-06  1.00e+00   2.536868624e+02   2.536870202e+02   3.8e-11  0.65  
81  5.8e-08  1.6e-04  3.7e-06  1.00e+00   2.536868736e+02   2.536870156e+02   3.4e-11  0.66  
82  5.2e-08  1.5e-04  3.3e-06  1.00e+00   2.536868837e+02   2.536870115e+02   3.1e-11  0.67  
83  4.7e-08  1.3e-04  3.0e-06  1.00e+00   2.536868928e+02   2.536870078e+02   2.8e-11  0.67  
84  4.2e-08  1.2e-04  2.7e-06  1.00e+00   2.536869010e+02   2.536870045e+02   2.5e-11  0.68  
85  3.8e-08  1.1e-04  2.4e-06  1.00e+00   2.536869084e+02   2.536870015e+02   2.2e-11  0.69  
86  3.4e-08  9.7e-05  2.2e-06  1.00e+00   2.536869150e+02   2.536869988e+02   2.0e-11  0.70  
87  3.1e-08  8.7e-05  2.0e-06  1.00e+00   2.536869210e+02   2.536869964e+02   1.8e-11  0.70  
88  2.8e-08  7.8e-05  1.8e-06  9.99e-01   2.536869263e+02   2.536869943e+02   1.6e-11  0.71  
89  2.5e-08  7.0e-05  1.6e-06  1.00e+00   2.536869312e+02   2.536869923e+02   1.5e-11  0.72  
90  2.2e-08  6.3e-05  1.4e-06  1.00e+00   2.536869355e+02   2.536869905e+02   1.3e-11  0.73  
91  2.0e-08  5.7e-05  1.3e-06  1.00e+00   2.536869394e+02   2.536869889e+02   1.2e-11  0.74  
92  1.8e-08  5.1e-05  1.2e-06  9.99e-01   2.536869429e+02   2.536869875e+02   1.1e-11  0.74  
93  1.6e-08  4.6e-05  1.0e-06  1.00e+00   2.536869461e+02   2.536869862e+02   9.6e-12  0.75  
94  1.5e-08  4.2e-05  9.4e-07  1.00e+00   2.536869490e+02   2.536869851e+02   8.6e-12  0.76  
95  1.3e-08  3.7e-05  8.5e-07  9.99e-01   2.536869515e+02   2.536869840e+02   7.8e-12  0.77  
96  1.2e-08  3.4e-05  7.7e-07  9.98e-01   2.536869538e+02   2.536869831e+02   7.0e-12  0.78  
97  1.1e-08  3.0e-05  6.9e-07  9.99e-01   2.536869559e+02   2.536869822e+02   6.3e-12  0.78  
Optimizer terminated. Time: 0.79    

solsta = 1, prosta = 1

Interior-point solution summary
  Problem status  : PRIMAL_AND_DUAL_FEASIBLE
  Solution status : OPTIMAL
  Primal.  obj: 2.5368695593e+02    nrm: 4e+01    Viol.  con: 2e-07    var: 0e+00  
  Dual.    obj: 2.5368698225e+02    nrm: 8e+02    Viol.  con: 0e+00    var: 2e-04  
* End solution on dual form. *
Transforming to primal solution.
Solving took 0.811 seconds.
Using solver 'mosek'
Solving for 1748 variables.
MOSEK warning 710: #1 (nearly) zero elements are specified in sparse col '' (450) of matrix 'A'.
Number of Hessian non-zeros: 2054
* Solving exponential optimization problem on dual form. *
* The following log information refers to the solution of the dual problem. *
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer started.
Presolve started.
Linear dependency checker started.
Linear dependency checker terminated.
Eliminator started.
Freed constraints in eliminator : 471
Eliminator terminated.
Eliminator started.
Freed constraints in eliminator : 6
Eliminator terminated.
Eliminator - tries                  : 2                 time                   : 0.00            
Lin. dep.  - tries                  : 1                 time                   : 0.00            
Lin. dep.  - number                 : 0               
Presolve terminated. Time: 0.01    
Matrix reordering started.
Local matrix reordering started.
Local matrix reordering terminated.
Matrix reordering terminated.
Problem
  Name                   :                 
  Objective sense        : max             
  Type                   : GECO (general convex optimization problem)
  Constraints            : 1749            
  Cones                  : 0               
  Scalar variables       : 6101            
  Matrix variables       : 0               
  Integer variables      : 0               

Optimizer  - threads                : 8               
Optimizer  - solved problem         : the primal      
Optimizer  - Constraints            : 870
Optimizer  - Cones                  : 0
Optimizer  - Scalar variables       : 3453              conic                  : 0               
Optimizer  - Semi-definite variables: 0                 scalarized             : 0               
Factor     - setup time             : 0.03              dense det. time        : 0.00            
Factor     - ML order time          : 0.00              GP order time          : 0.02            
Factor     - nonzeros before factor : 1.48e+04          after factor           : 1.47e+05        
Factor     - dense dim.             : 0                 flops                  : 2.89e+07        
Factor     - GP saved nzs           : 3.32e+04          GP saved flops         : 9.06e+05        
ITE PFEAS    DFEAS    GFEAS    PRSTATUS   POBJ              DOBJ              MU       TIME  
0   2.3e+03  3.1e+03  1.2e+05  0.00e+00   -1.222298263e+05  2.000000000e+00   1.0e+00  0.04  
1   1.6e+03  2.1e+03  8.5e+04  -9.71e-01  -1.213710455e+05  2.752982256e+00   6.9e-01  0.05  
2   7.8e+02  1.0e+03  4.2e+04  -9.57e-01  -1.186217467e+05  5.334792787e+00   3.4e-01  0.05  
3   2.9e+02  3.9e+02  1.6e+04  -9.11e-01  -1.102259194e+05  2.219994521e+01   1.3e-01  0.06  
4   2.9e+02  3.9e+02  1.6e+04  -7.68e-01  -1.083267789e+05  1.672821615e+03   1.3e-01  0.07  
5   1.2e+02  1.6e+02  6.6e+03  -7.60e-01  -8.749626988e+04  6.083313951e+03   5.4e-02  0.08  
6   3.9e+01  5.3e+01  2.1e+03  -4.56e-01  -4.677954462e+04  1.085256007e+04   1.7e-02  0.08  
7   2.3e+01  3.0e+01  1.2e+03  2.29e-01   -3.113771930e+04  7.216008013e+03   1.0e-02  0.09  
8   9.3e+00  1.2e+01  5.0e+02  5.24e-01   -1.393505869e+04  3.980814731e+03   4.1e-03  0.10  
9   6.0e+00  8.0e+00  3.2e+02  8.27e-01   -9.009823590e+03  2.812604557e+03   2.7e-03  0.11  
10  2.1e+00  2.8e+00  1.1e+02  9.04e-01   -3.057301137e+03  1.183564269e+03   9.3e-04  0.12  
11  1.4e+00  1.9e+00  7.7e+01  9.76e-01   -1.997372761e+03  9.332543213e+02   6.4e-04  0.12  
12  7.4e-01  1.0e+00  4.0e+01  9.81e-01   -9.699632101e+02  5.758019022e+02   3.3e-04  0.13  
13  4.2e-01  7.2e-01  2.3e+01  9.89e-01   -4.606257868e+02  4.178451514e+02   1.9e-04  0.14  
14  1.6e-01  2.8e-01  8.7e+00  9.97e-01   -6.512326323e+01  2.680538298e+02   7.3e-05  0.15  
15  8.8e-02  1.6e-01  4.9e+00  1.00e+00   3.921207159e+01   2.264578862e+02   4.1e-05  0.15  
16  3.1e-02  1.2e-01  1.7e+00  1.00e+00   1.252317814e+02   1.912713104e+02   1.5e-05  0.16  
17  1.1e-02  9.8e-02  6.5e-01  1.01e+00   1.548024777e+02   1.794850661e+02   5.6e-06  0.17  
18  6.0e-03  7.7e-02  3.5e-01  1.01e+00   1.628860752e+02   1.761840348e+02   3.0e-06  0.18  
19  1.1e-03  1.5e-01  6.8e-02  1.01e+00   1.705511844e+02   1.731209203e+02   6.1e-07  0.18  
20  4.2e-04  1.1e-01  2.6e-02  1.01e+00   1.716970465e+02   1.726831638e+02   2.4e-07  0.19  
21  1.8e-04  9.1e-02  1.1e-02  1.00e+00   1.721010799e+02   1.725269096e+02   1.0e-07  0.20  
22  1.0e-04  7.2e-02  6.3e-03  1.00e+00   1.722342738e+02   1.724717849e+02   5.7e-08  0.21  
23  9.0e-05  6.5e-02  5.6e-03  1.00e+00   1.722520170e+02   1.724658133e+02   5.1e-08  0.21  
24  8.1e-05  6.0e-02  5.1e-03  1.00e+00   1.722673117e+02   1.724597216e+02   4.6e-08  0.22  
25  7.3e-05  5.5e-02  4.6e-03  1.00e+00   1.722811705e+02   1.724543346e+02   4.2e-08  0.23  
26  6.6e-05  5.0e-02  4.1e-03  1.00e+00   1.722936134e+02   1.724494569e+02   3.7e-08  0.24  
27  5.9e-05  4.6e-02  3.7e-03  1.00e+00   1.723047998e+02   1.724450554e+02   3.4e-08  0.24  
28  5.3e-05  4.2e-02  3.3e-03  1.00e+00   1.723148518e+02   1.724410789e+02   3.0e-08  0.25  
29  4.8e-05  3.9e-02  3.0e-03  1.00e+00   1.723238843e+02   1.724374861e+02   2.7e-08  0.26  
30  4.3e-05  3.6e-02  2.7e-03  1.00e+00   1.723320001e+02   1.724342397e+02   2.5e-08  0.27  
31  3.9e-05  3.3e-02  2.4e-03  1.00e+00   1.723392924e+02   1.724313064e+02   2.2e-08  0.28  
32  3.5e-05  3.0e-02  2.2e-03  1.00e+00   1.723458452e+02   1.724286563e+02   2.0e-08  0.28  
33  3.1e-05  2.8e-02  2.0e-03  1.00e+00   1.723517339e+02   1.724262629e+02   1.8e-08  0.29  
34  2.8e-05  2.6e-02  1.8e-03  1.00e+00   1.723570267e+02   1.724241018e+02   1.6e-08  0.30  
35  2.5e-05  2.4e-02  1.6e-03  1.00e+00   1.723617843e+02   1.724221513e+02   1.5e-08  0.31  
36  2.3e-05  2.3e-02  1.4e-03  1.00e+00   1.723660614e+02   1.724203911e+02   1.3e-08  0.31  
37  2.1e-05  2.1e-02  1.3e-03  1.00e+00   1.723699069e+02   1.724188032e+02   1.2e-08  0.32  
38  1.9e-05  2.0e-02  1.2e-03  1.00e+00   1.723733647e+02   1.724173710e+02   1.1e-08  0.33  
39  1.7e-05  1.9e-02  1.0e-03  1.00e+00   1.723764740e+02   1.724160795e+02   9.5e-09  0.34  
40  1.5e-05  1.8e-02  9.4e-04  1.00e+00   1.723792702e+02   1.724149150e+02   8.6e-09  0.35  
41  1.4e-05  1.7e-02  8.5e-04  1.00e+00   1.723817850e+02   1.724138651e+02   7.7e-09  0.36  
42  1.2e-05  1.6e-02  7.6e-04  1.00e+00   1.723840467e+02   1.724129188e+02   6.9e-09  0.37  
43  1.1e-05  1.5e-02  6.9e-04  1.00e+00   1.723860810e+02   1.724120658e+02   6.2e-09  0.37  
44  9.9e-06  1.4e-02  6.2e-04  1.00e+00   1.723879108e+02   1.724112971e+02   5.6e-09  0.38  
45  8.9e-06  1.4e-02  5.6e-04  1.00e+00   1.723895567e+02   1.724106044e+02   5.1e-09  0.39  
46  8.0e-06  1.3e-02  5.0e-04  1.00e+00   1.723910373e+02   1.724099802e+02   4.6e-09  0.40  
47  7.2e-06  1.3e-02  4.5e-04  1.00e+00   1.723923692e+02   1.724094178e+02   4.1e-09  0.40  
48  6.5e-06  1.2e-02  4.1e-04  1.00e+00   1.723935674e+02   1.724089112e+02   3.7e-09  0.41  
49  5.8e-06  1.2e-02  3.6e-04  1.00e+00   1.723946453e+02   1.724084548e+02   3.3e-09  0.42  
50  5.2e-06  1.1e-02  3.3e-04  1.00e+00   1.723956151e+02   1.724080436e+02   3.0e-09  0.43  
51  4.7e-06  1.1e-02  3.0e-04  1.00e+00   1.723964875e+02   1.724076733e+02   2.7e-09  0.44  
52  4.2e-06  1.1e-02  2.7e-04  1.00e+00   1.723972725e+02   1.724073397e+02   2.4e-09  0.44  
53  3.8e-06  1.0e-02  2.4e-04  1.00e+00   1.723979788e+02   1.724070393e+02   2.2e-09  0.45  
54  3.4e-06  1.0e-02  2.2e-04  1.00e+00   1.723986142e+02   1.724067687e+02   2.0e-09  0.46  
55  3.1e-06  9.9e-03  1.9e-04  1.00e+00   1.723991860e+02   1.724065251e+02   1.8e-09  0.47  
56  2.8e-06  9.7e-03  1.7e-04  1.00e+00   1.723997005e+02   1.724063056e+02   1.6e-09  0.47  
57  2.5e-06  9.5e-03  1.6e-04  1.00e+00   1.724001634e+02   1.724061080e+02   1.4e-09  0.48  
58  2.3e-06  9.3e-03  1.4e-04  1.00e+00   1.724005799e+02   1.724059301e+02   1.3e-09  0.49  
59  2.0e-06  9.2e-03  1.3e-04  1.00e+00   1.724009547e+02   1.724057699e+02   1.2e-09  0.50  
60  1.8e-06  9.0e-03  1.1e-04  1.00e+00   1.724012919e+02   1.724056257e+02   1.0e-09  0.50  
61  1.6e-06  8.9e-03  1.0e-04  1.00e+00   1.724015954e+02   1.724054958e+02   9.4e-10  0.51  
62  1.5e-06  8.8e-03  9.3e-05  1.00e+00   1.724018684e+02   1.724053788e+02   8.4e-10  0.52  
63  1.3e-06  8.7e-03  8.4e-05  1.00e+00   1.724021142e+02   1.724052735e+02   7.6e-10  0.53  
64  1.2e-06  8.6e-03  7.5e-05  1.00e+00   1.724023353e+02   1.724051787e+02   6.8e-10  0.53  
65  1.1e-06  8.5e-03  6.8e-05  1.00e+00   1.724025342e+02   1.724050933e+02   6.2e-10  0.54  
66  9.7e-07  8.4e-03  6.1e-05  1.00e+00   1.724027133e+02   1.724050165e+02   5.5e-10  0.55  
67  8.7e-07  8.3e-03  5.5e-05  1.00e+00   1.724028744e+02   1.724049473e+02   5.0e-10  0.56  
68  7.9e-07  8.3e-03  4.9e-05  1.00e+00   1.724030194e+02   1.724048850e+02   4.5e-10  0.57  
69  7.1e-07  8.2e-03  4.4e-05  1.00e+00   1.724031498e+02   1.724048289e+02   4.0e-10  0.57  
70  6.4e-07  8.1e-03  4.0e-05  1.00e+00   1.724032672e+02   1.724047784e+02   3.6e-10  0.58  
71  5.7e-07  8.1e-03  3.6e-05  1.00e+00   1.724033729e+02   1.724047329e+02   3.3e-10  0.59  
72  5.2e-07  8.0e-03  3.2e-05  1.00e+00   1.724034679e+02   1.724046920e+02   2.9e-10  0.60  
73  4.6e-07  8.0e-03  2.9e-05  1.00e+00   1.724035535e+02   1.724046551e+02   2.7e-10  0.61  
74  4.2e-07  7.9e-03  2.6e-05  1.00e+00   1.724036305e+02   1.724046220e+02   2.4e-10  0.61  
75  3.8e-07  7.9e-03  2.4e-05  1.00e+00   1.724036997e+02   1.724045921e+02   2.1e-10  0.62  
76  3.4e-07  7.9e-03  2.1e-05  1.00e+00   1.724037621e+02   1.724045652e+02   1.9e-10  0.63  
77  3.1e-07  7.8e-03  1.9e-05  1.00e+00   1.724038182e+02   1.724045410e+02   1.7e-10  0.64  
78  2.7e-07  7.8e-03  1.7e-05  1.00e+00   1.724038687e+02   1.724045192e+02   1.6e-10  0.64  
79  2.5e-07  7.8e-03  1.5e-05  1.00e+00   1.724039141e+02   1.724044996e+02   1.4e-10  0.65  
80  2.2e-07  7.7e-03  1.4e-05  1.00e+00   1.724039550e+02   1.724044819e+02   1.3e-10  0.66  
81  2.0e-07  7.7e-03  1.3e-05  1.00e+00   1.724039918e+02   1.724044660e+02   1.1e-10  0.67  
82  1.8e-07  7.7e-03  1.1e-05  1.00e+00   1.7240402E
======================================================================
ERROR [28.771s]: test_SPaircraft_py_mosek (gpkit.tests.from_paths.TestFiles)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/tests/helpers.py", line 64, in test
    testfn(name, import_dict, path)(self)
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/tests/from_paths.py", line 51, in <lambda>
    lambda self: getattr(self, name)()))  # pylint:disable=undefined-variable
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/tests/from_paths.py", line 40, in test_fn
    mod.test()
  File "SPaircraft.py", line 87, in test
    sol = optimize_aircraft(m, substitutions, fixedBPR, pRatOpt, mutategparg)
  File "SPaircraft.py", line 62, in optimize_aircraft
    sol = m_relax.localsolve(verbosity=4, iteration_limit=200, reltol=0.01, mutategp=mutategparg, x0 = x0)
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/constraints/prog_factories.py", line 124, in solvefn
    result = progsolve(solver, verbosity, **kwargs)
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/constraints/sgp.py", line 149, in localsolve
    feas_constrs, None)
  File "/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gpkit/constraints/gp.py", line 112, in __init__
    + boundstrs)
ValueError: Geometric Program is not fully bounded:
  Mission1.Aircraft.Engine.EngineConstants.Relax1.R has no lower bound
  Mission1.Aircraft.Engine.EngineConstants.Relax1.g has no lower bound

----------------------------------------------------------------------
Ran 1 test in 28.771s

FAILED (errors=1)

Generating XML reports...
49e+02   1.724044517e+02   1.0e-10  0.67  
83  1.6e-07  7.7e-03  1.0e-05  1.00e+00   1.724040546e+02   1.724044388e+02   9.2e-11  0.68  
84  1.5e-07  7.7e-03  9.1e-06  1.00e+00   1.724040815e+02   1.724044272e+02   8.3e-11  0.69  
85  1.3e-07  7.6e-03  8.2e-06  1.00e+00   1.724041056e+02   1.724044167e+02   7.5e-11  0.70  
86  1.2e-07  7.6e-03  7.4e-06  1.00e+00   1.724041273e+02   1.724044073e+02   6.7e-11  0.71  
87  1.1e-07  7.6e-03  6.7e-06  1.00e+00   1.724041470e+02   1.724043988e+02   6.1e-11  0.71  
88  9.6e-08  7.6e-03  6.0e-06  1.00e+00   1.724041646e+02   1.724043912e+02   5.5e-11  0.72  
89  8.6e-08  7.6e-03  5.4e-06  1.00e+00   1.724041804e+02   1.724043843e+02   4.9e-11  0.73  
90  7.8e-08  7.6e-03  4.9e-06  9.97e-01   1.724041946e+02   1.724043781e+02   4.4e-11  0.74  
91  7.0e-08  7.5e-03  4.4e-06  1.00e+00   1.724042074e+02   1.724043726e+02   4.0e-11  0.74  
92  6.3e-08  7.5e-03  3.9e-06  9.99e-01   1.724042189e+02   1.724043676e+02   3.6e-11  0.75  
93  5.7e-08  6.8e-03  3.5e-06  1.02e+00   1.724042300e+02   1.724043628e+02   3.3e-11  0.76  
94  5.1e-08  6.1e-03  3.2e-06  1.01e+00   1.724042398e+02   1.724043585e+02   2.9e-11  0.77  
95  4.6e-08  5.5e-03  2.9e-06  1.01e+00   1.724042484e+02   1.724043549e+02   2.7e-11  0.77  
96  4.2e-08  4.9e-03  2.6e-06  1.02e+00   1.724042564e+02   1.724043515e+02   2.4e-11  0.78  
97  3.8e-08  4.4e-03  2.3e-06  9.97e-01   1.724042630e+02   1.724043486e+02   2.2e-11  0.79  
98  3.4e-08  4.0e-03  2.1e-06  9.95e-01   1.724042689e+02   1.724043460e+02   2.0e-11  0.80  
99  3.1e-08  3.6e-03  1.9e-06  9.91e-01   1.724042743e+02   1.724043436e+02   1.8e-11  0.81  
100 2.8e-08  3.2e-03  1.7e-06  9.09e-01   1.724042791e+02   1.724043415e+02   1.6e-11  0.81  
101 3.9e-08  7.7e-04  4.0e-07  1.00e+00   1.724043125e+02   1.724043276e+02   4.0e-12  0.82  
102 1.1e-07  6.9e-04  3.6e-07  -7.72e-01  1.724043128e+02   1.724043312e+02   3.4e-12  0.83  
103 1.1e-07  6.9e-04  3.6e-07  -3.73e+00  1.724043128e+02   1.724043312e+02   3.4e-12  0.84  
Optimizer terminated. Time: 0.84    

solsta = 7, prosta = 1

Interior-point solution summary
  Problem status  : PRIMAL_AND_DUAL_FEASIBLE
  Solution status : NEAR_OPTIMAL
  Primal.  obj: 1.7240431284e+02    nrm: 4e+01    Viol.  con: 3e-06    var: 0e+00  
  Dual.    obj: 1.7240433117e+02    nrm: 8e+02    Viol.  con: 0e+00    var: 7e-03  
* End solution on dual form. *
Transforming to primal solution.
Solving took 0.863 seconds.
Cloning into 'solar'...
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Requirement already satisfied: pandas in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (0.24.2)
Requirement already satisfied: python-dateutil>=2.5.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas) (2.8.0)
Requirement already satisfied: numpy>=1.12.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas) (1.16.5)
Requirement already satisfied: pytz>=2011k in /System/Library/Frameworks/Python.framework/Versions/2.7/Extras/lib/python (from pandas) (2013.7)
Requirement already satisfied: six>=1.5 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from python-dateutil>=2.5.0->pandas) (1.12.0)
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Collecting git+https://github.com/convexengineering/gpfit.git
  Cloning https://github.com/convexengineering/gpfit.git to /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-V4F5Cj
  Running command git clone -q https://github.com/convexengineering/gpfit.git /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-V4F5Cj
Requirement already satisfied (use --upgrade to upgrade): gpfit==0.1 from git+https://github.com/convexengineering/gpfit.git in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages
Requirement already satisfied: numpy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpfit==0.1) (1.16.5)
Requirement already satisfied: scipy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpfit==0.1) (1.2.2)
Requirement already satisfied: gpkit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek (from gpfit==0.1) (0.9.1.0)
Requirement already satisfied: pint>=0.8.1 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (0.9)
Requirement already satisfied: ad in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.3.2)
Requirement already satisfied: cvxopt>=1.1.8 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.2.3)
Requirement already satisfied: six in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.12.0)
Requirement already satisfied: funcsigs; python_version == "2.7" in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pint>=0.8.1->gpkit->gpfit==0.1) (1.0.2)
Building wheels for collected packages: gpfit
  Building wheel for gpfit (setup.py): started
  Building wheel for gpfit (setup.py): finished with status 'done'
  Created wheel for gpfit: filename=gpfit-0.1-cp27-none-any.whl size=25151 sha256=e558e72020ff084cd80b0e8d7a6baa7203c300e986a759809837922f3daa1934
  Stored in directory: /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-ephem-wheel-cache-CgUI_a/wheels/d5/94/ac/b1f68b07599181f26f4b9149a1a6d49dfc5cdbc65de1a14d12
Successfully built gpfit
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Collecting git+https://github.com/convexengineering/gassolar.git
  Cloning https://github.com/convexengineering/gassolar.git to /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-VWv3eb
  Running command git clone -q https://github.com/convexengineering/gassolar.git /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-VWv3eb
Requirement already satisfied (use --upgrade to upgrade): gassolar==0.0.0.0 from git+https://github.com/convexengineering/gassolar.git in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages
Requirement already satisfied: numpy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gassolar==0.0.0.0) (1.16.5)
Requirement already satisfied: scipy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gassolar==0.0.0.0) (1.2.2)
Requirement already satisfied: gpkit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek (from gassolar==0.0.0.0) (0.9.1.0)
Requirement already satisfied: pandas in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gassolar==0.0.0.0) (0.24.2)
Requirement already satisfied: gpfit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gassolar==0.0.0.0) (0.1)
Requirement already satisfied: pint>=0.8.1 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gassolar==0.0.0.0) (0.9)
Requirement already satisfied: ad in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gassolar==0.0.0.0) (1.3.2)
Requirement already satisfied: cvxopt>=1.1.8 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gassolar==0.0.0.0) (1.2.3)
Requirement already satisfied: six in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gassolar==0.0.0.0) (1.12.0)
Requirement already satisfied: python-dateutil>=2.5.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas->gassolar==0.0.0.0) (2.8.0)
Requirement already satisfied: pytz>=2011k in /System/Library/Frameworks/Python.framework/Versions/2.7/Extras/lib/python (from pandas->gassolar==0.0.0.0) (2013.7)
Requirement already satisfied: funcsigs; python_version == "2.7" in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pint>=0.8.1->gpkit->gassolar==0.0.0.0) (1.0.2)
Building wheels for collected packages: gassolar
  Building wheel for gassolar (setup.py): started
  Building wheel for gassolar (setup.py): finished with status 'done'
  Created wheel for gassolar: filename=gassolar-0.0.0.0-cp27-none-any.whl size=4876517 sha256=4b2709a42b17fbff26ae0fc8051e5111d4c917e5756f68cd4f2d66be07443e8c
  Stored in directory: /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-ephem-wheel-cache-h0qhb4/wheels/fe/11/0a/2dde16df75c51194d20248ec9e30e88fc7200e9fc4664b032e
Successfully built gassolar
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Processing /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/solar
Requirement already satisfied: numpy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from solar==0.0.0.0) (1.16.5)
Requirement already satisfied: scipy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from solar==0.0.0.0) (1.2.2)
Requirement already satisfied: gpkit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek (from solar==0.0.0.0) (0.9.1.0)
Requirement already satisfied: pandas in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from solar==0.0.0.0) (0.24.2)
Requirement already satisfied: gpfit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from solar==0.0.0.0) (0.1)
Requirement already satisfied: gpkitmodels in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gplibrary (from solar==0.0.0.0) (0.0.0.0)
Requirement already satisfied: pint>=0.8.1 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->solar==0.0.0.0) (0.9)
Requirement already satisfied: ad in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->solar==0.0.0.0) (1.3.2)
Requirement already satisfied: cvxopt>=1.1.8 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->solar==0.0.0.0) (1.2.3)
Requirement already satisfied: six in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->solar==0.0.0.0) (1.12.0)
Requirement already satisfied: python-dateutil>=2.5.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas->solar==0.0.0.0) (2.8.0)
Requirement already satisfied: pytz>=2011k in /System/Library/Frameworks/Python.framework/Versions/2.7/Extras/lib/python (from pandas->solar==0.0.0.0) (2013.7)
Requirement already satisfied: funcsigs; python_version == "2.7" in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pint>=0.8.1->gpkit->solar==0.0.0.0) (1.0.2)
Building wheels for collected packages: solar
  Building wheel for solar (setup.py): started
  Building wheel for solar (setup.py): finished with status 'done'
  Created wheel for solar: filename=solar-0.0.0.0-cp27-none-any.whl size=14811 sha256=1003d06bfe318d283643c84ac043a0b2f60734fd4380f8f3bed814549af922a4
  Stored in directory: /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-ephem-wheel-cache-ShrBiI/wheels/c5/7c/ab/d5d14ab6469ea1bbff2179d6144368b7affd362fb7225dc095
Successfully built solar
Installing collected packages: solar
Successfully installed solar-0.0.0.0

Running tests...
----------------------------------------------------------------------
/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages/pint/quantity.py:1377: UnitStrippedWarning: The unit of the quantity is stripped.
  warnings.warn("The unit of the quantity is stripped.", UnitStrippedWarning)
../Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages/gassolar/environment/solar_irradiance.py:40: RuntimeWarning: overflow encountered in exp
  tau = np.exp(-0.175/costhsun)
/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages/gassolar/environment/solar_irradiance.py:40: RuntimeWarning: divide by zero encountered in divide
  tau = np.exp(-0.175/costhsun)
....
----------------------------------------------------------------------
Ran 6 tests in 181.700s

OK

Generating XML reports...
adding test for 'solar/sens_chart.py'
adding test for 'solar/season.py'
adding test for 'solar/npod_trade.py'

N=1
Beginning signomial solve.
Solving took 5 GP solves and 0.979 seconds.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 0.8904 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1632916.9435 but bound is 600000.0000
Warning: Variable Mission.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1259333.2960 but bound is 1000000.0000

N=3
Beginning signomial solve.
Solving took 5 GP solves and 0.865 seconds.
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1135 but bound is 0.9465
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1036204.4449 but bound is 600000.0000
Warning: Variable Mission1.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1006645.3573 but bound is 1000000.0000

N=5
Beginning signomial solve.
Solving took 5 GP solves and 0.979 seconds.
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1487 but bound is 0.9465
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 989673.4666 but bound is 600000.0000
Warning: Variable Mission2.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1019678.5408 but bound is 1000000.0000

N=7
Beginning signomial solve.
Solving took 5 GP solves and 1.05 seconds.
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1643 but bound is 0.9465
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 976142.1475 but bound is 600000.0000
Warning: Variable Mission3.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1042059.4123 but bound is 1000000.0000

N=9
Beginning signomial solve.
Solving took 5 GP solves and 1.22 seconds.
Warning: Variable Mission4.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1567 but bound is 0.9465
Warning: Variable Mission4.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1007400.4785 but bound is 600000.0000
Warning: Variable Mission4.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1092545.5150 but bound is 1000000.0000

N=0
Beginning signomial solve.
Solving took 4 GP solves and 0.634 seconds.
Warning: Variable Mission5.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.0536 but bound is 0.9465
Warning: Variable Mission5.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1119121.2078 but bound is 600000.0000

N=1
Beginning signomial solve.
Solving took 5 GP solves and 1.32 seconds.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 0.8904 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1632919.3776 but bound is 600000.0000
Warning: Variable Mission.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1259329.5070 but bound is 1000000.0000

N=3
Beginning signomial solve.
Solving took 5 GP solves and 1.21 seconds.
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1135 but bound is 0.9465
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1036209.6021 but bound is 600000.0000
Warning: Variable Mission1.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1006641.3990 but bound is 1000000.0000

N=5
Beginning signomial solve.
Solving took 5 GP solves and 1.25 seconds.
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1487 but bound is 0.9465
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 989673.1341 but bound is 600000.0000
Warning: Variable Mission2.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1019680.6011 but bound is 1000000.0000

N=7
Beginning signomial solve.
Solving took 5 GP solves and 1.46 seconds.
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1643 but bound is 0.9465
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 976138.7332 but bound is 600000.0000
Warning: Variable Mission3.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1042059.9154 but bound is 1000000.0000

N=9
Beginning signomial solve.
Solving took 5 GP solves and 1.72 seconds.
Warning: Variable Mission4.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.1567 but bound is 0.9465
Warning: Variable Mission4.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1007396.6632 but bound is 600000.0000
Warning: Variable Mission4.Climb.AircraftDrag.TailAero1.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1092544.5684 but bound is 1000000.0000

N=0
Beginning signomial solve.
Solving took 4 GP solves and 0.965 seconds.
Warning: Variable Mission5.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.0536 but bound is 0.9465
Warning: Variable Mission5.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1119116.3963 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 4.25 seconds.
Allowing negative dual variable(s) as small as -3.6246815899639153e-11.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.3227 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 671709.7480 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 3.98 seconds.
Allowing negative dual variable(s) as small as -5.780984487322902e-10.
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2812 but bound is 0.9465
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 729183.6293 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 3.22 seconds.
Allowing negative dual variable(s) as small as -7.486587934225628e-12.
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2258 but bound is 0.9465
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 802959.5997 but bound is 600000.0000
Using solver 'mosek'
Solving for 7672 variables.
Solving took 1.51 seconds.
Allowing negative dual variable(s) as small as -1.2634497534364602e-11.
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2008 but bound is 0.9465
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 839122.5079 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 3.48 seconds.
Allowing negative dual variable(s) as small as -3.6246815899639153e-11.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.3227 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 671709.7480 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 3.63 seconds.
Allowing negative dual variable(s) as small as -5.780984487322902e-10.
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2812 but bound is 0.9465
Warning: Variable Mission1.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 729183.6293 but bound is 600000.0000
Using solver 'mosek'
Solving for 14852 variables.
Solving took 3.46 seconds.
Allowing negative dual variable(s) as small as -7.486587934225628e-12.
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2258 but bound is 0.9465
Warning: Variable Mission2.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 802959.5997 but bound is 600000.0000
Using solver 'mosek'
Solving for 7672 variables.
Solving took 1.64 seconds.
Allowing negative dual variable(s) as small as -1.2634497534364602e-11.
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.2008 but bound is 0.9465
Warning: Variable Mission3.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 839122.5079 but bound is 600000.0000
Beginning signomial solve.
Solving took 4 GP solves and 0.549 seconds.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.0536 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1119121.2076 but bound is 600000.0000
Beginning signomial solve.
Solving took 4 GP solves and 0.582 seconds.
Warning: Variable Mission.Climb.AircraftDrag.WingAero.CL[:] could cause inaccurate result because it is below lower bound. Solution is 1.0536 but bound is 0.9465
Warning: Variable Mission.Climb.AircraftDrag.WingAero.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1119121.2076 but bound is 600000.0000
fatal: destination path 'gplibrary' already exists and is not an empty directory.
fatal: destination path 'gplibrary' already exists and is not an empty directory.
fatal: destination path 'gplibrary' already exists and is not an empty directory.
fatal: destination path 'gplibrary' already exists and is not an empty directory.
fatal: destination path 'gplibrary' already exists and is not an empty directory.
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Requirement already satisfied: pandas in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (0.24.2)
Requirement already satisfied: python-dateutil>=2.5.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas) (2.8.0)
Requirement already satisfied: numpy>=1.12.0 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pandas) (1.16.5)
Requirement already satisfied: pytz>=2011k in /System/Library/Frameworks/Python.framework/Versions/2.7/Extras/lib/python (from pandas) (2013.7)
Requirement already satisfied: six>=1.5 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from python-dateutil>=2.5.0->pandas) (1.12.0)
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Collecting git+https://github.com/hoburg/gpfit.git
  Cloning https://github.com/hoburg/gpfit.git to /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-HZ8bne
  Running command git clone -q https://github.com/hoburg/gpfit.git /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-req-build-HZ8bne
Requirement already satisfied (use --upgrade to upgrade): gpfit==0.1 from git+https://github.com/hoburg/gpfit.git in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages
Requirement already satisfied: numpy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpfit==0.1) (1.16.5)
Requirement already satisfied: scipy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpfit==0.1) (1.2.2)
Requirement already satisfied: gpkit in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek (from gpfit==0.1) (0.9.1.0)
Requirement already satisfied: pint>=0.8.1 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (0.9)
Requirement already satisfied: ad in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.3.2)
Requirement already satisfied: cvxopt>=1.1.8 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.2.3)
Requirement already satisfied: six in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkit->gpfit==0.1) (1.12.0)
Requirement already satisfied: funcsigs; python_version == "2.7" in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pint>=0.8.1->gpkit->gpfit==0.1) (1.0.2)
Building wheels for collected packages: gpfit
  Building wheel for gpfit (setup.py): started
  Building wheel for gpfit (setup.py): finished with status 'done'
  Created wheel for gpfit: filename=gpfit-0.1-cp27-none-any.whl size=25151 sha256=404298cc1fad2910a919c93e2a1d42700661f56502f24e6f61203d103257f9d9
  Stored in directory: /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-ephem-wheel-cache-0_V343/wheels/4d/4b/2e/9480645acbe8d32004b09b3732f616bbb2a9ee75e4526f058f
Successfully built gpfit
DEPRECATION: Python 2.7 will reach the end of its life on January 1st, 2020. Please upgrade your Python as Python 2.7 won't be maintained after that date. A future version of pip will drop support for Python 2.7. More details about Python 2 support in pip, can be found at https://pip.pypa.io/en/latest/development/release-process/#python-2-support
Processing /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/gplibrary
Requirement already satisfied: numpy>=1.12 in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkitmodels==0.0.0.0) (1.16.5)
Requirement already satisfied: scipy in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkitmodels==0.0.0.0) (1.2.2)
Requirement already satisfied: pint in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from gpkitmodels==0.0.0.0) (0.9)
Requirement already satisfied: funcsigs; python_version == "2.7" in /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages (from pint->gpkitmodels==0.0.0.0) (1.0.2)
Building wheels for collected packages: gpkitmodels
  Building wheel for gpkitmodels (setup.py): started
  Building wheel for gpkitmodels (setup.py): finished with status 'done'
  Created wheel for gpkitmodels: filename=gpkitmodels-0.0.0.0-cp27-none-any.whl size=65697 sha256=e2b91055a2831206cd1207204e015078173495d9a125828d5a2248d34742410d
  Stored in directory: /private/var/folders/xs/_fh4l1p54zqcl6mbk4zclcfr0000gp/T/pip-ephem-wheel-cache-gbx0gY/wheels/41/dd/09/efaabd52c0fc91a3ab7827d0449f3cca33f90b69e85ad4dd27
Successfully built gpkitmodels
Installing collected packages: gpkitmodels
  Found existing installation: gpkitmodels 0.0.0.0
    Uninstalling gpkitmodels-0.0.0.0:
      Successfully uninstalled gpkitmodels-0.0.0.0
Successfully installed gpkitmodels-0.0.0.0

Running tests...
----------------------------------------------------------------------
../Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/lib/python2.7/site-packages/pint/quantity.py:1377: UnitStrippedWarning: The unit of the quantity is stripped.
  warnings.warn("The unit of the quantity is stripped.", UnitStrippedWarning)
..............
----------------------------------------------------------------------
Ran 16 tests in 6.803s

OK

Generating XML reports...
adding test for 'gpkitmodels/GP/aircraft/wing/wing_test.py'
adding test for 'gpkitmodels/GP/aircraft/tail/tail_tests.py'
adding test for 'gpkitmodels/GP/aircraft/fuselage/test_fuselage.py'
adding test for 'gpkitmodels/GP/aircraft/prop/prop_test.py'
adding test for 'gpkitmodels/GP/aircraft/motor/motor_test.py'
adding test for 'gpkitmodels/SP/SimPleAC/SimPleAC.py'
adding test for 'gpkitmodels/SP/SimPleAC/SimPleAC_mission.py'
adding test for 'gpkitmodels/SP/SimPleAC/SimPleAC_multimission.py'
Using solver 'mosek'
Solving for 11 variables.
Solving took 0.0106 seconds.
Using solver 'mosek_cli'
Solving for 11 variables.
Solving took 0.0306 seconds.
Using solver 'mosek'
Solving for 9 variables.
Solving took 0.00977 seconds.
Using solver 'mosek'
Solving for 25 variables.
Solving took 0.00928 seconds.
Using solver 'mosek'
Solving for 25 variables.
Solving took 0.00953 seconds.
Beginning signomial solve.
Solving took 16 GP solves and 0.415 seconds.
Using solver 'mosek_cli'
Solving for 9 variables.
Solving took 0.031 seconds.
Using solver 'mosek_cli'
Solving for 25 variables.
Solving took 0.0306 seconds.
Using solver 'mosek_cli'
Solving for 25 variables.
Solving took 0.0311 seconds.
Beginning signomial solve.
Solving took 16 GP solves and 0.857 seconds.
Using solver 'mosek'
Solving for 13 variables.
Solving took 0.00995 seconds.
Beginning signomial solve.
Solving took 11 GP solves and 0.291 seconds.
Warning: Variable BladeElementProp.BladeElementPerf.cl[:] could cause inaccurate result because it is below lower bound. Solution is 0.6000 but bound is 0.4742
Warning: Variable BladeElementProp.BladeElementPerf.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1619898.0180 but bound is 700000.0000
Using solver 'mosek_cli'
Solving for 13 variables.
Solving took 0.0308 seconds.
Beginning signomial solve.
Solving took 11 GP solves and 0.588 seconds.
Warning: Variable BladeElementProp.BladeElementPerf.cl[:] could cause inaccurate result because it is below lower bound. Solution is 0.6000 but bound is 0.4742
Warning: Variable BladeElementProp.BladeElementPerf.Re[:] could cause inaccurate result because it is above upper bound. Solution is 1619891.9379 but bound is 700000.0000
Warning: Variable TailAero.Re could cause inaccurate result because it is above upper bound. Solution is 2220953.3838 but bound is 1000000.0000
Warning: Variable TailAero1.Re could cause inaccurate result because it is above upper bound. Solution is 2499787.9776 but bound is 1000000.0000
Warning: Variable TailAero2.Re could cause inaccurate result because it is above upper bound. Solution is 2223878.3883 but bound is 1000000.0000
Warning: Variable TailAero3.Re could cause inaccurate result because it is above upper bound. Solution is 2223877.9590 but bound is 1000000.0000
Warning: Variable TailAero4.Re could cause inaccurate result because it is above upper bound. Solution is 1853897.1004 but bound is 1000000.0000
Warning: Variable TailAero5.Re could cause inaccurate result because it is above upper bound. Solution is 1853897.1004 but bound is 1000000.0000
Warning: Variable TailAero.Re could cause inaccurate result because it is above upper bound. Solution is 2220959.7939 but bound is 1000000.0000
Warning: Variable TailAero1.Re could cause inaccurate result because it is above upper bound. Solution is 2499796.7837 but bound is 1000000.0000
Warning: Variable TailAero2.Re could cause inaccurate result because it is above upper bound. Solution is 1860712.4314 but bound is 1000000.0000
Warning: Variable TailAero3.Re could cause inaccurate result because it is above upper bound. Solution is 1860712.4314 but bound is 1000000.0000
Warning: Variable TailAero4.Re could cause inaccurate result because it is above upper bound. Solution is 1853896.1324 but bound is 1000000.0000
Warning: Variable TailAero5.Re could cause inaccurate result because it is above upper bound. Solution is 1853896.1324 but bound is 1000000.0000
Warning: Variable WingAero.Re could cause inaccurate result because it is above upper bound. Solution is 1884891.6332 but bound is 700000.0000
Warning: Variable WingAero1.Re could cause inaccurate result because it is above upper bound. Solution is 1910419.6195 but bound is 700000.0000
Warning: Variable WingAero.Re could cause inaccurate result because it is above upper bound. Solution is 1910412.9866 but bound is 700000.0000
Warning: Variable WingAero1.Re could cause inaccurate result because it is above upper bound. Solution is 1910412.9866 but bound is 700000.0000
SP is not converging! Last GP iteration had a higher cost (3e+03) than the previous one (2.7e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (3e+03) than the previous one (2.7e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (3.4e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (4.3e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (4.3e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (3.4e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (4.3e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
SP is not converging! Last GP iteration had a higher cost (4.3e+03) than the previous one (4.3e+03). Results for each iteration are in (Model).program.results. If your model contains SignomialEqualities, note that convergence is not guaranteed: try replacing any SigEqs you can and solving again.
Beginning signomial solve.
Using solver 'mosek'
Solving for 20 variables.
Solving took 0.0104 seconds.
Using solver 'mosek'
Solving for 20 variables.
Solving took 0.0091 seconds.
Using solver 'mosek'
Solving for 20 variables.
Solving took 0.00942 seconds.
Using solver 'mosek'
Solving for 20 variables.
Solving took 0.00938 seconds.
Solving took 4 GP solves and 0.0427 seconds.
Beginning signomial solve.
Using solver 'mosek_cli'
Solving for 20 variables.
Solving took 0.0399 seconds.
Using solver 'mosek_cli'
Solving for 20 variables.
Solving took 0.0346 seconds.
Using solver 'mosek_cli'
Solving for 20 variables.
Solving took 0.159 seconds.
Using solver 'mosek_cli'
Solving for 20 variables.
Solving took 0.0326 seconds.
Solving took 4 GP solves and 0.274 seconds.
Cloning into 'eVTOL'...

Running tests...
----------------------------------------------------------------------
..
----------------------------------------------------------------------
Ran 2 tests in 3.563s

OK

Generating XML reports...
adding test for 'models/model_tests.py'
Found no installed solvers, beginning a build.
# Moving to the directory from which GPkit was imported.
Started building gpkit...

Attempting to find and build solvers:

# Looking for mosek
#     Found /Users/jenkins/mosek/8/tools/platform/osx64x86/h/mosek.h
#     Found /Users/jenkins/mosek/8/tools/platform/osx64x86/bin/libmosek64.8.1.dylib
#     Found /Users/jenkins/mosek/8/tools/examples/c/scopt-ext.c
#     Found /Users/jenkins/mosek/8/tools/examples/c/expopt.c
#     Found /Users/jenkins/mosek/8/tools/examples/c/dgopt.c
#     Found /Users/jenkins/mosek/8/tools/examples/c/scopt-ext.h
#     Found /Users/jenkins/mosek/8/tools/examples/c/expopt.h
#     Found /Users/jenkins/mosek/8/tools/examples/c/dgopt.h
#     Found /Users/jenkins/mosek/8/tools/platform/osx64x86/h/mosek.h
# Found mosek version 8, installed to /Users/jenkins/mosek
#
# Building mosek...
#     Replacing directory _mosek/build
#     Replacing directory /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/build_gpkit
#
#   Copying expopt library files to _mosek/build
#     Copying /Users/jenkins/mosek/8/tools/examples/c/scopt-ext.c
#     Copying /Users/jenkins/mosek/8/tools/examples/c/expopt.c
#     Copying /Users/jenkins/mosek/8/tools/examples/c/dgopt.c
#     Copying /Users/jenkins/mosek/8/tools/examples/c/scopt-ext.h
#     Copying /Users/jenkins/mosek/8/tools/examples/c/expopt.h
#     Copying /Users/jenkins/mosek/8/tools/examples/c/dgopt.h
#     Copying /Users/jenkins/mosek/8/tools/platform/osx64x86/h/mosek.h
#
#   Applying expopt patches...
#
#     Change in _mosek/build/dgopt.con line 651
#     --         printf("Number of Hessian non-zeros: %d\n",nlh[0]->numhesnz);
#     ++ MSK_echotask(task,MSK_STREAM_MSG,"Number of Hessian non-zeros: %d\n",n
#
#     Change in _mosek/build/expopt.con line 566
#     --         printf("Warning: The variable with index '%d' has only positiv
#     ++ MSK_echotask(expopttask,MSK_STREAM_MSG, "Warning: The variable with in
#
#     Change in _mosek/build/expopt.con line 579
#     --         printf("Warning: The variable with index '%d' has only negativ
#     ++ MSK_echotask(expopttask,MSK_STREAM_MSG, "Warning: The variable with in
#
#     Change in _mosek/build/expopt.con line 1115
#     --     printf ("solsta = %d, prosta = %d\n", (int)*solsta,(int)*prosta);
#     ++ MSK_echotask(expopttask,MSK_STREAM_MSG, "solsta = %d, prosta = %d\n", 
#
#   Building expopt library...
#     Calling 'gcc -fpic -shared -Wl,-rpath "/Users/jenkins/mosek/8/tools/platform/osx64x86/bin"    _mosek/build/scopt-ext.c _mosek/build/expopt.c _mosek/build/dgopt.c   "/Users/jenkins/mosek/8/tools/platform/osx64x86/bin/libmosek64.8.1.dylib" -o /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/build_gpkit/expopt.so'
##
### CALL BEGINS
### CALL ENDS
##
#     Calling 'install_name_tool -change libmosek64.8.1.dylib /Users/jenkins/mosek/8/tools/platform/osx64x86/bin/libmosek64.8.1.dylib /Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/build_gpkit/expopt.so'
##
### CALL BEGINS
### CALL ENDS
##
#     Calling 'install_name_tool -change libmosek64.8.1.dylib @executable_path/libmosek64.8.1.dylib /Users/jenkins/mosek/8/tools/platform/osx64x86/bin/mskexpopt'
##
### CALL BEGINS
### CALL ENDS
##
# Done building mosek
# Looking for mosek_cli
#   Trying to run mskexpopt...
#     Calling 'mskexpopt'
##
### CALL BEGINS
### CALL ENDS
##
# Found mosek_cli in system path
# Looking for cvxopt
#   Trying to import cvxopt...
# Found cvxopt in Python path
...finished building gpkit.
Replaced found solvers ([u'mosek', u'mosek_cli', u'cvxopt']) with environment var GPKITSOLVERS (mosek, mosek_cli)

Found the following solvers: mosek, mosek_cli
#     Replacing directory env
x[:] <= w

GPkit is now installed with solver(s) [u'mosek', u'mosek_cli']
To incorporate new solvers at a later date, run `gpkit.build()`.

If any tests didn't pass, please post the output above
(starting from "Found no installed solvers, beginning a build.")
to gpkit@mit.edu or https://github.com/convexengineering/gpkit/issues/new
so we can prevent others from having these errors.

The same goes for any other bugs you encounter with GPkit:
send 'em our way, along with any interesting models, speculative features,
comments, discussions, or clarifications you feel like sharing.

Finally, we hope you find our documentation (https://gpkit.readthedocs.io/)
and engineering-design models (https://github.com/convexengineering/gplibrary/)
to be useful resources for your own applications.

Enjoy!

calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/gplibrary.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '--no-cache-dir', '--no-deps', '-e', 'gplibrary']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/robust.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/shopping.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {})

calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/gassolar.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {'skipsolvers': 'cvxopt', 'pip install': 'pandas, git+https://github.com/hoburg/gpfit.git', 'gpkit-models branch': 'master'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'pandas']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/hoburg/gpfit.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/jho.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {'skipsolvers': 'cvxopt', 'pip install': 'pandas, git+https://github.com/hoburg/gpfit.git', 'gpkit-models branch': 'master'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'pandas']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/hoburg/gpfit.git']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/turbofan.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {'skipsolvers': 'cvxopt, mosek_cli', 'gpkit-models branch': 'master'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/SPaircraft.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {'skipsolvers': 'cvxopt, mosek_cli', 'pip install': 'git+https://github.com/hoburg/turbofan.git', 'gpkit-models branch': 'master'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/hoburg/turbofan.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/solar.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {'skipsolvers': 'cvxopt', 'pip install': 'pandas, git+https://github.com/convexengineering/gpfit.git, git+https://github.com/convexengineering/gassolar.git', 'gpkit-models branch': 'master'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'pandas']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/convexengineering/gpfit.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/convexengineering/gassolar.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/gplibrary.git']
  attempt 1
  attempt 2
  attempt 3
  attempt 4
  attempt 5

SETTINGS
defaultdict(<type 'str'>, {'pip install': 'pandas, git+https://github.com/hoburg/gpfit.git'})

calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'pandas']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', 'git+https://github.com/hoburg/gpfit.git']
  attempt 1
calling ['python', '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek/venv2_gpkit/bin/pip', 'install', '.']
  attempt 1
calling ['git', 'clone', '--depth', '1', '-b', 'master', 'https://github.com/convexengineering/eVTOL.git']
  attempt 1

SETTINGS
defaultdict(<type 'str'>, {})

[Execution node] check if [macys] is in [[windows10x64, windows7x64]]
Run condition [Execution node ] preventing perform for step [Execute Windows batch command]
Build step 'Console output (build log) parsing' changed build result to FAILURE
INFO: Starting to record.
INFO: Processing JUnit
INFO: [JUnit] - 9 test report file(s) were found with the pattern '**/test_reports/*.xml, **/test_reports_nounits/*.xml' relative to '/Users/jenkins/workspace/gpkit_PullRequest_Models/buildnode/macys/optimizer/mosek' for the testing framework 'JUnit'.
INFO: Check 'Failed Tests' threshold.
INFO: Check 'Skipped Tests' threshold.
INFO: Setting the build status to FAILURE
INFO: Stopping recording.
[WS-CLEANUP] Deleting project workspace...
[WS-CLEANUP] Deferred wipeout is used...
[WS-CLEANUP] done
Finished: FAILURE