Resource Times:

Date / Time: 08/24/07 21:45:31


See the solver return definitions for optimal/feasible model and solve statuses. Solutions are not checked for how close they are to eachother. Resource times are considered the same, if they are within 10% of eachother. A solver is considered faster than another, if it is less than 50% faster than the other. A solver is considered much faster than another, if it is more than 50% faster than the other.

If a model was not solved optimal/feasible by both solvers, the resource time is considered the same. If a model was solved optimal/feasible by solver A but not by solver B, then solver A is considered infinitely faster than solver B. Similarly, if one solver has trace data and the other has no data, then the first solver is consideredinfinitely faster.

A solver is considered to have a better objective function value, if the relative objective value difference is greater than 1.00E-05 For objective values below 1e-1 we use absolute differences.

Tracefile 1 :1-BARON7.8.1_LaGOset.trc.convex
Tracefile 2 :2-AlphaECP-1.trc.convex
Solvers used : BARON
ALPHAECP
Modeltype(s)   MINLP
Threshold: Solver Faster 10%
Threshold: Solver Much Faster 50%
Threshold: Solver Infinitely Faster Other solver failed


Total Obj BARON better Obj same Obj ALPHAECP better
Solver BARON infinitely faster : 2 2 - -
Solver BARON much faster : 28 1 19 8
Solver BARON faster : 2 - 1 1
Solvers perform the same : 1 1 - -
Solver ALPHAECP faster :- - - -
Solver ALPHAECP much faster : 5 1 2 2
Solver ALPHAECP infinitely faster :- - - -
Both solvers failed to solve optimally : 2 - 2 -
Total models: : 4052411



Solver return definition:

OutcomeModel StatusSolver Status
globally optimal 1 or 15 1
locally optimal/feasible 2 or 8 or 16 1 or 2 or 3 or 4 or 5



Resource Times:

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Solver BARON infinitely faster - Obj of BARON better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
risk2b4.9000fail -- -5.57361685E+01 1.00000000E+20
tls63600.0300fail -- 1.59000000E+01 1.00000000E+20

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Solver BARON much faster - Obj of BARON better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
stockcycle974.04003600.00000.271 1.20588680E+05 4.36419130E+05

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Solver BARON much faster - Obj same for both solvers:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
ex12230.13003.00000.043 4.57958240E+00 4.57957678E+00
ex1223a0.03003.0000--- 4.57958240E+00 4.57957997E+00
ex1223b0.09003.00000.030 4.57958240E+00 4.57957678E+00
fac10.060083.00000.001 1.60912612E+08 1.60912612E+08
fac30.85008.00000.106 3.19823098E+07 3.19823098E+07
gbd0.01001.0000--- 2.20000000E+00 2.20000000E+00
m30.11002.00000.055 3.78000000E+01 3.78000000E+01
nvs030.01001.0000--- 1.60000000E+01 1.60000000E+01
nvs100.04002.0000--- -3.10800000E+02 -3.10800000E+02
st_e140.12002.00000.060 4.57958240E+00 4.57957678E+00
st_miqp10.01001.0000--- 2.81000000E+02 2.81000000E+02
st_miqp20.02001.0000--- 2.00000000E+00 2.00000000E+00
st_miqp30.00001.0000--- -6.00000000E+00 -6.00000000E+00
st_miqp40.01001.0000--- -4.57400000E+03 -4.57400000E+03
st_miqp50.02001.0000--- -3.33888889E+02 -3.33889031E+02
st_test50.03001.0000--- -1.10000000E+02 -1.10000000E+02
st_test60.07001.00000.070 4.71000000E+02 4.71000000E+02
st_test80.04001.0000--- -2.96050000E+04 -2.96050000E+04
st_testph40.01001.0000--- -8.05000000E+01 -8.05000000E+01

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Solver BARON much faster - Obj of ALPHAECP better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
alan0.03001.0000--- 2.92595245E+00 2.92500000E+00
du-opt150.01001124.00000.133 3.55816608E+00 3.55567908E+00
du-opt5185.2700453.00000.409 8.07365758E+00 8.07307759E+00
meanvarx0.30001.00000.300 1.43692321E+01 1.43690751E+01
st_testgr10.02002.0000--- -1.27392000E+01 -1.28116000E+01
synthes10.02001.0000--- 6.00975891E+00 6.00965002E+00
synthes20.05005.00000.010 7.30388061E+01 7.30345496E+01
synthes30.11004.00000.028 6.80119578E+01 6.80093274E+01

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Solver BARON faster - Obj same for both solvers:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
batch1.40002.00000.700 2.85506508E+05 2.85506481E+05

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Solver BARON faster - Obj of ALPHAECP better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
st_testgr30.60001.00000.600 -2.04910500E+01 -2.05900000E+01

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Solvers perform the same - Obj of BARON better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
o73600.00003606.00000.998 1.40412529E+02 1.53819887E+02

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Solver ALPHAECP much faster - Obj of BARON better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
st_e3518.68000.0000--- 6.48707675E+04 1.07419804E+05

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Solver ALPHAECP much faster - Obj same for both solvers:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
m6318.57007.000045.510 8.22568769E+01 8.22568769E+01
m72231.790033.000067.630 1.06756877E+02 1.06756877E+02

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Solver ALPHAECP much faster - Obj of ALPHAECP better:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
fo72101.6100504.00004.170 2.43793471E+01 2.07291844E+01
risk2bpb5.59002.00002.795 -5.57361685E+01 -5.58761394E+01

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Both solvers failed to solve optimally - Obj same for both solvers:

Modelname Time (BARON) Time (ALPHAECP) Ratio (BARON / ALPHAECP) Obj (BARON) Obj (ALPHAECP)
tls12fail fail -- 0.00000000E+00 1.00000000E+20
tls7fail fail -- 0.00000000E+00 1.00000000E+20

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