Resource Times:

Date / Time: 08/24/07 21:45:32


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 :2-AlphaECP-1.trc.convex
Tracefile 2 :6-SBB-1.trc.convex
Solvers used : ALPHAECP
SBB
Modeltype(s)   MINLP
Threshold: Solver Faster 10%
Threshold: Solver Much Faster 50%
Threshold: Solver Infinitely Faster Other solver failed


Total Obj ALPHAECP better Obj same Obj SBB better
Solver ALPHAECP infinitely faster : 2 2 - -
Solver ALPHAECP much faster : 2 2 - -
Solver ALPHAECP faster :- - - -
Solvers perform the same : 1 1 - -
Solver SBB faster :- - - -
Solver SBB much faster : 31 8 22 1
Solver SBB infinitely faster : 1 - - 1
Both solvers failed to solve optimally : 3 - 3 -
Total models: : 4013252



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 ALPHAECP infinitely faster - Obj of ALPHAECP better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
fo7504.0000fail -- 2.07291844E+01 0.00000000E+00
o73606.0000fail -- 1.53819887E+02 0.00000000E+00

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Solver ALPHAECP much faster - Obj of ALPHAECP better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
m67.0000196.77000.036 8.22568769E+01 1.29824936E+02
m733.0000223.46000.148 1.06756877E+02 1.23964378E+02

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Solvers perform the same - Obj of ALPHAECP better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
st_e350.00000.0100--- 1.07419804E+05 1.17178934E+05

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Solver SBB much faster - Obj of ALPHAECP better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
du-opt1124.00001.7400645.977 3.55567908E+00 3.56108965E+00
du-opt5453.000020.820021.758 8.07307759E+00 8.07365758E+00
meanvarx1.00000.0200--- 1.43690751E+01 1.44969830E+01
risk2bpb2.00000.42004.762 -5.58761394E+01 -5.57361685E+01
st_testgr12.00000.0400--- -1.28116000E+01 -1.27281000E+01
st_testgr31.00000.060016.667 -2.05900000E+01 -2.04688000E+01
synthes11.00000.0300--- 6.00965002E+00 6.00975891E+00
synthes25.00000.0400--- 7.30345496E+01 7.30353125E+01

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Solver SBB much faster - Obj same for both solvers:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
alan1.00000.0100--- 2.92500000E+00 2.92500000E+00
batch2.00000.23008.696 2.85506481E+05 2.85506508E+05
ex12233.00000.060050.000 4.57957678E+00 4.57958240E+00
ex1223a3.00000.0100--- 4.57957997E+00 4.57958240E+00
ex1223b3.00000.0000--- 4.57957678E+00 4.57958240E+00
fac183.00000.0100--- 1.60912612E+08 1.60912612E+08
fac38.00000.290027.586 3.19823098E+07 3.19823098E+07
gbd1.00000.0000--- 2.20000000E+00 2.20000000E+00
m32.00000.40005.000 3.78000000E+01 3.78000000E+01
nvs031.00000.0200--- 1.60000000E+01 1.60000000E+01
nvs102.00000.0200--- -3.10800000E+02 -3.10800000E+02
st_e142.00000.0200--- 4.57957678E+00 4.57958240E+00
st_miqp11.00000.0300--- 2.81000000E+02 2.81000000E+02
st_miqp21.00000.0300--- 2.00000000E+00 2.00000000E+00
st_miqp31.00000.0000--- -6.00000000E+00 -6.00000000E+00
st_miqp41.00000.0000--- -4.57400000E+03 -4.57400000E+03
st_miqp51.00000.0000--- -3.33889031E+02 -3.33888889E+02
st_test51.00000.060016.667 -1.10000000E+02 -1.10000000E+02
st_test61.00000.090011.111 4.71000000E+02 4.71000000E+02
st_test81.00000.0100--- -2.96050000E+04 -2.96050000E+04
st_testph41.00000.0200--- -8.05000000E+01 -8.05000000E+01
synthes34.00000.180022.222 6.80093274E+01 6.80097405E+01

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Solver SBB much faster - Obj of SBB better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
stockcycle3600.000098.010036.731 4.36419130E+05 1.43295165E+05

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Solver SBB infinitely faster - Obj of SBB better:

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
risk2bfail 0.3900 -- 1.00000000E+20 -5.57361685E+01

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

Modelname Time (ALPHAECP) Time (SBB) Ratio (ALPHAECP / SBB) Obj (ALPHAECP) Obj (SBB)
tls12fail fail -- 1.00000000E+20 0.00000000E+00
tls6fail fail -- 1.00000000E+20 0.00000000E+00
tls7fail fail -- 1.00000000E+20 0.00000000E+00

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