Resource Times:

Results created on 02/25/11 16:06:57 using the PAVER Server/Performance tools available at http://www.gamsworld.eu/performance/paver

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 1.50E-04 For objective values below 1e-1 we use absolute differences.

Input File Number	Filename
Tracefile 1:	MINLPconvex.ALPHAECP.alphaecp-minlpconvex.pav
Tracefile 2:	MINLPconvex.SBB.sbb.pav
Solvers used :	ALPHAECP_alphaecp-minlpconvex
	SBB_sbb
Modeltype(s)	MINLP
Threshold: Solver Faster	10%
Threshold: Solver Much Faster	50%
Threshold: Solver Infinitely Faster	Other solver failed

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	Total	Obj ALPHAECP_alphaecp-minlpconvex better	Obj same	Obj SBB_sbb better
Solver ALPHAECP_alphaecp-minlpconvex infinitely faster :	1	1	-	-
Solver ALPHAECP_alphaecp-minlpconvex much faster :	31	19	12	-
Solver ALPHAECP_alphaecp-minlpconvex faster :	-	-	-	-
Solvers perform the same :	9	6	3	-
Solver SBB_sbb faster :	1	-	1	-
Solver SBB_sbb much faster :	4	-	3	1
Solver SBB_sbb infinitely faster :	1	-	-	1
Both solvers failed to solve optimally :	-	-	-	-
Total models: :	47	26	19	2

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Solver return definition:

Outcome	Model Status	Solver Status
globally optimal	1 or 15	1
locally optimal/feasible	2 or 8 or 16	1 or 2 or 3 or 4 or 5 or 8

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Resource Times:

• Models for each resource time category. Listed are the solver resource times TIME(.) in seconds, as well as the ratio of resource times RATIO(.)for the two solvers if both solved optimally. Models not solved optimally by a solver have status listed instead of resource time.
• Also listed are the objective values OBJ(.) using both solvers. The better solution found is listed in boldface. A solution is considered better, if the relative objective function difference is greater than 1.50E-04.
• Solver resource time ratios for a particular model are listed only if both solvers are optimal and if one solver has resource time greater than 5.00E-02.

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Solver ALPHAECP_alphaecp-minlpconvex infinitely faster - Obj of ALPHAECP_alphaecp-minlpconvex better:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
BatchS101006M	86.9510	fail	--	7.69440000E+05	7.34943000E+05

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Solver ALPHAECP_alphaecp-minlpconvex much faster - Obj of ALPHAECP_alphaecp-minlpconvex better:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
fo7_2	41.5380	3661.1600	0.011	1.77493000E+01	2.65504000E+01
fo7	206.4110	3662.8000	0.056	2.07298000E+01	4.00840000E+01
fo8	1480.9900	3660.6900	0.405	2.23819000E+01	3.43401000E+01
m7	4.3460	3616.7400	0.001	1.06757000E+02	1.30460000E+02
o7_2	569.6560	3660.9100	0.156	1.16946000E+02	1.27973000E+02
RSyn0805M02M	10.0430	3655.0400	0.003	2.23840000E+03	2.15697000E+03
RSyn0805M03M	12.7890	3660.9700	0.003	3.06893000E+03	2.70500000E+03
RSyn0805M04M	17.8910	3660.4700	0.005	7.17422000E+03	7.13408000E+03
RSyn0810M02M	13.2200	3660.8600	0.004	1.74139000E+03	1.60668000E+03
RSyn0810M03M	13.8260	3660.8000	0.004	2.72245000E+03	2.24679000E+03
RSyn0820M	2.1400	3661.0000	0.001	1.15030000E+03	1.11945000E+03
RSyn0830M	3.0010	3615.9400	0.001	5.10072000E+02	4.31206000E+02
RSyn0840M	2.2910	3664.5900	0.001	3.25555000E+02	9.81998000E+01
Syn20M03M	3.5180	3614.4100	0.001	2.64695000E+03	2.61695000E+03
Syn20M04M	4.5620	3660.6700	0.001	3.53274000E+03	3.41710000E+03
Syn30M02M	3.7390	3660.8000	0.001	3.99683000E+02	3.56813000E+02
Syn40M	2.3590	3637.5900	0.001	6.77133000E+01	6.68001000E+01
sssd-10-4-3	2.9870	3661.2800	0.001	1.52710000E+05	2.28267000E+05
sssd-15-6-3	104.9700	3662.2800	0.029	4.40748000E+05	5.37007000E+05

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Solver ALPHAECP_alphaecp-minlpconvex much faster - Obj same for both solvers:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
BatchS201210M	137.4990	709.1870	0.194	2.29535000E+06	2.29535000E+06
clay0303h	5.4760	16.6380	0.329	2.66691000E+04	2.66691000E+04
clay0304h	18.8560	933.8160	0.020	4.02624000E+04	4.02624000E+04
clay0304m	10.3940	225.6290	0.046	4.02624000E+04	4.02624000E+04
clay0305h	53.9050	3550.4500	0.015	8.09250000E+03	8.09250000E+03
clay0305m	17.3060	552.9520	0.031	8.09250000E+03	8.09250000E+03
m6	1.5500	1484.5600	0.001	8.22569000E+01	8.22569000E+01
RSyn0805H	0.8410	5.7320	0.147	1.29612000E+03	1.29612000E+03
RSyn0830M04H	21.8760	1424.3400	0.015	2.52907000E+03	2.52907000E+03
SLay06H	318.8590	688.7320	0.463	3.27570000E+04	3.27570000E+04
Syn15M04M	3.6060	265.6830	0.014	4.93748000E+03	4.93748000E+03
Syn40M03H	10.5050	23.0620	0.456	3.95149000E+02	3.95149000E+02

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Solvers perform the same - Obj of ALPHAECP_alphaecp-minlpconvex better:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
SLay07H	3416.9100	3631.6700	0.941	6.47488000E+04	6.51146000E+04
SLay08H	3621.8700	3660.9200	0.989	8.49602000E+04	8.66568000E+04
SLay09H	3663.8900	3661.1500	1.001	1.07806000E+05	1.27524000E+05
uflquad-20-150	3651.8800	3641.4800	1.003	6.30182000E+02	7.14496000E+02
uflquad-30-100	3634.2800	3622.3600	1.003	4.15040000E+02	4.40187000E+02
uflquad-40-80	3666.3400	3658.5300	1.002	3.86672000E+02	4.02716000E+02

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Solvers perform the same - Obj same for both solvers:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
FLay05H	3615.7000	3654.6500	0.989	6.44981000E+01	6.44981000E+01
FLay05M	3305.1000	3387.5600	0.976	6.44981000E+01	6.44981000E+01
FLay06M	3615.6500	3634.5800	0.995	6.69328000E+01	6.69328000E+01

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Solver SBB_sbb faster - Obj same for both solvers:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
FLay04H	96.0070	52.2630	1.837	5.44059000E+01	5.44059000E+01

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Solver SBB_sbb much faster - Obj same for both solvers:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
BatchS121208M	414.9960	68.2430	6.081	1.24113000E+06	1.24113000E+06
BatchS151208M	358.0080	139.6830	2.563	1.54347000E+06	1.54347000E+06
SLay09M	3666.3900	555.7400	6.597	1.07806000E+05	1.07806000E+05

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Solver SBB_sbb much faster - Obj of SBB_sbb better:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
SLay10M	3657.1700	846.2270	4.322	1.29810000E+05	1.29580000E+05

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Solver SBB_sbb infinitely faster - Obj of SBB_sbb better:

Modelname	Time (ALPHAECP_alphaecp-minlpconvex)	Time (SBB_sbb)	Ratio (ALPHAECP_alphaecp-minlpconvex / SBB_sbb)	Obj (ALPHAECP_alphaecp-minlpconvex)	Obj (SBB_sbb)
sssd-12-5-3	fail	3661.2200	--	2.61266000E+05	3.15015000E+05

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Generated using the PAVER Server/Performance Tools.