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milo-v13-4-3d-4-0: Instance-to-Instance Comparison Results
| Type: | Instance |
| Submitter: | Tamas Terlaky |
| Description: | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. |
| MIPLIB Entry |
Parent Instance (milo-v13-4-3d-4-0)
All other instances below were be compared against this "query" instance.  |
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Raw
This is the CCM image before the decomposition procedure has been applied.
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Decomposed
This is the CCM image after a decomposition procedure has been applied. This is the image used by the MIC's image-based comparisons for this query instance.
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Composite of MIC Top 5
Composite of the five decomposed CCM images from the MIC Top 5.
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Composite of MIPLIB Top 5
Composite of the five decomposed CCM images from the MIPLIB Top 5.
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Model Group Composite Image
Composite of the decomposed CCM images for every instance in the same model group as this query.
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MIC Top 5 Instances
These are the 5 decomposed CCM images that are most similar to decomposed CCM image for the the query instance, according to the ISS metric. |
Decomposed
These decomposed images were created by GCG.
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| Name | milo-v12-6-r1-58-1 [MIPLIB] | snp-04-052-052 [MIPLIB] | milo-v12-6-r1-75-1 [MIPLIB] | neos-3530905-gaula [MIPLIB] | sp150x300d [MIPLIB] | |
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Rank / ISS
The image-based structural similarity (ISS) metric measures the Euclidean distance between the image-based feature vectors for the query instance and all other instances. A smaller ISS value indicates greater similarity.
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1 / 0.796 | 2 / 0.805 | 3 / 0.815 | 4 / 0.818 | 5 / 0.822 | |
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Raw
These images represent the CCM images in their raw forms (before any decomposition was applied) for the MIC top 5.
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MIPLIB Top 5 Instances
These are the 5 instances that are most closely related to the query instance, according to the instance statistic-based similarity measure employed by MIPLIB 2017 |
Decomposed
These decomposed images were created by GCG.
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| Name | milo-v12-6-r1-58-1 [MIPLIB] | milo-v12-6-r1-75-1 [MIPLIB] | milo-v12-6-r2-40-1 [MIPLIB] | milo-v13-4-3d-3-0 [MIPLIB] | supportcase17 [MIPLIB] | |
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Rank / ISS
The image-based structural similarity (ISS) metric measures the Euclidean distance between the image-based feature vectors for the query instance and all model groups. A smaller ISS value indicates greater similarity.
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1 / 0.796 | 3 / 0.815 | 93 / 0.922 | 174 / 1.027 | 499 / 1.451 | |
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Raw
These images represent the CCM images in their raw forms (before any decomposition was applied) for the MIPLIB top 5.
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Instance Summary
The table below contains summary information for milo-v13-4-3d-4-0, the five most similar instances to milo-v13-4-3d-4-0 according to the MIC, and the five most similar instances to milo-v13-4-3d-4-0 according to MIPLIB 2017.
| INSTANCE | SUBMITTER | DESCRIPTION | ISS | RANK | |
|---|---|---|---|---|---|
| Parent Instance | milo-v13-4-3d-4-0 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.000000 | - |
| MIC Top 5 | milo-v12-6-r1-58-1 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.795781 | 1 |
| snp-04-052-052 [MIPLIB] | Gerald Gamrath | Supply network planning problems. | 0.805483 | 2 | |
| milo-v12-6-r1-75-1 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.814598 | 3 | |
| neos-3530905-gaula [MIPLIB] | Jeff Linderoth | (None provided) | 0.818269 | 4 | |
| sp150x300d [MIPLIB] | MIPLIB submission pool | Imported from the MIPLIB2010 submissions. | 0.821842 | 5 | |
| MIPLIB Top 5 | milo-v12-6-r1-58-1 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.795781 | 1 |
| milo-v12-6-r1-75-1 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.814598 | 3 | |
| milo-v12-6-r2-40-1 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 0.921796 | 93 | |
| milo-v13-4-3d-3-0 [MIPLIB] | Tamas Terlaky | The models come from structural design optimization where the objective is to minimize the total weight of 2 and 3 dimensional cantilevers. The 2D examples are simpler, and GuRobi can solve the 40_1 and 58_1 instances, while struggles with 75_1. The 3D examples are more challenging. The x_0 and x_1 models are two different modeling of the same identical problems, so their optimal value is the same. The 1_x and 2_x problems are solved by GuRoBi, the 3_x and 4_x are not solved in reasonable time. | 1.026717 | 174 | |
| supportcase17 [MIPLIB] | Michael Winkler | MIP instances collected from Gurobi forum with unknown application | 1.450624 | 499 |
milo-v13-4-3d-4-0: Instance-to-Model Comparison Results
| Model Group Assignment from MIPLIB: | milo |
| Assigned Model Group Rank/ISS in the MIC: | 26 / 1.535 |
MIC Top 5 Model Groups
These are the 5 model group composite (MGC) images that are most similar to the decomposed CCM image for the query instance, according to the ISS metric. |
These are model group composite (MGC) images for the MIC top 5 model groups.
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| Name | neos-pseudoapplication-2 | sp_product | noip | n37 | allcolor | |
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Rank / ISS
The image-based structural similarity (ISS) metric measures the Euclidean distance between the image-based feature vectors for the query instance and all other instances. A smaller ISS value indicates greater similarity.
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1 / 1.149 | 2 / 1.184 | 3 / 1.253 | 4 / 1.285 | 5 / 1.294 |
Model Group Summary
The table below contains summary information for the five most similar model groups to milo-v13-4-3d-4-0 according to the MIC.
| MODEL GROUP | SUBMITTER | DESCRIPTION | ISS | RANK | |
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| MIC Top 5 | neos-pseudoapplication-2 | NEOS Server Submission | Imported from the MIPLIB2010 submissions. | 1.148906 | 1 |
| sp_product | MIPLIB submission pool | Imported from the MIPLIB2010 submissions. | 1.184199 | 2 | |
| noip | Christopher Hojny | integer programming formulation that verifies that no integer programming formulation of a given 0/1-point set exists | 1.253228 | 3 | |
| n37 | J. Aronson | Fixed charge transportation problem | 1.284537 | 4 | |
| allcolor | Domenico Salvagnin | Prepack optimization model. | 1.293812 | 5 |
