model
large_stringclasses 5
values | model_short
large_stringclasses 5
values | dim_reduction
large_stringclasses 5
values | clustering
large_stringclasses 12
values | v_measure
float64 0.01
0.97
| adjusted_rand_index
float64 0
0.96
| normalized_mutual_info
float64 0.01
0.97
| homogeneity
float64 0.01
0.98
| completeness
float64 0.06
0.99
| n_clusters_pred
float64 2
278
| n_clusters_true
float64 30
30
| path
large_stringlengths 98
140
|
|---|---|---|---|---|---|---|---|---|---|---|---|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.770468
| 0.599283
| 0.770468
| 0.764791
| 0.77623
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.771283
| 0.607709
| 0.771283
| 0.766056
| 0.776581
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.771026
| 0.613634
| 0.771026
| 0.7657
| 0.776427
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.774684
| 0.608833
| 0.774684
| 0.768377
| 0.781094
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.773958
| 0.60476
| 0.773958
| 0.76814
| 0.779864
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.770529
| 0.608056
| 0.770529
| 0.765815
| 0.775301
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.775586
| 0.593814
| 0.775586
| 0.768085
| 0.783236
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.773964
| 0.609319
| 0.773964
| 0.768127
| 0.779889
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.773326
| 0.574426
| 0.773326
| 0.76475
| 0.782095
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.776089
| 0.60815
| 0.776089
| 0.770382
| 0.781881
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_8_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.776447
| 0.6288
| 0.776447
| 0.772199
| 0.780742
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.78175
| 0.62549
| 0.78175
| 0.776873
| 0.786689
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.784487
| 0.636866
| 0.784487
| 0.779761
| 0.789272
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.782857
| 0.627973
| 0.782857
| 0.777685
| 0.788098
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.778437
| 0.613362
| 0.778437
| 0.772367
| 0.784604
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.776514
| 0.631273
| 0.776514
| 0.772688
| 0.780378
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.782031
| 0.638939
| 0.782031
| 0.77784
| 0.786266
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.778241
| 0.618642
| 0.778241
| 0.773019
| 0.783533
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.776075
| 0.615585
| 0.776075
| 0.771111
| 0.781104
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.779009
| 0.629947
| 0.779009
| 0.774714
| 0.783351
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_aves_9_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.726149
| 0.544332
| 0.726149
| 0.721384
| 0.730978
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.724749
| 0.547581
| 0.724749
| 0.71976
| 0.729809
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.73546
| 0.558903
| 0.73546
| 0.730825
| 0.740154
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.727811
| 0.54739
| 0.727811
| 0.722073
| 0.733641
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.727704
| 0.544723
| 0.727704
| 0.723463
| 0.731994
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.729351
| 0.556022
| 0.729351
| 0.725813
| 0.732922
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.724342
| 0.554151
| 0.724342
| 0.720216
| 0.728515
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.729816
| 0.5524
| 0.729816
| 0.725089
| 0.734605
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.730181
| 0.560453
| 0.730181
| 0.726249
| 0.734156
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.725421
| 0.558055
| 0.725421
| 0.721501
| 0.729383
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_10_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.707697
| 0.508819
| 0.707697
| 0.702414
| 0.713061
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.698607
| 0.50124
| 0.698607
| 0.694222
| 0.703048
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.697013
| 0.508585
| 0.697013
| 0.693018
| 0.701053
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.705067
| 0.516894
| 0.705067
| 0.701466
| 0.708705
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.694982
| 0.512386
| 0.694982
| 0.691817
| 0.698176
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.69699
| 0.497373
| 0.69699
| 0.693341
| 0.700678
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.696743
| 0.498914
| 0.696743
| 0.693167
| 0.700357
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.691291
| 0.500693
| 0.691291
| 0.688322
| 0.694287
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.687563
| 0.48369
| 0.687563
| 0.682638
| 0.692559
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.697809
| 0.513393
| 0.697809
| 0.695221
| 0.700417
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_1_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.699684
| 0.496603
| 0.699684
| 0.692728
| 0.706782
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.696532
| 0.505861
| 0.696532
| 0.691748
| 0.701383
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.699202
| 0.507562
| 0.699202
| 0.694121
| 0.704358
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.702527
| 0.519657
| 0.702527
| 0.698041
| 0.707071
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.701842
| 0.503615
| 0.701842
| 0.696533
| 0.707232
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.696009
| 0.50024
| 0.696009
| 0.690337
| 0.701775
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.702466
| 0.507438
| 0.702466
| 0.696824
| 0.7082
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.699284
| 0.505597
| 0.699284
| 0.693075
| 0.705605
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.699845
| 0.498823
| 0.699845
| 0.693373
| 0.706438
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.69374
| 0.495884
| 0.69374
| 0.6875
| 0.700094
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_2_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.686391
| 0.472394
| 0.686391
| 0.68044
| 0.692447
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.686764
| 0.479712
| 0.686764
| 0.681984
| 0.691612
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.695018
| 0.483984
| 0.695018
| 0.688235
| 0.701936
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.693583
| 0.485207
| 0.693583
| 0.687952
| 0.699306
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.699581
| 0.493271
| 0.699581
| 0.692195
| 0.707125
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.690483
| 0.481458
| 0.690483
| 0.683826
| 0.697271
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.690361
| 0.492417
| 0.690361
| 0.685437
| 0.695357
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.692979
| 0.485885
| 0.692979
| 0.686176
| 0.699917
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.686603
| 0.469819
| 0.686603
| 0.680088
| 0.693243
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.700135
| 0.48783
| 0.700135
| 0.692868
| 0.707557
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_3_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.709629
| 0.530594
| 0.709629
| 0.703238
| 0.716138
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.706653
| 0.527645
| 0.706653
| 0.701426
| 0.711957
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.702173
| 0.513963
| 0.702173
| 0.696764
| 0.707665
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.705489
| 0.536889
| 0.705489
| 0.702062
| 0.708951
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.714289
| 0.525193
| 0.714289
| 0.707327
| 0.72139
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.711106
| 0.531736
| 0.711106
| 0.705671
| 0.716626
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.701902
| 0.508892
| 0.701902
| 0.695818
| 0.708094
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.714436
| 0.528924
| 0.714436
| 0.708211
| 0.720771
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.706558
| 0.528349
| 0.706558
| 0.701662
| 0.711522
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.71081
| 0.532339
| 0.71081
| 0.706131
| 0.715551
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_4_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.697489
| 0.508271
| 0.697489
| 0.691693
| 0.703384
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.694487
| 0.506921
| 0.694487
| 0.688474
| 0.700605
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.701144
| 0.51608
| 0.701144
| 0.695923
| 0.706444
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.698034
| 0.512056
| 0.698034
| 0.69325
| 0.702884
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.693735
| 0.487097
| 0.693735
| 0.687396
| 0.700193
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.700704
| 0.509448
| 0.700704
| 0.694621
| 0.706895
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.697632
| 0.499845
| 0.697632
| 0.691828
| 0.703533
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.701071
| 0.508387
| 0.701071
| 0.694805
| 0.707451
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.695575
| 0.498665
| 0.695575
| 0.68923
| 0.702038
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.707396
| 0.5177
| 0.707396
| 0.702152
| 0.71272
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_5_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.709681
| 0.516358
| 0.709681
| 0.703541
| 0.715929
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.711468
| 0.521871
| 0.711468
| 0.706146
| 0.716871
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.703771
| 0.51984
| 0.703771
| 0.699341
| 0.708257
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.695608
| 0.495281
| 0.695608
| 0.690192
| 0.70111
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.697698
| 0.514079
| 0.697698
| 0.693942
| 0.701494
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.700572
| 0.518174
| 0.700572
| 0.696854
| 0.704331
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.708285
| 0.527602
| 0.708285
| 0.704557
| 0.712052
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.706264
| 0.518249
| 0.706264
| 0.701867
| 0.710717
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.701178
| 0.520686
| 0.701178
| 0.696999
| 0.705407
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.706667
| 0.515956
| 0.706667
| 0.701014
| 0.712412
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_6_TSNE_9\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.691508
| 0.49735
| 0.691508
| 0.687348
| 0.695719
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_1\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.695959
| 0.493378
| 0.695959
| 0.690594
| 0.701408
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_10\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.696413
| 0.518747
| 0.696413
| 0.692782
| 0.700083
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_2\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.694117
| 0.502276
| 0.694117
| 0.688815
| 0.699501
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_3\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.694837
| 0.492627
| 0.694837
| 0.689327
| 0.700436
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_4\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.696774
| 0.502173
| 0.696774
| 0.692789
| 0.700806
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_5\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.693689
| 0.505652
| 0.693689
| 0.68954
| 0.697887
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_6\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.698466
| 0.504975
| 0.698466
| 0.693579
| 0.703423
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_7\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.700757
| 0.49878
| 0.700757
| 0.694676
| 0.706945
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_8\analysis_summary.json
|
BioCLIP 2 ViT-L/14
|
bioclip2_vitl14
|
TSNE
|
HIERARCHICAL_K30
| 0.6923
| 0.500059
| 0.6923
| 0.688161
| 0.696489
| 30
| 30
|
bioclip2_vitl14\dimension_reduction\TSNE\clustering\HIERARCHICAL_K30\bioclip2_vitl14_mammalia_7_TSNE_9\analysis_summary.json
|
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.