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model update

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README.md ADDED
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+ ---
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+ datasets:
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+ - relbert/semeval2012_relational_similarity
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+ model-index:
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+ - name: relbert/relbert-bert-base-nce-a-semeval2012
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+ results:
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+ - task:
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+ name: Relation Mapping
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+ type: sorting-task
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+ dataset:
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+ name: Relation Mapping
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+ args: relbert/relation_mapping
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+ type: relation-mapping
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: None
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+ - task:
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+ name: Analogy Questions (SAT full)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: SAT full
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.446524064171123
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+ - task:
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+ name: Analogy Questions (SAT)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: SAT
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.44807121661721067
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+ - task:
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+ name: Analogy Questions (BATS)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: BATS
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.5491939966648138
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+ - task:
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+ name: Analogy Questions (Google)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: Google
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.722
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+ - task:
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+ name: Analogy Questions (U2)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: U2
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.3684210526315789
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+ - task:
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+ name: Analogy Questions (U4)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: U4
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.40046296296296297
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+ - task:
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+ name: Analogy Questions (ConceptNet Analogy)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: ConceptNet Analogy
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.2709731543624161
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+ - task:
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+ name: Analogy Questions (TREX Analogy)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: TREX Analogy
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.4918032786885246
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+ - task:
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+ name: Analogy Questions (NELL-ONE Analogy)
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+ type: multiple-choice-qa
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+ dataset:
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+ name: NELL-ONE Analogy
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+ args: relbert/analogy_questions
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+ type: analogy-questions
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+ metrics:
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+ - name: Accuracy
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+ type: accuracy
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+ value: 0.5666666666666667
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+ - task:
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+ name: Lexical Relation Classification (BLESS)
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+ type: classification
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+ dataset:
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+ name: BLESS
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+ args: relbert/lexical_relation_classification
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+ type: relation-classification
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+ metrics:
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+ - name: F1
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+ type: f1
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+ value: 0.908693686906735
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+ - name: F1 (macro)
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+ type: f1_macro
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+ value: 0.9055400457466346
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+ - task:
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+ name: Lexical Relation Classification (CogALexV)
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+ type: classification
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+ dataset:
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+ name: CogALexV
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+ args: relbert/lexical_relation_classification
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+ type: relation-classification
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+ metrics:
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+ - name: F1
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+ type: f1
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+ value: 0.8070422535211269
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+ - name: F1 (macro)
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+ type: f1_macro
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+ value: 0.5665007891204441
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+ - task:
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+ name: Lexical Relation Classification (EVALution)
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+ type: classification
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+ dataset:
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+ name: BLESS
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+ args: relbert/lexical_relation_classification
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+ type: relation-classification
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+ metrics:
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+ - name: F1
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+ type: f1
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+ value: 0.6180931744312026
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+ - name: F1 (macro)
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+ type: f1_macro
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+ value: 0.6141134603634173
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+ - task:
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+ name: Lexical Relation Classification (K&H+N)
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+ type: classification
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+ dataset:
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+ name: K&H+N
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+ args: relbert/lexical_relation_classification
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+ type: relation-classification
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+ metrics:
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+ - name: F1
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+ type: f1
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+ value: 0.955484454336788
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+ - name: F1 (macro)
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+ type: f1_macro
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+ value: 0.8772168996387368
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+ - task:
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+ name: Lexical Relation Classification (ROOT09)
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+ type: classification
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+ dataset:
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+ name: ROOT09
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+ args: relbert/lexical_relation_classification
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+ type: relation-classification
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+ metrics:
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+ - name: F1
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+ type: f1
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+ value: 0.8874960827326857
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+ - name: F1 (macro)
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+ type: f1_macro
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+ value: 0.8854532712455304
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+
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+ ---
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+ # relbert/relbert-bert-base-nce-a-semeval2012
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+
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+ RelBERT based on [bert-base-cased](https://huggingface.co/bert-base-cased) fine-tuned on [relbert/semeval2012_relational_similarity](https://huggingface.co/datasets/relbert/semeval2012_relational_similarity) (see the [`relbert`](https://github.com/asahi417/relbert) for more detail of fine-tuning).
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+ This model achieves the following results on the relation understanding tasks:
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+ - Analogy Question ([dataset](https://huggingface.co/datasets/relbert/analogy_questions), [full result](https://huggingface.co/relbert/relbert-bert-base-nce-a-semeval2012/raw/main/analogy.forward.json)):
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+ - Accuracy on SAT (full): 0.446524064171123
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+ - Accuracy on SAT: 0.44807121661721067
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+ - Accuracy on BATS: 0.5491939966648138
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+ - Accuracy on U2: 0.3684210526315789
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+ - Accuracy on U4: 0.40046296296296297
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+ - Accuracy on Google: 0.722
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+ - Accuracy on ConceptNet Analogy: 0.2709731543624161
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+ - Accuracy on T-Rex Analogy: 0.4918032786885246
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+ - Accuracy on NELL-ONE Analogy: 0.5666666666666667
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+ - Lexical Relation Classification ([dataset](https://huggingface.co/datasets/relbert/lexical_relation_classification), [full result](https://huggingface.co/relbert/relbert-bert-base-nce-a-semeval2012/raw/main/classification.json)):
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+ - Micro F1 score on BLESS: 0.908693686906735
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+ - Micro F1 score on CogALexV: 0.8070422535211269
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+ - Micro F1 score on EVALution: 0.6180931744312026
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+ - Micro F1 score on K&H+N: 0.955484454336788
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+ - Micro F1 score on ROOT09: 0.8874960827326857
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+ - Relation Mapping ([dataset](https://huggingface.co/datasets/relbert/relation_mapping), [full result](https://huggingface.co/relbert/relbert-bert-base-nce-a-semeval2012/raw/main/relation_mapping.json)):
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+ - Accuracy on Relation Mapping: None
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+
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+
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+ ### Usage
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+ This model can be used through the [relbert library](https://github.com/asahi417/relbert). Install the library via pip
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+ ```shell
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+ pip install relbert
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+ ```
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+ and activate model as below.
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+ ```python
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+ from relbert import RelBERT
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+ model = RelBERT("relbert/relbert-bert-base-nce-a-semeval2012")
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+ vector = model.get_embedding(['Tokyo', 'Japan']) # shape of (n_dim, )
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+ ```
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+
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+ ### Training hyperparameters
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+
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+ - model: bert-base-cased
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+ - max_length: 64
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+ - epoch: 10
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+ - batch: 32
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+ - random_seed: 0
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+ - lr: 5e-06
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+ - lr_warmup: 10
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+ - aggregation_mode: average_no_mask
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+ - data: relbert/semeval2012_relational_similarity
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+ - data_name: None
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+ - exclude_relation: None
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+ - split: train
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+ - split_valid: validation
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+ - loss_function: nce
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+ - classification_loss: False
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+ - loss_function_config: {'temperature': 0.05, 'num_negative': 400, 'num_positive': 10}
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+ - augment_negative_by_positive: True
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+
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+ See the full configuration at [config file](https://huggingface.co/relbert/relbert-bert-base-nce-a-semeval2012/raw/main/finetuning_config.json).
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+
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+ ### Reference
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+ If you use any resource from RelBERT, please consider to cite our [paper](https://aclanthology.org/2021.emnlp-main.712/).
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+
250
+ ```
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+
252
+ @inproceedings{ushio-etal-2021-distilling,
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+ title = "Distilling Relation Embeddings from Pretrained Language Models",
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+ author = "Ushio, Asahi and
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+ Camacho-Collados, Jose and
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+ Schockaert, Steven",
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+ booktitle = "Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing",
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+ month = nov,
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+ year = "2021",
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+ address = "Online and Punta Cana, Dominican Republic",
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+ publisher = "Association for Computational Linguistics",
262
+ url = "https://aclanthology.org/2021.emnlp-main.712",
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+ doi = "10.18653/v1/2021.emnlp-main.712",
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+ pages = "9044--9062",
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+ abstract = "Pre-trained language models have been found to capture a surprisingly rich amount of lexical knowledge, ranging from commonsense properties of everyday concepts to detailed factual knowledge about named entities. Among others, this makes it possible to distill high-quality word vectors from pre-trained language models. However, it is currently unclear to what extent it is possible to distill relation embeddings, i.e. vectors that characterize the relationship between two words. Such relation embeddings are appealing because they can, in principle, encode relational knowledge in a more fine-grained way than is possible with knowledge graphs. To obtain relation embeddings from a pre-trained language model, we encode word pairs using a (manually or automatically generated) prompt, and we fine-tune the language model such that relationally similar word pairs yield similar output vectors. We find that the resulting relation embeddings are highly competitive on analogy (unsupervised) and relation classification (supervised) benchmarks, even without any task-specific fine-tuning. Source code to reproduce our experimental results and the model checkpoints are available in the following repository: https://github.com/asahi417/relbert",
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+ }
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+
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+ ```
analogy.bidirection.json ADDED
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+ {"scan/test": 0.28217821782178215, "sat_full/test": 0.49732620320855614, "sat/test": 0.49258160237388726, "u2/test": 0.4166666666666667, "u4/test": 0.4305555555555556, "google/test": 0.718, "bats/test": 0.5541967759866593, "t_rex_relational_similarity/test": 0.5409836065573771, "conceptnet_relational_similarity/test": 0.276006711409396, "nell_relational_similarity/test": 0.6366666666666667, "scan/validation": 0.2752808988764045, "sat/validation": 0.5405405405405406, "u2/validation": 0.4166666666666667, "u4/validation": 0.4375, "google/validation": 0.86, "bats/validation": 0.5829145728643216, "semeval2012_relational_similarity/validation": 0.6835443037974683, "t_rex_relational_similarity/validation": 0.22580645161290322, "conceptnet_relational_similarity/validation": 0.24550359712230216, "nell_relational_similarity/validation": 0.6375}
analogy.forward.json ADDED
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+ {"semeval2012_relational_similarity/validation": 0.7215189873417721, "scan/test": 0.2370049504950495, "sat_full/test": 0.446524064171123, "sat/test": 0.44807121661721067, "u2/test": 0.3684210526315789, "u4/test": 0.40046296296296297, "google/test": 0.722, "bats/test": 0.5491939966648138, "t_rex_relational_similarity/test": 0.4918032786885246, "conceptnet_relational_similarity/test": 0.2709731543624161, "nell_relational_similarity/test": 0.5666666666666667, "scan/validation": 0.24719101123595505, "sat/validation": 0.43243243243243246, "u2/validation": 0.4166666666666667, "u4/validation": 0.4583333333333333, "google/validation": 0.8, "bats/validation": 0.5326633165829145, "t_rex_relational_similarity/validation": 0.19556451612903225, "conceptnet_relational_similarity/validation": 0.2446043165467626, "nell_relational_similarity/validation": 0.5925}
analogy.reverse.json ADDED
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+ {"scan/test": 0.24566831683168316, "sat_full/test": 0.4786096256684492, "sat/test": 0.4807121661721068, "u2/test": 0.45614035087719296, "u4/test": 0.4537037037037037, "google/test": 0.68, "bats/test": 0.5308504724847137, "t_rex_relational_similarity/test": 0.5300546448087432, "conceptnet_relational_similarity/test": 0.25083892617449666, "nell_relational_similarity/test": 0.5916666666666667, "scan/validation": 0.2808988764044944, "sat/validation": 0.4594594594594595, "u2/validation": 0.4583333333333333, "u4/validation": 0.4583333333333333, "google/validation": 0.84, "bats/validation": 0.5477386934673367, "semeval2012_relational_similarity/validation": 0.5822784810126582, "t_rex_relational_similarity/validation": 0.20362903225806453, "conceptnet_relational_similarity/validation": 0.20323741007194246, "nell_relational_similarity/validation": 0.585}
classification.json ADDED
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+ {"lexical_relation_classification/BLESS": {"classifier_config": {"activation": "relu", "alpha": 0.0001, "batch_size": "auto", "beta_1": 0.9, "beta_2": 0.999, "early_stopping": false, "epsilon": 1e-08, "hidden_layer_sizes": [100], "learning_rate": "constant", "learning_rate_init": 0.001, "max_fun": 15000, "max_iter": 200, "momentum": 0.9, "n_iter_no_change": 10, "nesterovs_momentum": true, "power_t": 0.5, "random_state": 0, "shuffle": true, "solver": "adam", "tol": 0.0001, "validation_fraction": 0.1, "verbose": false, "warm_start": false}, "test/accuracy": 0.908693686906735, "test/f1_macro": 0.9055400457466346, "test/f1_micro": 0.908693686906735, "test/p_macro": 0.9099863768301774, "test/p_micro": 0.908693686906735, "test/r_macro": 0.9014547960168372, "test/r_micro": 0.908693686906735}, "lexical_relation_classification/CogALexV": {"classifier_config": {"activation": "relu", "alpha": 0.0001, "batch_size": "auto", "beta_1": 0.9, "beta_2": 0.999, "early_stopping": false, "epsilon": 1e-08, "hidden_layer_sizes": [100], "learning_rate": "constant", "learning_rate_init": 0.001, "max_fun": 15000, "max_iter": 200, "momentum": 0.9, "n_iter_no_change": 10, "nesterovs_momentum": true, "power_t": 0.5, "random_state": 0, "shuffle": true, "solver": "adam", "tol": 0.0001, "validation_fraction": 0.1, "verbose": false, "warm_start": false}, "test/accuracy": 0.8070422535211268, "test/f1_macro": 0.5665007891204441, "test/f1_micro": 0.8070422535211269, "test/p_macro": 0.604069659132816, "test/p_micro": 0.8070422535211268, "test/r_macro": 0.5379500342039009, "test/r_micro": 0.8070422535211268}, "lexical_relation_classification/EVALution": {"classifier_config": {"activation": "relu", "alpha": 0.0001, "batch_size": "auto", "beta_1": 0.9, "beta_2": 0.999, "early_stopping": false, "epsilon": 1e-08, "hidden_layer_sizes": [100], "learning_rate": "constant", "learning_rate_init": 0.001, "max_fun": 15000, "max_iter": 200, "momentum": 0.9, "n_iter_no_change": 10, "nesterovs_momentum": true, "power_t": 0.5, "random_state": 0, "shuffle": true, "solver": "adam", "tol": 0.0001, "validation_fraction": 0.1, "verbose": false, "warm_start": false}, "test/accuracy": 0.6180931744312026, "test/f1_macro": 0.6141134603634173, "test/f1_micro": 0.6180931744312026, "test/p_macro": 0.6280590473797103, "test/p_micro": 0.6180931744312026, "test/r_macro": 0.6053997740960108, "test/r_micro": 0.6180931744312026}, "lexical_relation_classification/K&H+N": {"classifier_config": {"activation": "relu", "alpha": 0.0001, "batch_size": "auto", "beta_1": 0.9, "beta_2": 0.999, "early_stopping": false, "epsilon": 1e-08, "hidden_layer_sizes": [100], "learning_rate": "constant", "learning_rate_init": 0.001, "max_fun": 15000, "max_iter": 200, "momentum": 0.9, "n_iter_no_change": 10, "nesterovs_momentum": true, "power_t": 0.5, "random_state": 0, "shuffle": true, "solver": "adam", "tol": 0.0001, "validation_fraction": 0.1, "verbose": false, "warm_start": false}, "test/accuracy": 0.955484454336788, "test/f1_macro": 0.8772168996387368, "test/f1_micro": 0.955484454336788, "test/p_macro": 0.9146552911671193, "test/p_micro": 0.955484454336788, "test/r_macro": 0.8510643791276826, "test/r_micro": 0.955484454336788}, "lexical_relation_classification/ROOT09": {"classifier_config": {"activation": "relu", "alpha": 0.0001, "batch_size": "auto", "beta_1": 0.9, "beta_2": 0.999, "early_stopping": false, "epsilon": 1e-08, "hidden_layer_sizes": [100], "learning_rate": "constant", "learning_rate_init": 0.001, "max_fun": 15000, "max_iter": 200, "momentum": 0.9, "n_iter_no_change": 10, "nesterovs_momentum": true, "power_t": 0.5, "random_state": 0, "shuffle": true, "solver": "adam", "tol": 0.0001, "validation_fraction": 0.1, "verbose": false, "warm_start": false}, "test/accuracy": 0.8874960827326857, "test/f1_macro": 0.8854532712455304, "test/f1_micro": 0.8874960827326857, "test/p_macro": 0.8824800075945705, "test/p_micro": 0.8874960827326857, "test/r_macro": 0.8887571942583555, "test/r_micro": 0.8874960827326857}}
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+ "template": "Today, I finally discovered the relation between <subj> and <obj> : <subj> is the <mask> of <obj>"
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+ }
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+ "num_positive": 10
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+ "augment_negative_by_positive": true
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+ }
tokenizer.json ADDED
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tokenizer_config.json ADDED
@@ -0,0 +1,14 @@
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
1
+ {
2
+ "cls_token": "[CLS]",
3
+ "do_lower_case": false,
4
+ "mask_token": "[MASK]",
5
+ "model_max_length": 512,
6
+ "name_or_path": "bert-base-cased",
7
+ "pad_token": "[PAD]",
8
+ "sep_token": "[SEP]",
9
+ "special_tokens_map_file": null,
10
+ "strip_accents": null,
11
+ "tokenize_chinese_chars": true,
12
+ "tokenizer_class": "BertTokenizer",
13
+ "unk_token": "[UNK]"
14
+ }
vocab.txt ADDED
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