This repo contains all existing pretrained models that are fine-tuned for the Named Entity Recognition (NER) task. These models trained on a mixed NER dataset collected from ARMAN, PEYMA, and WikiANN that covered ten types of entities:
- Date (DAT)
- Event (EVE)
- Facility (FAC)
- Location (LOC)
- Money (MON)
- Organization (ORG)
- Percent (PCT)
- Person (PER)
- Product (PRO)
- Time (TIM)
| Records | B-DAT | B-EVE | B-FAC | B-LOC | B-MON | B-ORG | B-PCT | B-PER | B-PRO | B-TIM | I-DAT | I-EVE | I-FAC | I-LOC | I-MON | I-ORG | I-PCT | I-PER | I-PRO | I-TIM | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Train | 29133 | 1423 | 1487 | 1400 | 13919 | 417 | 15926 | 355 | 12347 | 1855 | 150 | 1947 | 5018 | 2421 | 4118 | 1059 | 19579 | 573 | 7699 | 1914 | 332 |
| Valid | 5142 | 267 | 253 | 250 | 2362 | 100 | 2651 | 64 | 2173 | 317 | 19 | 373 | 799 | 387 | 717 | 270 | 3260 | 101 | 1382 | 303 | 35 |
| Test | 6049 | 407 | 256 | 248 | 2886 | 98 | 3216 | 94 | 2646 | 318 | 43 | 568 | 888 | 408 | 858 | 263 | 3967 | 141 | 1707 | 296 | 78 |
Download You can download the dataset from here
The following tables summarize the scores obtained by pretrained models overall and per each class.
| Model | accuracy | precision | recall | f1 |
|---|---|---|---|---|
| Bert | 0.995086 | 0.953454 | 0.961113 | 0.957268 |
| Roberta | 0.994849 | 0.949816 | 0.960235 | 0.954997 |
| Distilbert | 0.994534 | 0.946326 | 0.95504 | 0.950663 |
| Albert | 0.993405 | 0.938907 | 0.943966 | 0.941429 |
| number | precision | recall | f1 | |
|---|---|---|---|---|
| DAT | 407 | 0.860636 | 0.864865 | 0.862745 |
| EVE | 256 | 0.969582 | 0.996094 | 0.982659 |
| FAC | 248 | 0.976190 | 0.991935 | 0.984000 |
| LOC | 2884 | 0.970232 | 0.971914 | 0.971072 |
| MON | 98 | 0.905263 | 0.877551 | 0.891192 |
| ORG | 3216 | 0.939125 | 0.954602 | 0.946800 |
| PCT | 94 | 1.000000 | 0.968085 | 0.983784 |
| PER | 2645 | 0.965244 | 0.965974 | 0.965608 |
| PRO | 318 | 0.981481 | 1.000000 | 0.990654 |
| TIM | 43 | 0.692308 | 0.837209 | 0.757895 |
| number | precision | recall | f1 | |
|---|---|---|---|---|
| DAT | 407 | 0.844869 | 0.869779 | 0.857143 |
| EVE | 256 | 0.948148 | 1.000000 | 0.973384 |
| FAC | 248 | 0.957529 | 1.000000 | 0.978304 |
| LOC | 2884 | 0.965422 | 0.968100 | 0.966759 |
| MON | 98 | 0.937500 | 0.918367 | 0.927835 |
| ORG | 3216 | 0.943662 | 0.958333 | 0.950941 |
| PCT | 94 | 1.000000 | 0.968085 | 0.983784 |
| PER | 2646 | 0.957030 | 0.959562 | 0.958294 |
| PRO | 318 | 0.963636 | 1.000000 | 0.981481 |
| TIM | 43 | 0.739130 | 0.790698 | 0.764045 |
| number | precision | recall | f1 | |
|---|---|---|---|---|
| DAT | 407 | 0.812048 | 0.828010 | 0.819951 |
| EVE | 256 | 0.955056 | 0.996094 | 0.975143 |
| FAC | 248 | 0.972549 | 1.000000 | 0.986083 |
| LOC | 2884 | 0.968403 | 0.967060 | 0.967731 |
| MON | 98 | 0.925532 | 0.887755 | 0.906250 |
| ORG | 3216 | 0.932095 | 0.951803 | 0.941846 |
| PCT | 94 | 0.936842 | 0.946809 | 0.941799 |
| PER | 2645 | 0.959818 | 0.957278 | 0.958546 |
| PRO | 318 | 0.963526 | 0.996855 | 0.979907 |
| TIM | 43 | 0.760870 | 0.813953 | 0.786517 |
| number | precision | recall | f1 | |
|---|---|---|---|---|
| DAT | 407 | 0.820639 | 0.820639 | 0.820639 |
| EVE | 256 | 0.936803 | 0.984375 | 0.960000 |
| FAC | 248 | 0.925373 | 1.000000 | 0.961240 |
| LOC | 2884 | 0.960818 | 0.960818 | 0.960818 |
| MON | 98 | 0.913978 | 0.867347 | 0.890052 |
| ORG | 3216 | 0.920892 | 0.937500 | 0.929122 |
| PCT | 94 | 0.946809 | 0.946809 | 0.946809 |
| PER | 2644 | 0.960000 | 0.944024 | 0.951945 |
| PRO | 318 | 0.942943 | 0.987421 | 0.964670 |
| TIM | 43 | 0.780488 | 0.744186 | 0.761905 |
You use this model with Transformers pipeline for NER.
pip install sentencepiece
pip install transformersfrom transformers import AutoTokenizer
from transformers import AutoModelForTokenClassification # for pytorch
from transformers import TFAutoModelForTokenClassification # for tensorflow
from transformers import pipeline
# model_name_or_path = "HooshvareLab/bert-fa-zwnj-base-ner" # Roberta
# model_name_or_path = "HooshvareLab/roberta-fa-zwnj-base-ner" # Roberta
model_name_or_path = "HooshvareLab/distilbert-fa-zwnj-base-ner" # Distilbert
# model_name_or_path = "HooshvareLab/albert-fa-zwnj-base-v2-ner" # Albert
tokenizer = AutoTokenizer.from_pretrained(model_name_or_path)
model = AutoModelForTokenClassification.from_pretrained(model_name_or_path) # Pytorch
# model = TFAutoModelForTokenClassification.from_pretrained(model_name_or_path) # Tensorflow
nlp = pipeline("ner", model=model, tokenizer=tokenizer)
example = "در سال ۲۰۱۳ درگذشت و آندرتیکر و کین برای او مراسم یادبود گرفتند."
ner_results = nlp(example)
print(ner_results)All models were trained on a single NVIDIA P100 GPU with following parameters.
Arguments
"task_name": "ner"
"model_name_or_path": model_name_or_path
"train_file": "/content/ner/train.csv"
"validation_file": "/content/ner/valid.csv"
"test_file": "/content/ner/test.csv"
"output_dir": output_dir
"cache_dir": "/content/cache"
"per_device_train_batch_size": 16
"per_device_eval_batch_size": 16
"use_fast_tokenizer": True
"num_train_epochs": 5.0
"do_train": True
"do_eval": True
"do_predict": True
"learning_rate": 2e-5
"evaluation_strategy": "steps"
"logging_steps": 1000
"save_steps": 1000
"save_total_limit": 2
"overwrite_output_dir": True
"fp16": True
"preprocessing_num_workers": 4Please cite this repository in publications as the following:
@misc{ParsNER,
author = {Hooshvare Team},
title = {Pre-Trained NER models for Persian},
year = {2021},
publisher = {GitHub},
journal = {GitHub repository},
howpublished = {\url{https://github.com/hooshvare/parsner}},
}
Post a Github issue on the ParsNER Issues repo.