--- language: ja thumbnail: https://github.com/rinnakk/japanese-gpt2/blob/master/rinna.png tags: - ja - japanese - roberta - masked-lm - nlp license: mit datasets: - cc100 - wikipedia mask_token: "[MASK]" widget: - text: "[CLS]4年に1度[MASK]は開かれる。" --- # japanese-roberta-base ![rinna-icon](./rinna.png) This repository provides a base-sized Japanese RoBERTa model. The model was trained using code from Github repository [rinnakk/japanese-pretrained-models](https://github.com/rinnakk/japanese-pretrained-models) by [rinna Co., Ltd.](https://corp.rinna.co.jp/) # How to load the model ~~~~ from transformers import AutoTokenizer, AutoModelForMaskedLM tokenizer = AutoTokenizer.from_pretrained("rinna/japanese-roberta-base", use_fast=False) tokenizer.do_lower_case = True # due to some bug of tokenizer config loading model = AutoModelForMaskedLM.from_pretrained("rinna/japanese-roberta-base") ~~~~ # How to use the model for masked token prediction ## Note 1: Use `[CLS]` To predict a masked token, be sure to add a `[CLS]` token before the sentence for the model to correctly encode it, as it is used during the model training. ## Note 2: Use `[MASK]` after tokenization A) Directly typing `[MASK]` in an input string and B) replacing a token with `[MASK]` after tokenization will yield different token sequences, and thus different prediction results. It is more appropriate to use `[MASK]` after tokenization (as it is consistent with how the model was pretrained). However, the Huggingface Inference API only supports typing `[MASK]` in the input string and produces less robust predictions. ## Note 3: Provide `position_ids` as an argument explicitly When `position_ids` are not provided for a `Roberta*` model, Huggingface's `transformers` will automatically construct it but start from `padding_idx` instead of `0` (see [issue](https://github.com/rinnakk/japanese-pretrained-models/issues/3) and function `create_position_ids_from_input_ids()` in Huggingface's [implementation](https://github.com/huggingface/transformers/blob/master/src/transformers/models/roberta/modeling_roberta.py)), which unfortunately does not work as expected with `rinna/japanese-roberta-base` since the `padding_idx` of the corresponding tokenizer is not `0`. So please be sure to constrcut the `position_ids` by yourself and make it start from position id `0`. ## Example Here is an example by to illustrate how our model works as a masked language model. Notice the difference between running the following code example and running the Huggingface Inference API. ~~~~ # original text text = "4年に1度オリンピックは開かれる。" # prepend [CLS] text = "[CLS]" + text # tokenize tokens = tokenizer.tokenize(text) print(tokens) # output: ['[CLS]', '▁4', '年に', '1', '度', 'オリンピック', 'は', '開かれる', '。'] # mask a token masked_idx = 5 tokens[masked_idx] = tokenizer.mask_token print(tokens) # output: ['[CLS]', '▁4', '年に', '1', '度', '[MASK]', 'は', '開かれる', '。'] # convert to ids token_ids = tokenizer.convert_tokens_to_ids(tokens) print(token_ids) # output: [4, 1602, 44, 24, 368, 6, 11, 21583, 8] # convert to tensor import torch token_tensor = torch.LongTensor([token_ids]) # provide position ids explicitly position_ids = list(range(0, token_tensor.size(1))) print(position_ids) # output: [0, 1, 2, 3, 4, 5, 6, 7, 8] position_id_tensor = torch.LongTensor([position_ids]) # get the top 10 predictions of the masked token with torch.no_grad(): outputs = model(input_ids=token_tensor, position_ids=position_id_tensor) predictions = outputs[0][0, masked_idx].topk(10) for i, index_t in enumerate(predictions.indices): index = index_t.item() token = tokenizer.convert_ids_to_tokens([index])[0] print(i, token) """ 0 総会 1 サミット 2 ワールドカップ 3 フェスティバル 4 大会 5 オリンピック 6 全国大会 7 党大会 8 イベント 9 世界選手権 """ ~~~~ # Model architecture A 12-layer, 768-hidden-size transformer-based masked language model. # Training The model was trained on [Japanese CC-100](http://data.statmt.org/cc-100/ja.txt.xz) and [Japanese Wikipedia](https://dumps.wikimedia.org/jawiki/) to optimize a masked language modelling objective on 8*V100 GPUs for around 15 days. It reaches ~3.9 perplexity on a dev set sampled from CC-100. # Tokenization The model uses a [sentencepiece](https://github.com/google/sentencepiece)-based tokenizer, the vocabulary was trained on the Japanese Wikipedia using the official sentencepiece training script. # Licenese [The MIT license](https://opensource.org/licenses/MIT)