Bo1015
/

proteinglm-3b-clm

@@ -3,29 +3,28 @@ tags:
 - biology
 - medical
 ---
-# xTrimoPGLM-3B-CLM
 ## Model Introduction
-**xTrimoPGLM-3B-CLM** is the open-source version of the latest generative protein language models designed to generate faithful and diverse protein sequences. The xTrimoPGLM family models are developed by BioMap and Tsinghua University. Along with this, we have released the int4 quantization xTrimoPGLM-100B weights and other xTrimo-series small models, which include: 1B, 3B, and 10B models trained with masked language modeling for protein understanding, and 1B, 3B, and 7B causal language models aimed at protein design.
 ### Out-of-Distribution Perplexity Evaluation
-We evaluated the xTrimoPGLM-CLM (xTCLM) and xTrimoPGLM(100B) models on two OOD test sets, one with sequence identity lower than 0.9 with the training set (<0.9 ID) and the other with sequence identity lower than 0.5 with the training set (<0.5 ID). Each OOD dataset comprises approximately 10,000 protein sequences. The perplexity results, compared against ProGen2-xlarge (6.4B), are as follows (lower is better):
-| Model               | ProGen2-xlarge (6.4B) | xTCLM (1B) | xTCLM (3B) | xTCLM (7B) | xT (100B)-INT4 |
 |:--------------------|:----------:|:----------:|:----------:|:--------------------:|:--------------------:|
-| < 0.9 ID            |   9.7     | 9.8    |    9.3    |      8.9        |      **8.9**         |
-| < 0.5 ID            |   14.3    |  14.0  |    13.7  |    13.5         |   **13.5**          |
 ## How to use
 ```python
 from transformers import AutoModelForCausalLM, AutoTokenizer, AutoConfig
 import torch
-tokenizer  = AutoTokenizer.from_pretrained("biomap-research/xtrimopglm-3b-clm", trust_remote_code=True, use_fast=True)
-model = AutoModelForCausalLM.from_pretrained("biomap-research/xtrimopglm-3b-clm", trust_remote_code=True, torch_dtype=torch.bfloat16)
 if torch.cuda.is_available():
     model = model.cuda()
 model.eval()
@@ -39,9 +38,6 @@ for idx, each in enumerate(prompt):
     print(f"\nEnd generation with length: {len(output.split())} - seqs: {output}\n")
 ```
-For more inference or fine-tuning code, datasets, and requirements, please visit our [GitHub page](https://github.com/biomap-research/xTrimoPGLM).
 ## LICENSE
 The code in this repository is open source under the [Creative Commons Attribution-NonCommercial 4.0 International License](./LICENSE).
@@ -49,21 +45,20 @@ The code in this repository is open source under the [Creative Commons Attributi
 ## Citations
 If you find our work useful, please consider citing the following paper:
-```latex
-@misc{chen2024xtrimopglm,
   title={xTrimoPGLM: unified 100B-scale pre-trained transformer for deciphering the language of protein},
   author={Chen, Bo and Cheng, Xingyi and Li, Pan and Geng, Yangli-ao and Gong, Jing and Li, Shen and Bei, Zhilei and Tan, Xu and Wang, Boyan and Zeng, Xin and others},
-  year={2024},
-  eprint={2401.06199},
-  archivePrefix={arXiv},
-  primaryClass={cs.CL},
-  note={arXiv preprint arXiv:2401.06199}
 }
-@misc{cheng2024training,
   title={Training Compute-Optimal Protein Language Models},
   author={Cheng, Xingyi and Chen, Bo and Li, Pan and Gong, Jing and Tang, Jie and Song, Le},
   year={2024},
-  note={bioRxiv, Cold Spring Harbor Laboratory, pages 2024--06}
 }
-```

 - biology
 - medical
 ---
+# ProteinGLM-3B-CLM
 ## Model Introduction
+**ProteinGLM-3B-CLM** is the open-source version of the latest generative protein language models designed to generate faithful and diverse protein sequences. The ProteinGLM family models are developed by Tsinghua University. Along with this, we have released the int4 quantization ProteinGLM weights and other small models, which include: 1B, 3B, and 10B models trained with masked language modeling for protein understanding, and 1B, 3B, and 7B causal language models aimed at protein design.
 ### Out-of-Distribution Perplexity Evaluation
+We evaluated the ProteinGLM-CLM (PGLM) and ProteinGLM-INT4(100B) models on two OOD test sets, one with sequence identity lower than 0.9 with the training set (<0.9 ID) and the other with sequence identity lower than 0.5 with the training set (<0.5 ID). Each OOD dataset comprises approximately 10,000 protein sequences. The perplexity results, compared against ProGen2-xlarge (6.4B), are as follows (lower is better):
+| Model               | ProGen2-xlarge (6.4B) | PGLM (1B) | PGLM (3B) | PGLM (7B) | PGLM-INT4 (100B) |
 |:--------------------|:----------:|:----------:|:----------:|:--------------------:|:--------------------:|
+| < 0.9 ID            |   9.7     | 9.8    |    9.3    |      8.9    |            **8.7**         |
+| < 0.5 ID            |   14.3    |  14.0  |    13.7  |    13.5   |         **13.3**          |
 ## How to use
 ```python
 from transformers import AutoModelForCausalLM, AutoTokenizer, AutoConfig
 import torch
+tokenizer  = AutoTokenizer.from_pretrained("Bo1015/proteinglm-3b-clm", trust_remote_code=True, use_fast=True)
+model = AutoModelForCausalLM.from_pretrained("Bo1015/proteinglm-3b-clm", trust_remote_code=True, torch_dtype=torch.bfloat16)
 if torch.cuda.is_available():
     model = model.cuda()
 model.eval()
     print(f"\nEnd generation with length: {len(output.split())} - seqs: {output}\n")
 ```
 ## LICENSE
 The code in this repository is open source under the [Creative Commons Attribution-NonCommercial 4.0 International License](./LICENSE).
 ## Citations
 If you find our work useful, please consider citing the following paper:
+```
+@article{chen2024xtrimopglm,
   title={xTrimoPGLM: unified 100B-scale pre-trained transformer for deciphering the language of protein},
   author={Chen, Bo and Cheng, Xingyi and Li, Pan and Geng, Yangli-ao and Gong, Jing and Li, Shen and Bei, Zhilei and Tan, Xu and Wang, Boyan and Zeng, Xin and others},
+  journal={arXiv preprint arXiv:2401.06199},
+  year={2024}
 }
+@article{cheng2024training,
   title={Training Compute-Optimal Protein Language Models},
   author={Cheng, Xingyi and Chen, Bo and Li, Pan and Gong, Jing and Tang, Jie and Song, Le},
+  journal={bioRxiv},
+  pages={2024--06},
   year={2024},
+  publisher={Cold Spring Harbor Laboratory}
 }
+```