This is a fairly minimal implementation of GPT-NeoX-20B in PyTorch. It is meant primarily as an educational/reference implementation, rather than an optimized or feature-full implementation.
GPT-NeoX-20B is a 20B-parameter autoregressive Transformer model developed by EleutherAI with the support of CoreWeave, trained using the GPT-NeoX library.
Some notes about the model:
- The model weights and activations come in half-precision (fp16).
- In fp16, loading the model weights requires about 40GB of GPU memory. Running inference on a single batch requires some more.
- The model supports up to a maximum sequence length of 2048 tokens.
Install PyTorch with your appropriate CUDA version, and then install from the requirements.txt (basically just tokenizers).
pip install -r requirements.txtFollowing the NeoX guide, download the model weights and tokenizer JSON file with the following command:
wget --cut-dirs=5 -nH -r --no-parent --reject "index.html*" https://mystic.the-eye.eu/public/AI/models/GPT-NeoX-20B/slim_weights/ -P 20B_checkpointsYou can also manually down them from here. Because of the size of the model, the model weights are broken into multiple files, based on the DeepSpeed save format.
Here is some sample code to generate text. Note that since we are greedily decoding with no fancy tricks, there tends to be quite some repetitiion in generations.
import minimal20b
import torch
model = minimal20b.create_model(
"/path/to/20B_checkpoints/global_step150000",
use_cache=True,
device="cuda:0",
)
tokenizer = minimal20b.create_tokenizer(
"/path/to/20B_checkpoints/20B_tokenizer.json",
)
with torch.inference_mode():
minimal20b.greedy_generate_text(
model, tokenizer,
"GPTNeoX20B is a 20B-parameter autoregressive Transformer model developed by EleutherAI.",
max_seq_len=100,
)To run evaluation with the LM-eval-harness, you will need to install some additional dependencies (mostly just the eval harness library):
pip install -r scripts/eval/requirements.txtMost datasets are automatically downloaded via Hugging Face datasets, but if you are evaluating on lambada, you will need to separately download the data.
mkdir -p data/lambada
wget http:https://eaidata.bmk.sh/data/lambada_test.jsonl -O data/lambada/lambada_test.jsonlThen, you can run the following command.
python scripts/eval/eval_harness.py \
--model_path /path/to/20B_checkpoints/global_step150000 \
--tokenizer_path /path/to/20B_checkpoints/20B_tokenizer.json \
--tasks lambada,anli_r1,anli_r2,anli_r3,wsc,winogrande,hellaswag,piqa| Task | Metric | NeoX Impl (2 GPU) | This Repo (1 GPU) |
|---|---|---|---|
| anli_r1 | acc | 0.3270 | 0.3300 |
| acc_stderr | 0.0148 | 0.0149 | |
| anli_r2 | acc | 0.3410 | 0.3420 |
| acc_stderr | 0.0150 | 0.0150 | |
| anli_r3 | acc | 0.3567 | 0.3617 |
| acc_stderr | 0.0138 | 0.0139 | |
| hellaswag | acc | 0.5351 | 0.5335 |
| acc_stderr | 0.0050 | 0.0050 | |
| acc_norm | 0.7140 | 0.7126 | |
| acc_norm_stderr | 0.0045 | 0.0045 | |
| lambada | acc | 0.7211 | 0.7223 |
| acc_stderr | 0.0062 | 0.0062 | |
| ppl | 3.6760 | 3.6559 | |
| ppl_stderr | 0.0760 | 0.0757 | |
| piqa | acc | 0.7748 | 0.7758 |
| acc_stderr | 0.0097 | 0.0097 | |
| acc_norm | 0.7786 | 0.7856 | |
| acc_norm_stderr | 0.0097 | 0.0096 | |
| winogrande | acc | 0.6598 | 0.6598 |
| acc_stderr | 0.0133 | 0.0133 | |
| wsc | acc | 0.5096 | 0.4808 |
| acc_stderr | 0.0493 | 0.0492 |