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--- |
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license: apache-2.0 |
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language: |
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- en |
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pipeline_tag: text-generation |
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tags: |
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- music |
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- art |
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--- |
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<div align="center"> |
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<img src="Yi_logo.svg" width="150px" style="display: inline-block;"> |
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<img src="m-a-p.png" width="150px" style="display: inline-block;"> |
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</div> |
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## MuPT: Symbolic Music Generative Pre-trained Transformer |
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MuPT is a series of pre-trained models for symbolic music generation. It was trained on a large-scale dataset of symbolic music, including millions of monophonic and polyphonic pieces from different genres and styles. The models are trained with the LLama2 architecture, and can be further used for downstream music generation tasks such as melody generation, accompaniment generation, and multi-track music generation. |
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- 09/01/2024: a series of pre-trained MuPT models are released, with parameters ranging from 110M to 1.3B. |
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## Model architecture |
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The details of model architecture of MuPT-v1 are listed below: |
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| Name | Parameters | Training Data(Music Pieces) | Seq Length | Hidden Size | Layers | Heads | |
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| :--- | :---: | :---: | :---: | :---: | :---: | :---: | |
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| MuPT-v1-8192-110M | 110M | 7M x 8 epochs | 8192 | 768 | 12 | 12 | |
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| MuPT-v1-8192-345M | 345M | 7M x 6 epochs | 8192 | 1024 | 24 | 16 | |
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| MuPT-v1-8192-770M | 770M | 7M x 5 epochs | 8192 | 1280 | 36 | 20 | |
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| MuPT-v1-8192-1.3B | 1.3B | 7M x 8 epochs | 8192 | 1536 | 48 | 24 | |
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## Model Usage |
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#### Huggingface |
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##### Inference |
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```python |
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from transformers import AutoModelForCausalLM, AutoModel, AutoTokenizer |
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tokenizer = AutoTokenizer.from_pretrained("m-a-p/MuPT_v1_8192_110M", |
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trust_remote_code=True, |
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use_fast=False) |
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model = AutoModelForCausalLM.from_pretrained("m-a-p/MuPT_v1_8192_110mM").eval().half().cuda() |
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prefix = "X:1<n>L:1/8<n>Q:1/8=200<n>M:4/4<n>K:Gmin<n>|:\"Gm\" BGdB" # replace "\n" with "<n>" for all the MuPT-8192 models, but not for MuPT-4096 models |
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inputs = tokenizer(prefix, return_tensors="pt").to(model.device) |
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max_length = 256 |
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outputs = model.generate( |
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inputs.input_ids, |
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max_length=max_length |
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) |
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outputs = tokenizer.decode(outputs[0]) |
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print(outputs) |
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``` |
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##### Post-processing |
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Since we merged multiple tracks into one track during training, we need to separate the outputs into standard ABC notation sequences. The post-processing code is as follows: |
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```python |
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import re |
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SEPARATORS = ['|', '|]', '||', '[|', '|:', ':|', '::'] |
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SEP_DICT = {} |
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for i, sep in enumerate(SEPARATORS, start=1): |
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# E.g. ' | ': ' <1>' |
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SEP_DICT[' '+sep+' '] = f' <{i}>' |
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NEWSEP = '<|>' |
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def sep2tok(row): |
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for sep, tok in SEP_DICT.items(): |
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row = row.replace(sep, tok+'<=> ') |
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return row |
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def tok2sep(bar): |
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for sep, tok in SEP_DICT.items(): |
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bar = bar.replace(tok, sep) |
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return bar |
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def spacing(row): |
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for sep in SEPARATORS: |
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def subfunc(match): |
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symbol = [':', '|', ']'] |
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if match.group(1) is None: |
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return f' {sep}' |
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elif match.group(1) in symbol: |
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return f' {sep}{match.group(1)}' |
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else: |
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return ' '+sep+' '+match.group(1) |
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pattern = r' ' + re.escape(sep) + r'(.{1})' |
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row = re.sub(pattern, subfunc, row) |
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row = row.replace('\n'+sep+'"', '\n '+sep+' "') # B \n|"A -> B \n | "A |
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row = row.replace(' '+sep+'\n', ' '+sep+' \n') # B |\n -> B | \n |
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return row |
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def decode(piece): |
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dec_piece = '' |
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idx = piece.find(' '+NEWSEP+' ') |
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heads = piece[:idx] |
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scores = piece[idx:] |
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scores_lst = re.split(' <\|>', scores) |
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all_bar_lst = [] |
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for bar in scores_lst: |
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if bar == '': |
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continue |
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bar = sep2tok(bar) |
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bar_lst = re.split('<=>', bar) |
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bar_lst = list(map(tok2sep, bar_lst)) |
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if len(all_bar_lst) == 0: |
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all_bar_lst = [[] for _ in range(len(bar_lst))] |
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for i in range(len(bar_lst)): |
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all_bar_lst[i].append(bar_lst[i]) |
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if len(all_bar_lst) > 1: |
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# There might be the bar number like %30 at the end |
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# which need to be specially handled. |
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if len(all_bar_lst[0]) > len(all_bar_lst[1]): |
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last_bar_lst = all_bar_lst[0][-1].split() |
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all_bar_lst[0].pop() |
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for i in range(len(all_bar_lst)): |
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all_bar_lst[i].append(last_bar_lst[i]) |
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# Add the remaining symbols to the last row. |
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if i == len(all_bar_lst) - 1: |
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for j in range(i+1, len(last_bar_lst)): |
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all_bar_lst[i][-1] += ' ' + last_bar_lst[j] |
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# Ensure the lengths are consistent. |
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length = len(all_bar_lst[0]) |
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for lst in all_bar_lst[1:]: |
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# assert len(lst) == length |
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pass |
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dec_piece += heads |
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for i in range(len(all_bar_lst)): |
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if len(all_bar_lst) > 1: |
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dec_piece += f'V:{i+1}\n' |
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dec_piece += ''.join(all_bar_lst[i]) |
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dec_piece += '\n' |
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# Remove redundant spaces. |
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dec_piece = re.sub(' {2,}', ' ', dec_piece) |
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return dec_piece |
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``` |
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Processed Output: |
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```shell |
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X:1 |
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L:1/8 |
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Q:1/8=200 |
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M:4/4<n>K:Gmin |
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|:\"Gm\" BGdB fdBG |\"F\" AFcF dFcF |\"Gm\" BGdG gFBF |\"F\" AFAG AF F2 |\"Gm\" BGBd fffd |\"F\" cdcB cdeg | |
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\"Gm\" fdcB\"Eb\" AFcA |1 BGFG\"F\" AFGc :|2 BGFG\"F\" AF F2 || |
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``` |
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Once you encode the post-processed ABC notation into audio, you will hear the following music. |
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<audio controls src="https://cdn-uploads.huggingface.co/production/uploads/640701cb4dc5f2846c91d4eb/gnBULaFjcUyXYzzIwXLZq.mpga"></audio> |
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#### Megatron-LM |
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We now the provide usage based on [Megatron-LM](https://github.com/NVIDIA/Megatron-LM/tree/main). |
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Before starting, make sure you have setup the relevant environment and codebase. |
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```shell |
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# pull Megatron-LM codebase |
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mkdir -p /path/to/workspace && cd /path/to/workspace |
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git clone https://github.com/NVIDIA/Megatron-LM.git |
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# download the pre-trained MuPT models checkpoint and vocab files from Huggingface page |
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mkdir -p /models/MuPT_v0_8192_1.3B && cd /models/MuPT_v0_8192_1.3B |
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wget -O model_optim_rng.pt https://huggingface.co/m-a-p/MuPT_v0_8192_1.3B/resolve/main/model_optim_rng.pt?download=true |
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wget -O newline.vocab https://huggingface.co/m-a-p/MuPT_v0_8192_1.3B/resolve/main/newline.vocab?download=true |
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wget -O newline.txt https://huggingface.co/m-a-p/MuPT_v0_8192_1.3B/resolve/main/newline.txt?download=true |
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``` |
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We recommend using the latest version of [NGC's PyTorch container](https://catalog.ngc.nvidia.com/orgs/nvidia/containers/pytorch) for MuPT inference. See more details in [Megatron-LM](https://github.com/NVIDIA/Megatron-LM/tree/main) |
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```shell |
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# pull the latest NGC's PyTorch container, mount the workspace directory and enter the container |
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docker run --gpus all -it --name megatron --shm-size=16g -v $PWD:/workspace -p 5000:5000 nvcr.io/nvidia/pytorch:23.11-py3 /bin/bash |
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``` |
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Once you enter the container, you can start a REST server for inference. |
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<details> |
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<summary>Click to expand the example script</summary> |
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#!/bin/bash |
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# This example will start serving the 1.3B model. |
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export CUDA_DEVICE_MAX_CONNECTIONS=1 |
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DISTRIBUTED_ARGS="--nproc_per_node 1 \ |
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--nnodes 1 \ |
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--node_rank 0 \ |
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--master_addr localhost \ |
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--master_port 6000" |
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CHECKPOINT=/path/to/model/checkpoint/folder |
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VOCAB_FILE=/path/to/vocab/file |
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MERGE_FILE=/path/to/merge/file |
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MODEL_SIZE="1.3B" |
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if [[ ${MODEL_SIZE} == "110M" ]]; then HIDDEN_SIZE=768; NUM_HEAD=12; NUM_QUERY_GROUP=12; NUM_LAYERS=12; FFN_HIDDEN_SIZE=3072; NORM_EPS=1e-5; |
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elif [[ ${MODEL_SIZE} == "345M" ]]; then HIDDEN_SIZE=1024; NUM_HEAD=16; NUM_QUERY_GROUP=16; NUM_LAYERS=24; FFN_HIDDEN_SIZE=4096; NORM_EPS=1e-5; |
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elif [[ ${MODEL_SIZE} == "770M" ]]; then HIDDEN_SIZE=1280; NUM_HEAD=20; NUM_QUERY_GROUP=20; NUM_LAYERS=36; FFN_HIDDEN_SIZE=5120; NORM_EPS=1e-5; |
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elif [[ ${MODEL_SIZE} == "1.3B" ]]; then HIDDEN_SIZE=1536; NUM_HEAD=24; NUM_QUERY_GROUP=24; NUM_LAYERS=48; FFN_HIDDEN_SIZE=6144; NORM_EPS=1e-5; |
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else echo "invalid MODEL_SIZE: ${MODEL_SIZE}"; exit 1 |
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fi |
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MAX_SEQ_LEN=8192 |
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MAX_POSITION_EMBEDDINGS=8192 |
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pip install flask-restful |
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torchrun $DISTRIBUTED_ARGS tools/run_text_generation_server.py \ |
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--tensor-model-parallel-size 1 \ |
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--pipeline-model-parallel-size 1 \ |
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--num-layers ${NUM_LAYERS} \ |
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--hidden-size ${HIDDEN_SIZE} \ |
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--ffn-hidden-size ${FFN_HIDDEN_SIZE} \ |
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--load ${CHECKPOINT} \ |
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--group-query-attention \ |
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--num-query-groups ${NUM_QUERY_GROUP} \ |
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--position-embedding-type rope \ |
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--num-attention-heads ${NUM_HEAD} \ |
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--max-position-embeddings ${MAX_POSITION_EMBEDDINGS} \ |
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--tokenizer-type GPT2BPETokenizer \ |
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--normalization RMSNorm \ |
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--norm-epsilon ${NORM_EPS} \ |
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--make-vocab-size-divisible-by 1 \ |
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--swiglu \ |
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--use-flash-attn \ |
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--bf16 \ |
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--micro-batch-size 1 \ |
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--disable-bias-linear \ |
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--no-bias-gelu-fusion \ |
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--untie-embeddings-and-output-weights \ |
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--seq-length ${MAX_SEQ_LEN} \ |
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--vocab-file $VOCAB_FILE \ |
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--merge-file $MERGE_FILE \ |
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--attention-dropout 0.0 \ |
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--hidden-dropout 0.0 \ |
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--weight-decay 1e-1 \ |
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--clip-grad 1.0 \ |
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--adam-beta1 0.9 \ |
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--adam-beta2 0.95 \ |
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--adam-eps 1e-8 \ |
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--seed 42 |
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</details> |
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Use CURL to query the server directly, note that the newline token `\n` is represented by `<n>` in the vocabulary, so we need to replace the newline token with `<n>` in both the prompt and the generated tokens. |
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```shell |
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curl 'http://localhost:6000/api' -X 'PUT' -H 'Content-Type: application/json; charset=UTF-8' -d '{"prompts":["X:1<n>L:1/8<n>Q:1/8=200<n>M:4/4<n>K:Gmin<n>|:\"Gm\" BGdB"], "tokens_to_generate":4096}' |
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``` |
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Processed Output: |
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```shell |
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X:1 |
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L:1/8 |
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Q:1/8=200 |
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M:4/4<n>K:Gmin |
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|:\"Gm\" BGdB fdBG |\"F\" AFcF dFcF |\"Gm\" BGdG gFBF |\"F\" AFAG AF F2 |\"Gm\" BGBd fffd |\"F\" cdcB cdeg | |
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\"Gm\" fdcB\"Eb\" AFcA |1 BGFG\"F\" AFGc :|2 BGFG\"F\" AF F2 || |
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``` |