mirror of
https://github.com/k2-fsa/icefall.git
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0ad037d076
* add CTC loss option in zipformer recipe * add ctc_decode.py * support CTC model export, add jit_pretrained_ctc.py, pretrained_ctc.py * update README.md and RESULTS.md * add CI test
625 lines
18 KiB
Python
Executable File
625 lines
18 KiB
Python
Executable File
#!/usr/bin/env python3
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#
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# Copyright 2023 Xiaomi Corporation (Author: Fangjun Kuang)
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# Copyright 2023 Danqing Fu (danqing.fu@gmail.com)
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"""
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This script exports a transducer model from PyTorch to ONNX.
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We use the pre-trained model from
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https://huggingface.co/Zengwei/icefall-asr-librispeech-zipformer-2023-05-15
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as an example to show how to use this file.
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1. Download the pre-trained model
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cd egs/librispeech/ASR
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repo_url=https://huggingface.co/Zengwei/icefall-asr-librispeech-zipformer-2023-05-15
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GIT_LFS_SKIP_SMUDGE=1 git clone $repo_url
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repo=$(basename $repo_url)
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pushd $repo
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git lfs pull --include "data/lang_bpe_500/bpe.model"
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git lfs pull --include "exp/pretrained.pt"
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cd exp
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ln -s pretrained.pt epoch-99.pt
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popd
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2. Export the model to ONNX
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./zipformer/export-onnx.py \
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--bpe-model $repo/data/lang_bpe_500/bpe.model \
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--use-averaged-model 0 \
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--epoch 99 \
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--avg 1 \
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--exp-dir $repo/exp \
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\
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--num-encoder-layers "2,2,3,4,3,2" \
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--downsampling-factor "1,2,4,8,4,2" \
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--feedforward-dim "512,768,1024,1536,1024,768" \
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--num-heads "4,4,4,8,4,4" \
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--encoder-dim "192,256,384,512,384,256" \
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--query-head-dim 32 \
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--value-head-dim 12 \
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--pos-head-dim 4 \
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--pos-dim 48 \
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--encoder-unmasked-dim "192,192,256,256,256,192" \
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--cnn-module-kernel "31,31,15,15,15,31" \
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--decoder-dim 512 \
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--joiner-dim 512 \
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--causal False \
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--chunk-size "16,32,64,-1" \
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--left-context-frames "64,128,256,-1"
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It will generate the following 3 files inside $repo/exp:
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- encoder-epoch-99-avg-1.onnx
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- decoder-epoch-99-avg-1.onnx
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- joiner-epoch-99-avg-1.onnx
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See ./onnx_pretrained.py and ./onnx_check.py for how to
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use the exported ONNX models.
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"""
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import argparse
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import logging
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from pathlib import Path
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from typing import Dict, Tuple
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import onnx
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import sentencepiece as spm
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import torch
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import torch.nn as nn
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from decoder import Decoder
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from onnxruntime.quantization import QuantType, quantize_dynamic
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from scaling_converter import convert_scaled_to_non_scaled
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from train import add_model_arguments, get_params, get_model
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from zipformer import Zipformer2
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from icefall.checkpoint import (
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average_checkpoints,
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average_checkpoints_with_averaged_model,
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find_checkpoints,
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load_checkpoint,
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)
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from icefall.utils import str2bool, make_pad_mask
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def get_parser():
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parser = argparse.ArgumentParser(
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formatter_class=argparse.ArgumentDefaultsHelpFormatter
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)
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parser.add_argument(
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"--epoch",
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type=int,
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default=28,
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help="""It specifies the checkpoint to use for averaging.
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Note: Epoch counts from 0.
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You can specify --avg to use more checkpoints for model averaging.""",
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)
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parser.add_argument(
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"--iter",
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type=int,
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default=0,
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help="""If positive, --epoch is ignored and it
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will use the checkpoint exp_dir/checkpoint-iter.pt.
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You can specify --avg to use more checkpoints for model averaging.
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""",
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)
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parser.add_argument(
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"--avg",
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type=int,
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default=15,
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help="Number of checkpoints to average. Automatically select "
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"consecutive checkpoints before the checkpoint specified by "
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"'--epoch' and '--iter'",
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)
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parser.add_argument(
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"--use-averaged-model",
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type=str2bool,
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default=True,
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help="Whether to load averaged model. Currently it only supports "
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"using --epoch. If True, it would decode with the averaged model "
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"over the epoch range from `epoch-avg` (excluded) to `epoch`."
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"Actually only the models with epoch number of `epoch-avg` and "
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"`epoch` are loaded for averaging. ",
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)
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parser.add_argument(
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"--exp-dir",
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type=str,
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default="zipformer/exp",
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help="""It specifies the directory where all training related
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files, e.g., checkpoints, log, etc, are saved
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""",
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)
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parser.add_argument(
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"--bpe-model",
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type=str,
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default="data/lang_bpe_500/bpe.model",
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help="Path to the BPE model",
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)
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parser.add_argument(
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"--context-size",
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type=int,
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default=2,
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help="The context size in the decoder. 1 means bigram; 2 means tri-gram",
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)
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add_model_arguments(parser)
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return parser
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def add_meta_data(filename: str, meta_data: Dict[str, str]):
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"""Add meta data to an ONNX model. It is changed in-place.
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Args:
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filename:
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Filename of the ONNX model to be changed.
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meta_data:
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Key-value pairs.
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"""
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model = onnx.load(filename)
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for key, value in meta_data.items():
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meta = model.metadata_props.add()
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meta.key = key
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meta.value = value
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onnx.save(model, filename)
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class OnnxEncoder(nn.Module):
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"""A wrapper for Zipformer and the encoder_proj from the joiner"""
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def __init__(
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self, encoder: Zipformer2, encoder_embed: nn.Module, encoder_proj: nn.Linear
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):
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"""
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Args:
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encoder:
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A Zipformer encoder.
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encoder_proj:
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The projection layer for encoder from the joiner.
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"""
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super().__init__()
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self.encoder = encoder
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self.encoder_embed = encoder_embed
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self.encoder_proj = encoder_proj
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def forward(
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self,
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x: torch.Tensor,
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x_lens: torch.Tensor,
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) -> Tuple[torch.Tensor, torch.Tensor]:
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"""Please see the help information of Zipformer.forward
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Args:
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x:
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A 3-D tensor of shape (N, T, C)
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x_lens:
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A 1-D tensor of shape (N,). Its dtype is torch.int64
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Returns:
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Return a tuple containing:
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- encoder_out, A 3-D tensor of shape (N, T', joiner_dim)
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- encoder_out_lens, A 1-D tensor of shape (N,)
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"""
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x, x_lens = self.encoder_embed(x, x_lens)
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src_key_padding_mask = make_pad_mask(x_lens)
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x = x.permute(1, 0, 2)
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encoder_out, encoder_out_lens = self.encoder(x, x_lens, src_key_padding_mask)
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encoder_out = encoder_out.permute(1, 0, 2)
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encoder_out = self.encoder_proj(encoder_out)
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# Now encoder_out is of shape (N, T, joiner_dim)
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return encoder_out, encoder_out_lens
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class OnnxDecoder(nn.Module):
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"""A wrapper for Decoder and the decoder_proj from the joiner"""
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def __init__(self, decoder: Decoder, decoder_proj: nn.Linear):
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super().__init__()
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self.decoder = decoder
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self.decoder_proj = decoder_proj
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def forward(self, y: torch.Tensor) -> torch.Tensor:
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"""
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Args:
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y:
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A 2-D tensor of shape (N, context_size).
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Returns
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Return a 2-D tensor of shape (N, joiner_dim)
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"""
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need_pad = False
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decoder_output = self.decoder(y, need_pad=need_pad)
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decoder_output = decoder_output.squeeze(1)
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output = self.decoder_proj(decoder_output)
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return output
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class OnnxJoiner(nn.Module):
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"""A wrapper for the joiner"""
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def __init__(self, output_linear: nn.Linear):
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super().__init__()
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self.output_linear = output_linear
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def forward(
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self,
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encoder_out: torch.Tensor,
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decoder_out: torch.Tensor,
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) -> torch.Tensor:
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"""
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Args:
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encoder_out:
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A 2-D tensor of shape (N, joiner_dim)
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decoder_out:
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A 2-D tensor of shape (N, joiner_dim)
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Returns:
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Return a 2-D tensor of shape (N, vocab_size)
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"""
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logit = encoder_out + decoder_out
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logit = self.output_linear(torch.tanh(logit))
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return logit
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def export_encoder_model_onnx(
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encoder_model: OnnxEncoder,
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encoder_filename: str,
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opset_version: int = 11,
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) -> None:
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"""Export the given encoder model to ONNX format.
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The exported model has two inputs:
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- x, a tensor of shape (N, T, C); dtype is torch.float32
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- x_lens, a tensor of shape (N,); dtype is torch.int64
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and it has two outputs:
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- encoder_out, a tensor of shape (N, T', joiner_dim)
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- encoder_out_lens, a tensor of shape (N,)
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Args:
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encoder_model:
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The input encoder model
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encoder_filename:
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The filename to save the exported ONNX model.
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opset_version:
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The opset version to use.
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"""
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x = torch.zeros(1, 100, 80, dtype=torch.float32)
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x_lens = torch.tensor([100], dtype=torch.int64)
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encoder_model = torch.jit.trace(encoder_model, (x, x_lens))
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torch.onnx.export(
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encoder_model,
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(x, x_lens),
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encoder_filename,
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verbose=False,
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opset_version=opset_version,
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input_names=["x", "x_lens"],
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output_names=["encoder_out", "encoder_out_lens"],
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dynamic_axes={
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"x": {0: "N", 1: "T"},
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"x_lens": {0: "N"},
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"encoder_out": {0: "N", 1: "T"},
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"encoder_out_lens": {0: "N"},
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},
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)
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meta_data = {
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"model_type": "zipformer2",
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"version": "1",
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"model_author": "k2-fsa",
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"comment": "non-streaming zipformer2",
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}
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logging.info(f"meta_data: {meta_data}")
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add_meta_data(filename=encoder_filename, meta_data=meta_data)
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def export_decoder_model_onnx(
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decoder_model: OnnxDecoder,
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decoder_filename: str,
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opset_version: int = 11,
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) -> None:
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"""Export the decoder model to ONNX format.
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The exported model has one input:
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- y: a torch.int64 tensor of shape (N, decoder_model.context_size)
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and has one output:
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- decoder_out: a torch.float32 tensor of shape (N, joiner_dim)
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Args:
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decoder_model:
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The decoder model to be exported.
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decoder_filename:
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Filename to save the exported ONNX model.
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opset_version:
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The opset version to use.
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"""
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context_size = decoder_model.decoder.context_size
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vocab_size = decoder_model.decoder.vocab_size
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y = torch.zeros(10, context_size, dtype=torch.int64)
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torch.onnx.export(
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decoder_model,
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y,
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decoder_filename,
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verbose=False,
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opset_version=opset_version,
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input_names=["y"],
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output_names=["decoder_out"],
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dynamic_axes={
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"y": {0: "N"},
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"decoder_out": {0: "N"},
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},
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)
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meta_data = {
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"context_size": str(context_size),
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"vocab_size": str(vocab_size),
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}
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add_meta_data(filename=decoder_filename, meta_data=meta_data)
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def export_joiner_model_onnx(
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joiner_model: nn.Module,
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joiner_filename: str,
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opset_version: int = 11,
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) -> None:
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"""Export the joiner model to ONNX format.
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The exported joiner model has two inputs:
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- encoder_out: a tensor of shape (N, joiner_dim)
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- decoder_out: a tensor of shape (N, joiner_dim)
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and produces one output:
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- logit: a tensor of shape (N, vocab_size)
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"""
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joiner_dim = joiner_model.output_linear.weight.shape[1]
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logging.info(f"joiner dim: {joiner_dim}")
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projected_encoder_out = torch.rand(11, joiner_dim, dtype=torch.float32)
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projected_decoder_out = torch.rand(11, joiner_dim, dtype=torch.float32)
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torch.onnx.export(
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joiner_model,
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(projected_encoder_out, projected_decoder_out),
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joiner_filename,
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verbose=False,
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opset_version=opset_version,
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input_names=[
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"encoder_out",
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"decoder_out",
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],
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output_names=["logit"],
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dynamic_axes={
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"encoder_out": {0: "N"},
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"decoder_out": {0: "N"},
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"logit": {0: "N"},
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},
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)
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meta_data = {
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"joiner_dim": str(joiner_dim),
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}
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add_meta_data(filename=joiner_filename, meta_data=meta_data)
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@torch.no_grad()
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def main():
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args = get_parser().parse_args()
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args.exp_dir = Path(args.exp_dir)
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params = get_params()
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params.update(vars(args))
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device = torch.device("cpu")
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if torch.cuda.is_available():
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device = torch.device("cuda", 0)
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logging.info(f"device: {device}")
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sp = spm.SentencePieceProcessor()
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sp.load(params.bpe_model)
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# <blk> is defined in local/train_bpe_model.py
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params.blank_id = sp.piece_to_id("<blk>")
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params.vocab_size = sp.get_piece_size()
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logging.info(params)
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logging.info("About to create model")
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model = get_model(params)
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model.to(device)
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if not params.use_averaged_model:
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if params.iter > 0:
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filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[
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: params.avg
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]
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if len(filenames) == 0:
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raise ValueError(
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f"No checkpoints found for"
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f" --iter {params.iter}, --avg {params.avg}"
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)
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elif len(filenames) < params.avg:
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raise ValueError(
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f"Not enough checkpoints ({len(filenames)}) found for"
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f" --iter {params.iter}, --avg {params.avg}"
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)
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logging.info(f"averaging {filenames}")
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model.to(device)
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model.load_state_dict(average_checkpoints(filenames, device=device))
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elif params.avg == 1:
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load_checkpoint(f"{params.exp_dir}/epoch-{params.epoch}.pt", model)
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else:
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start = params.epoch - params.avg + 1
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filenames = []
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for i in range(start, params.epoch + 1):
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if i >= 1:
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filenames.append(f"{params.exp_dir}/epoch-{i}.pt")
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logging.info(f"averaging {filenames}")
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model.to(device)
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model.load_state_dict(average_checkpoints(filenames, device=device))
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else:
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if params.iter > 0:
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filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[
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: params.avg + 1
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]
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if len(filenames) == 0:
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raise ValueError(
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f"No checkpoints found for"
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f" --iter {params.iter}, --avg {params.avg}"
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)
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elif len(filenames) < params.avg + 1:
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raise ValueError(
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f"Not enough checkpoints ({len(filenames)}) found for"
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f" --iter {params.iter}, --avg {params.avg}"
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)
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filename_start = filenames[-1]
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filename_end = filenames[0]
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logging.info(
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"Calculating the averaged model over iteration checkpoints"
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f" from {filename_start} (excluded) to {filename_end}"
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)
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model.to(device)
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model.load_state_dict(
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average_checkpoints_with_averaged_model(
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filename_start=filename_start,
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filename_end=filename_end,
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device=device,
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)
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)
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else:
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assert params.avg > 0, params.avg
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start = params.epoch - params.avg
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assert start >= 1, start
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filename_start = f"{params.exp_dir}/epoch-{start}.pt"
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filename_end = f"{params.exp_dir}/epoch-{params.epoch}.pt"
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logging.info(
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f"Calculating the averaged model over epoch range from "
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f"{start} (excluded) to {params.epoch}"
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)
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model.to(device)
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model.load_state_dict(
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average_checkpoints_with_averaged_model(
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filename_start=filename_start,
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filename_end=filename_end,
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device=device,
|
|
)
|
|
)
|
|
|
|
model.to("cpu")
|
|
model.eval()
|
|
|
|
convert_scaled_to_non_scaled(model, inplace=True, is_onnx=True)
|
|
|
|
encoder = OnnxEncoder(
|
|
encoder=model.encoder,
|
|
encoder_embed=model.encoder_embed,
|
|
encoder_proj=model.joiner.encoder_proj,
|
|
)
|
|
|
|
decoder = OnnxDecoder(
|
|
decoder=model.decoder,
|
|
decoder_proj=model.joiner.decoder_proj,
|
|
)
|
|
|
|
joiner = OnnxJoiner(output_linear=model.joiner.output_linear)
|
|
|
|
encoder_num_param = sum([p.numel() for p in encoder.parameters()])
|
|
decoder_num_param = sum([p.numel() for p in decoder.parameters()])
|
|
joiner_num_param = sum([p.numel() for p in joiner.parameters()])
|
|
total_num_param = encoder_num_param + decoder_num_param + joiner_num_param
|
|
logging.info(f"encoder parameters: {encoder_num_param}")
|
|
logging.info(f"decoder parameters: {decoder_num_param}")
|
|
logging.info(f"joiner parameters: {joiner_num_param}")
|
|
logging.info(f"total parameters: {total_num_param}")
|
|
|
|
if params.iter > 0:
|
|
suffix = f"iter-{params.iter}"
|
|
else:
|
|
suffix = f"epoch-{params.epoch}"
|
|
|
|
suffix += f"-avg-{params.avg}"
|
|
|
|
opset_version = 13
|
|
|
|
logging.info("Exporting encoder")
|
|
encoder_filename = params.exp_dir / f"encoder-{suffix}.onnx"
|
|
export_encoder_model_onnx(
|
|
encoder,
|
|
encoder_filename,
|
|
opset_version=opset_version,
|
|
)
|
|
logging.info(f"Exported encoder to {encoder_filename}")
|
|
|
|
logging.info("Exporting decoder")
|
|
decoder_filename = params.exp_dir / f"decoder-{suffix}.onnx"
|
|
export_decoder_model_onnx(
|
|
decoder,
|
|
decoder_filename,
|
|
opset_version=opset_version,
|
|
)
|
|
logging.info(f"Exported decoder to {decoder_filename}")
|
|
|
|
logging.info("Exporting joiner")
|
|
joiner_filename = params.exp_dir / f"joiner-{suffix}.onnx"
|
|
export_joiner_model_onnx(
|
|
joiner,
|
|
joiner_filename,
|
|
opset_version=opset_version,
|
|
)
|
|
logging.info(f"Exported joiner to {joiner_filename}")
|
|
|
|
# Generate int8 quantization models
|
|
# See https://onnxruntime.ai/docs/performance/model-optimizations/quantization.html#data-type-selection
|
|
|
|
logging.info("Generate int8 quantization models")
|
|
|
|
encoder_filename_int8 = params.exp_dir / f"encoder-{suffix}.int8.onnx"
|
|
quantize_dynamic(
|
|
model_input=encoder_filename,
|
|
model_output=encoder_filename_int8,
|
|
op_types_to_quantize=["MatMul"],
|
|
weight_type=QuantType.QInt8,
|
|
)
|
|
|
|
decoder_filename_int8 = params.exp_dir / f"decoder-{suffix}.int8.onnx"
|
|
quantize_dynamic(
|
|
model_input=decoder_filename,
|
|
model_output=decoder_filename_int8,
|
|
op_types_to_quantize=["MatMul"],
|
|
weight_type=QuantType.QInt8,
|
|
)
|
|
|
|
joiner_filename_int8 = params.exp_dir / f"joiner-{suffix}.int8.onnx"
|
|
quantize_dynamic(
|
|
model_input=joiner_filename,
|
|
model_output=joiner_filename_int8,
|
|
op_types_to_quantize=["MatMul"],
|
|
weight_type=QuantType.QInt8,
|
|
)
|
|
|
|
|
|
if __name__ == "__main__":
|
|
formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s"
|
|
logging.basicConfig(format=formatter, level=logging.INFO)
|
|
main()
|