PyTorch Implementation of PortaSpeech: Portable and High-Quality Generative Text-to-Speech

Last update: Jan 04, 2023

Overview

PortaSpeech - PyTorch Implementation

PyTorch Implementation of PortaSpeech: Portable and High-Quality Generative Text-to-Speech.

Model Size

Module	Normal	Small	Normal (paper)	Small (paper)
Total	24M	7.6M	21.8M	6.7M
LinguisticEncoder	3.7M	1.4M	-	-
VariationalGenerator	11M	2.8M	-	-
FlowPostNet	9.3M	3.4M	-	-

Quickstart

DATASET refers to the names of datasets such as LJSpeech in the following documents.

Dependencies

You can install the Python dependencies with

pip3 install -r requirements.txt

Also, Dockerfile is provided for Docker users.

Inference

You have to download the pretrained models and put them in output/ckpt/DATASET/.

For a single-speaker TTS, run

python3 synthesize.py --text "YOUR_DESIRED_TEXT" --restore_step RESTORE_STEP --mode single --dataset DATASET

The generated utterances will be put in output/result/.

Batch Inference

Batch inference is also supported, try

python3 synthesize.py --source preprocessed_data/DATASET/val.txt --restore_step RESTORE_STEP --mode batch --dataset DATASET

to synthesize all utterances in preprocessed_data/DATASET/val.txt.

Controllability

The speaking rate of the synthesized utterances can be controlled by specifying the desired duration ratios. For example, one can increase the speaking rate by 20 by

python3 synthesize.py --text "YOUR_DESIRED_TEXT" --restore_step RESTORE_STEP --mode single --dataset DATASET --duration_control 0.8

Please note that the controllability is originated from FastSpeech2 and not a vital interest of PortaSpeech.

Training

Datasets

The supported datasets are

LJSpeech: a single-speaker English dataset consists of 13100 short audio clips of a female speaker reading passages from 7 non-fiction books, approximately 24 hours in total.

Preprocessing

Run

python3 prepare_align.py --dataset DATASET

for some preparations.

For the forced alignment, Montreal Forced Aligner (MFA) is used to obtain the alignments between the utterances and the phoneme sequences. Pre-extracted alignments for the datasets are provided here. You have to unzip the files in preprocessed_data/DATASET/TextGrid/. Alternately, you can run the aligner by yourself.

After that, run the preprocessing script by

python3 preprocess.py --dataset DATASET

Training

Train your model with

python3 train.py --dataset DATASET

Useful options:

To use Automatic Mixed Precision, append --use_amp argument to the above command.
The trainer assumes single-node multi-GPU training. To use specific GPUs, specify CUDA_VISIBLE_DEVICES= at the beginning of the above command.

TensorBoard

Use

tensorboard --logdir output/log

to serve TensorBoard on your localhost.

Notes

For vocoder, HiFi-GAN and MelGAN are supported.
No ReLU activation and LayerNorm in VariationalGenerator to avoid mashed output.
Add CTC Loss with forward-sum algorithm to improve convergence speed of word-to-phoneme alignment in LinguisticEncoder.
Will be extended to a multi-speaker TTS.

Citation

Please cite this repository by the "Cite this repository" of About section (top right of the main page).

References

Comments

Speed in CPU

Hi, thank you very much for you work and share. In the paper, the proposed method have been compared with many methods in MOS, parameter size, as well as the speed. While you compute the RTF with GPU, did you compared the RTF / speed when running in CPU?

opened by Liujingxiu23 6
Weird sound from the beginning of the sentence "hello"

Hi, thanks for your contribution in TTS, and it's such a great work !! It's seems perfect in most of the sentence while trying python3 synthesize.py --text "MY_SENTENCE" --restore_step 125000 --mode single --dataset LJSpeech, but when I tried the sentence with "hello" in the front, the sound of "hello" became long and weird. Here is the mel-spetrogram of "Hello, glad to see you." And you can observe a large area on the left is represent the word "hello" clearly. I've tried to check your training data in preprocessed_data/LJSpeech/train.txt, and I couldn't find the word "hello" in that.

Is this problem caused by the quantity of the phoneme of the word merely or I just do something wrong or something else? Anything would help, thank you.

opened by johnkuan506 5
I hear echo & background noise on the DEMO wavs

This can happen because of blurring of mel-spectrogram(in most cases start of the sound should have sharp edge), which can happen because bad attention. I could recommend to try using Diagonal guided attention (DGA) during the training(https://arxiv.org/abs/1710.08969)

opened by creotiv 4
A run Problem(LJSpeech)

File "preprocess.py", line 20, in preprocessor.build_from_path() File "D:\UW-Detection\PortaSpeech\preprocessor\preprocessor.py", line 129, in build_from_path n_frames += n UnboundLocalError: local variable 'n' referenced before assignment when I use NATSpeech show this problem (BiaoBei dataset) when I use LJSpeech dataset and this code show this problem I use global but cannot ......

opened by yanzhuangzhuang-beep 2

Inference issue

Basically, I tried to run it in the Google Colab

1st cell

%cd /content/
!git clone https://github.com/keonlee9420/PortaSpeech
%cd /content/PortaSpeech/
!pip install -r /content/PortaSpeech/requirements.txt

2nd

id_big = '1VTotGmE42a19bevwgQ9mhPkXzQvKzl8q'
id_small = '1Y0IGlc4zJ7XN5sh4aPWLTeQ80D9ZhfbB'

!mkdir /content/PortaSpeech/output/
!mkdir /content/PortaSpeech/output/ckpt/
!mkdir /content/PortaSpeech/output/ckpt/DATASET/
%cd /content/PortaSpeech/output/ckpt/DATASET/
!gdown --id $id_big 
!gdown --id $id_small 
%cd /content/PortaSpeech

3rd

%cd /content/PortaSpeech
!python3 synthesize.py --text "Moved to Site-19 1993. Origin is as of yet unknown. It is constructed from concrete and rebar with traces of Krylon brand spray paint." \
                        --restore_step 125000 --mode single --dataset DATASET

and this is what I've got:

/content/PortaSpeech
[nltk_data] Downloading package averaged_perceptron_tagger to
[nltk_data]     /root/nltk_data...
[nltk_data]   Unzipping taggers/averaged_perceptron_tagger.zip.
[nltk_data] Downloading package cmudict to /root/nltk_data...
[nltk_data]   Unzipping corpora/cmudict.zip.
2021-10-26 10:57:51.803863: I tensorflow/stream_executor/platform/default/dso_loader.cc:53] Successfully opened dynamic library libcudart.so.11.0
Traceback (most recent call last):
  File "synthesize.py", line 138, in <module>
    args.dataset)
  File "/content/PortaSpeech/utils/tools.py", line 19, in get_configs_of
    os.path.join(config_dir, "preprocess.yaml"), "r"), Loader=yaml.FullLoader)
FileNotFoundError: [Errno 2] No such file or directory: './config/DATASET/preprocess.yaml'

What this 'preprocess.yaml' is exactly?

opened by dobrosketchkun 2

missing keys

Traceback (most recent call last): File "synthesize.py", line 153, in model = get_model(args, configs, device, train=False) File "/content/PortaSpeech/utils/model.py", line 21, in get_model model.load_state_dict(ckpt["model"]) File "/usr/local/lib/python3.7/dist-packages/torch/nn/modules/module.py", line 1407, in load_state_dict self.class.name, "\n\t".join(error_msgs))) RuntimeError: Error(s) in loading state_dict for PortaSpeech: Missing key(s) in state_dict: "linguistic_encoder.phoneme_encoder.attn_layers.3.emb_rel_k", "linguistic_encoder.phoneme_encoder.attn_layers.3.emb_rel_v", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_q.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_q.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_k.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_k.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_v.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_v.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_o.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_o.bias", "linguistic_encoder.phoneme_encoder.norm_layers_1.3.gamma", "linguistic_encoder.phoneme_encoder.norm_layers_1.3.beta", "linguistic_encoder.phoneme_encoder.ffn_layers.3.conv.weight", "linguistic_encoder.phoneme_encoder.ffn_layers.3.conv.bias", "linguistic_encoder.phoneme_encoder.norm_layers_2.3.gamma", "linguistic_encoder.phoneme_encoder.norm_layers_2.3.beta", "linguistic_encoder.word_encoder.attn_layers.3.emb_rel_k", "linguistic_encoder.word_encoder.attn_layers.3.emb_rel_v", "linguistic_encoder.word_encoder.attn_layers.3.conv_q.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_q.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_k.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_k.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_v.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_v.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_o.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_o.bias", "linguistic_encoder.word_encoder.norm_layers_1.3.gamma", "linguistic_encoder.word_encoder.norm_layers_1.3.beta", "linguistic_encoder.word_encoder.ffn_layers.3.conv.weight", "linguistic_encoder.word_encoder.ffn_layers.3.conv.bias", "linguistic_encoder.word_encoder.norm_layers_2.3.gamma", "linguistic_encoder.word_encoder.norm_layers_2.3.beta", "variational_generator.flow.flows.0.enc.in_layers.3.bias", "variational_generator.flow.flows.0.enc.in_layers.3.weight_g", "variational_generator.flow.flows.0.enc.in_layers.3.weight_v", "variational_generator.flow.flows.0.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.0.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.0.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.2.enc.in_layers.3.bias", "variational_generator.flow.flows.2.enc.in_layers.3.weight_g", "variational_generator.flow.flows.2.enc.in_layers.3.weight_v", "variational_generator.flow.flows.2.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.2.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.2.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.4.enc.in_layers.3.bias", "variational_generator.flow.flows.4.enc.in_layers.3.weight_g", "variational_generator.flow.flows.4.enc.in_layers.3.weight_v", "variational_generator.flow.flows.4.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.4.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.4.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.6.enc.in_layers.3.bias", "variational_generator.flow.flows.6.enc.in_layers.3.weight_g", "variational_generator.flow.flows.6.enc.in_layers.3.weight_v", "variational_generator.flow.flows.6.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.6.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.6.enc.res_skip_layers.3.weight_v", "variational_generator.dec_wn.in_layers.3.bias", "variational_generator.dec_wn.in_layers.3.weight_g", "variational_generator.dec_wn.in_layers.3.weight_v", "variational_generator.dec_wn.res_skip_layers.3.bias", "variational_generator.dec_wn.res_skip_layers.3.weight_g", "variational_generator.dec_wn.res_skip_layers.3.weight_v", "postnet.flows.24.logs", "postnet.flows.24.bias", "postnet.flows.25.weight", "postnet.flows.26.start.bias", "postnet.flows.26.start.weight_g", "postnet.flows.26.start.weight_v", "postnet.flows.26.end.weight", "postnet.flows.26.end.bias", "postnet.flows.26.cond_layer.bias", "postnet.flows.26.cond_layer.weight_g", "postnet.flows.26.cond_layer.weight_v", "postnet.flows.26.wn.in_layers.0.bias", "postnet.flows.26.wn.in_layers.0.weight_g", "postnet.flows.26.wn.in_layers.0.weight_v", "postnet.flows.26.wn.in_layers.1.bias", "postnet.flows.26.wn.in_layers.1.weight_g", "postnet.flows.26.wn.in_layers.1.weight_v", "postnet.flows.26.wn.in_layers.2.bias", "postnet.flows.26.wn.in_layers.2.weight_g", "postnet.flows.26.wn.in_layers.2.weight_v", "postnet.flows.26.wn.res_skip_layers.0.bias", "postnet.flows.26.wn.res_skip_layers.0.weight_g", "postnet.flows.26.wn.res_skip_layers.0.weight_v", "postnet.flows.26.wn.res_skip_layers.1.bias", "postnet.flows.26.wn.res_skip_layers.1.weight_g", "postnet.flows.26.wn.res_skip_layers.1.weight_v", "postnet.flows.26.wn.res_skip_layers.2.bias", "postnet.flows.26.wn.res_skip_layers.2.weight_g", "postnet.flows.26.wn.res_skip_layers.2.weight_v", "postnet.flows.27.logs", "postnet.flows.27.bias", "postnet.flows.28.weight", "postnet.flows.29.start.bias", "postnet.flows.29.start.weight_g", "postnet.flows.29.start.weight_v", "postnet.flows.29.end.weight", "postnet.flows.29.end.bias", "postnet.flows.29.cond_layer.bias", "postnet.flows.29.cond_layer.weight_g", "postnet.flows.29.cond_layer.weight_v", "postnet.flows.29.wn.in_layers.0.bias", "postnet.flows.29.wn.in_layers.0.weight_g", "postnet.flows.29.wn.in_layers.0.weight_v", "postnet.flows.29.wn.in_layers.1.bias", "postnet.flows.29.wn.in_layers.1.weight_g", "postnet.flows.29.wn.in_layers.1.weight_v", "postnet.flows.29.wn.in_layers.2.bias", "postnet.flows.29.wn.in_layers.2.weight_g", "postnet.flows.29.wn.in_layers.2.weight_v", "postnet.flows.29.wn.res_skip_layers.0.bias", "postnet.flows.29.wn.res_skip_layers.0.weight_g", "postnet.flows.29.wn.res_skip_layers.0.weight_v", "postnet.flows.29.wn.res_skip_layers.1.bias", "postnet.flows.29.wn.res_skip_layers.1.weight_g", "postnet.flows.29.wn.res_skip_layers.1.weight_v", "postnet.flows.29.wn.res_skip_layers.2.bias", "postnet.flows.29.wn.res_skip_layers.2.weight_g", "postnet.flows.29.wn.res_skip_layers.2.weight_v", "postnet.flows.30.logs", "postnet.flows.30.bias", "postnet.flows.31.weight", "postnet.flows.32.start.bias", "postnet.flows.32.start.weight_g", "postnet.flows.32.start.weight_v", "postnet.flows.32.end.weight", "postnet.flows.32.end.bias", "postnet.flows.32.cond_layer.bias", "postnet.flows.32.cond_layer.weight_g", "postnet.flows.32.cond_layer.weight_v", "postnet.flows.32.wn.in_layers.0.bias", "postnet.flows.32.wn.in_layers.0.weight_g", "postnet.flows.32.wn.in_layers.0.weight_v", "postnet.flows.32.wn.in_layers.1.bias", "postnet.flows.32.wn.in_layers.1.weight_g", "postnet.flows.32.wn.in_layers.1.weight_v", "postnet.flows.32.wn.in_layers.2.bias", "postnet.flows.32.wn.in_layers.2.weight_g", "postnet.flows.32.wn.in_layers.2.weight_v", "postnet.flows.32.wn.res_skip_layers.0.bias", "postnet.flows.32.wn.res_skip_layers.0.weight_g", "postnet.flows.32.wn.res_skip_layers.0.weight_v", "postnet.flows.32.wn.res_skip_layers.1.bias", "postnet.flows.32.wn.res_skip_layers.1.weight_g", "postnet.flows.32.wn.res_skip_layers.1.weight_v", "postnet.flows.32.wn.res_skip_layers.2.bias", "postnet.flows.32.wn.res_skip_layers.2.weight_g", "postnet.flows.32.wn.res_skip_layers.2.weight_v", "postnet.flows.33.logs", "postnet.flows.33.bias", "postnet.flows.34.weight", "postnet.flows.35.start.bias", "postnet.flows.35.start.weight_g", "postnet.flows.35.start.weight_v", "postnet.flows.35.end.weight", "postnet.flows.35.end.bias", "postnet.flows.35.cond_layer.bias", "postnet.flows.35.cond_layer.weight_g", "postnet.flows.35.cond_layer.weight_v", "postnet.flows.35.wn.in_layers.0.bias", "postnet.flows.35.wn.in_layers.0.weight_g", "postnet.flows.35.wn.in_layers.0.weight_v", "postnet.flows.35.wn.in_layers.1.bias", "postnet.flows.35.wn.in_layers.1.weight_g", "postnet.flows.35.wn.in_layers.1.weight_v", "postnet.flows.35.wn.in_layers.2.bias", "postnet.flows.35.wn.in_layers.2.weight_g", "postnet.flows.35.wn.in_layers.2.weight_v", "postnet.flows.35.wn.res_skip_layers.0.bias", "postnet.flows.35.wn.res_skip_layers.0.weight_g", "postnet.flows.35.wn.res_skip_layers.0.weight_v", "postnet.flows.35.wn.res_skip_layers.1.bias", "postnet.flows.35.wn.res_skip_layers.1.weight_g", "postnet.flows.35.wn.res_skip_layers.1.weight_v", "postnet.flows.35.wn.res_skip_layers.2.bias", "postnet.flows.35.wn.res_skip_layers.2.weight_g", "postnet.flows.35.wn.res_skip_layers.2.weight_v". size mismatch for linguistic_encoder.abs_position_enc: copying a param with shape torch.Size([1, 1001, 128]) from checkpoint, the shape in current model is torch.Size([1, 1001, 192]).

opened by AK391 2
About def get_mask_from_lengths(lengths, max_len=None):
[email protected], Thank You very much! def get_mask_from_lengths(lengths, max_len=None): batch_size = lengths.shape[0] if max_len is None: max_len = torch.max(lengths).item()

ids = torch.arange(0, max_len).unsqueeze( 0).expand(batch_size, -1).to(lengths.device) mask = ids >= lengths.unsqueeze(1).expand(-1, max_len) return ~mask

In PortaSpeech, the return is ~mask, while in DiffGAN-TTS it is mask. I want to know the difference between them!
opened by qw1260497397 0
RuntimeError: The size of tensor a (256) must match the size of tensor b (45) at non-singleton dimension 2

Hi @keonlee9420, the a(256) is encoder_hidden and the b(45) is the first max_time of src_seq. in the word_level_pooling. I very want to know how to solve the problem. Thank you very much!

I notice that the b(45) is variable.

opened by qw1260497397 0
Bump pillow from 8.3.1 to 8.3.2
Bumps pillow from 8.3.1 to 8.3.2.

Release notes

Sourced from pillow's releases.

8.3.2

https://pillow.readthedocs.io/en/stable/releasenotes/8.3.2.html

Security

CVE-2021-23437 Raise ValueError if color specifier is too long [hugovk, radarhere]

Fix 6-byte OOB read in FliDecode [wiredfool]

Python 3.10 wheels

Add support for Python 3.10 #5569, #5570 [hugovk, radarhere]

Fixed regressions

Ensure TIFF RowsPerStrip is multiple of 8 for JPEG compression #5588 [kmilos, radarhere]

Updates for ImagePalette channel order #5599 [radarhere]

Hide FriBiDi shim symbols to avoid conflict with real FriBiDi library #5651 [nulano]

Changelog

Sourced from pillow's changelog.

8.3.2 (2021-09-02)

CVE-2021-23437 Raise ValueError if color specifier is too long [hugovk, radarhere]

Fix 6-byte OOB read in FliDecode [wiredfool]

Add support for Python 3.10 #5569, #5570 [hugovk, radarhere]

Ensure TIFF RowsPerStrip is multiple of 8 for JPEG compression #5588 [kmilos, radarhere]

Updates for ImagePalette channel order #5599 [radarhere]

Hide FriBiDi shim symbols to avoid conflict with real FriBiDi library #5651 [nulano]

Commits

8013f13 8.3.2 version bump

23c7ca8 Update CHANGES.rst

8450366 Update release notes

a0afe89 Update test case

9e08eb8 Raise ValueError if color specifier is too long

bd5cf7d FLI tests for Oss-fuzz crash.

94a0cf1 Fix 6-byte OOB read in FliDecode

cece64f Add 8.3.2 (2021-09-02) [CI skip]

e422386 Add release notes for Pillow 8.3.2

08dcbb8 Pillow 8.3.2 supports Python 3.10 [ci skip]

Additional commits viewable in compare view

Dependabot will resolve any conflicts with this PR as long as you don't alter it yourself. You can also trigger a rebase manually by commenting @dependabot rebase.

Dependabot commands and options

You can trigger Dependabot actions by commenting on this PR:

@dependabot rebase will rebase this PR

@dependabot recreate will recreate this PR, overwriting any edits that have been made to it

@dependabot merge will merge this PR after your CI passes on it

@dependabot squash and merge will squash and merge this PR after your CI passes on it

@dependabot cancel merge will cancel a previously requested merge and block automerging

@dependabot reopen will reopen this PR if it is closed

@dependabot close will close this PR and stop Dependabot recreating it. You can achieve the same result by closing it manually

@dependabot ignore this major version will close this PR and stop Dependabot creating any more for this major version (unless you reopen the PR or upgrade to it yourself)

@dependabot ignore this minor version will close this PR and stop Dependabot creating any more for this minor version (unless you reopen the PR or upgrade to it yourself)

@dependabot ignore this dependency will close this PR and stop Dependabot creating any more for this dependency (unless you reopen the PR or upgrade to it yourself)

@dependabot use these labels will set the current labels as the default for future PRs for this repo and language

@dependabot use these reviewers will set the current reviewers as the default for future PRs for this repo and language

@dependabot use these assignees will set the current assignees as the default for future PRs for this repo and language

@dependabot use this milestone will set the current milestone as the default for future PRs for this repo and language

You can disable automated security fix PRs for this repo from the Security Alerts page.

dependencies
opened by dependabot[bot] 0
Bump tensorflow from 2.5.0 to 2.5.1
Bumps tensorflow from 2.5.0 to 2.5.1.

Release notes

Sourced from tensorflow's releases.

TensorFlow 2.5.1

Release 2.5.1

This release introduces several vulnerability fixes:

Fixes a heap out of bounds access in sparse reduction operations (CVE-2021-37635)

Fixes a floating point exception in SparseDenseCwiseDiv (CVE-2021-37636)

Fixes a null pointer dereference in CompressElement (CVE-2021-37637)

Fixes a null pointer dereference in RaggedTensorToTensor (CVE-2021-37638)

Fixes a null pointer dereference and a heap OOB read arising from operations restoring tensors (CVE-2021-37639)

Fixes an integer division by 0 in sparse reshaping (CVE-2021-37640)

Fixes a division by 0 in ResourceScatterDiv (CVE-2021-37642)

Fixes a heap OOB in RaggedGather (CVE-2021-37641)

Fixes a std::abort raised from TensorListReserve (CVE-2021-37644)

Fixes a null pointer dereference in MatrixDiagPartOp (CVE-2021-37643)

Fixes an integer overflow due to conversion to unsigned (CVE-2021-37645)

Fixes a bad allocation error in StringNGrams caused by integer conversion (CVE-2021-37646)

Fixes a null pointer dereference in SparseTensorSliceDataset (CVE-2021-37647)

Fixes an incorrect validation of SaveV2 inputs (CVE-2021-37648)

Fixes a null pointer dereference in UncompressElement (CVE-2021-37649)

Fixes a segfault and a heap buffer overflow in {Experimental,}DatasetToTFRecord (CVE-2021-37650)

Fixes a heap buffer overflow in FractionalAvgPoolGrad (CVE-2021-37651)

Fixes a use after free in boosted trees creation (CVE-2021-37652)

Fixes a division by 0 in ResourceGather (CVE-2021-37653)

Fixes a heap OOB and a CHECK fail in ResourceGather (CVE-2021-37654)

Fixes a heap OOB in ResourceScatterUpdate (CVE-2021-37655)

Fixes an undefined behavior arising from reference binding to nullptr in RaggedTensorToSparse (CVE-2021-37656)

Fixes an undefined behavior arising from reference binding to nullptr in MatrixDiagV* ops (CVE-2021-37657)

Fixes an undefined behavior arising from reference binding to nullptr in MatrixSetDiagV* ops (CVE-2021-37658)

Fixes an undefined behavior arising from reference binding to nullptr and heap OOB in binary cwise ops (CVE-2021-37659)

Fixes a division by 0 in inplace operations (CVE-2021-37660)

Fixes a crash caused by integer conversion to unsigned (CVE-2021-37661)

Fixes an undefined behavior arising from reference binding to nullptr in boosted trees (CVE-2021-37662)

Fixes a heap OOB in boosted trees (CVE-2021-37664)

Fixes vulnerabilities arising from incomplete validation in QuantizeV2 (CVE-2021-37663)

Fixes vulnerabilities arising from incomplete validation in MKL requantization (CVE-2021-37665)

Fixes an undefined behavior arising from reference binding to nullptr in RaggedTensorToVariant (CVE-2021-37666)

Fixes an undefined behavior arising from reference binding to nullptr in unicode encoding (CVE-2021-37667)

Fixes an FPE in tf.raw_ops.UnravelIndex (CVE-2021-37668)

Fixes a crash in NMS ops caused by integer conversion to unsigned (CVE-2021-37669)

Fixes a heap OOB in UpperBound and LowerBound (CVE-2021-37670)

Fixes an undefined behavior arising from reference binding to nullptr in map operations (CVE-2021-37671)

Fixes a heap OOB in SdcaOptimizerV2 (CVE-2021-37672)

Fixes a CHECK-fail in MapStage (CVE-2021-37673)

Fixes a vulnerability arising from incomplete validation in MaxPoolGrad (CVE-2021-37674)

Fixes an undefined behavior arising from reference binding to nullptr in shape inference (CVE-2021-37676)

Fixes a division by 0 in most convolution operators (CVE-2021-37675)

Fixes vulnerabilities arising from missing validation in shape inference for Dequantize (CVE-2021-37677)

Fixes an arbitrary code execution due to YAML deserialization (CVE-2021-37678)

Fixes a heap OOB in nested tf.map_fn with RaggedTensors (CVE-2021-37679)

... (truncated)

Changelog

Sourced from tensorflow's changelog.

Release 2.5.1

This release introduces several vulnerability fixes:

Fixes a heap out of bounds access in sparse reduction operations (CVE-2021-37635)

Fixes a floating point exception in SparseDenseCwiseDiv (CVE-2021-37636)

Fixes a null pointer dereference in CompressElement (CVE-2021-37637)

Fixes a null pointer dereference in RaggedTensorToTensor (CVE-2021-37638)

Fixes a null pointer dereference and a heap OOB read arising from operations restoring tensors (CVE-2021-37639)

Fixes an integer division by 0 in sparse reshaping (CVE-2021-37640)

Fixes a division by 0 in ResourceScatterDiv (CVE-2021-37642)

Fixes a heap OOB in RaggedGather (CVE-2021-37641)

Fixes a std::abort raised from TensorListReserve (CVE-2021-37644)

Fixes a null pointer dereference in MatrixDiagPartOp (CVE-2021-37643)

Fixes an integer overflow due to conversion to unsigned (CVE-2021-37645)

Fixes a bad allocation error in StringNGrams caused by integer conversion (CVE-2021-37646)

Fixes a null pointer dereference in SparseTensorSliceDataset (CVE-2021-37647)

Fixes an incorrect validation of SaveV2 inputs (CVE-2021-37648)

Fixes a null pointer dereference in UncompressElement (CVE-2021-37649)

Fixes a segfault and a heap buffer overflow in {Experimental,}DatasetToTFRecord (CVE-2021-37650)

Fixes a heap buffer overflow in FractionalAvgPoolGrad (CVE-2021-37651)

Fixes a use after free in boosted trees creation (CVE-2021-37652)

Fixes a division by 0 in ResourceGather (CVE-2021-37653)

Fixes a heap OOB and a CHECK fail in ResourceGather (CVE-2021-37654)

Fixes a heap OOB in ResourceScatterUpdate (CVE-2021-37655)

Fixes an undefined behavior arising from reference binding to nullptr in RaggedTensorToSparse

... (truncated)

Commits

8222c1c Merge pull request #51381 from tensorflow/mm-fix-r2.5-build

d584260 Disable broken/flaky test

f6c6ce3 Merge pull request #51367 from tensorflow-jenkins/version-numbers-2.5.1-17468

3ca7812 Update version numbers to 2.5.1

4fdf683 Merge pull request #51361 from tensorflow/mm-update-relnotes-on-r2.5

05fc01a Put CVE numbers for fixes in parentheses

bee1dc4 Update release notes for the new patch release

47beb4c Merge pull request #50597 from kruglov-dmitry/v2.5.0-sync-abseil-cmake-bazel

6f39597 Merge pull request #49383 from ashahab/abin-load-segfault-r2.5

0539b34 Merge pull request #48979 from liufengdb/r2.5-cherrypick

Additional commits viewable in compare view

Dependabot will resolve any conflicts with this PR as long as you don't alter it yourself. You can also trigger a rebase manually by commenting @dependabot rebase.

Dependabot commands and options

You can trigger Dependabot actions by commenting on this PR:

@dependabot rebase will rebase this PR

@dependabot recreate will recreate this PR, overwriting any edits that have been made to it

@dependabot merge will merge this PR after your CI passes on it

@dependabot squash and merge will squash and merge this PR after your CI passes on it

@dependabot cancel merge will cancel a previously requested merge and block automerging

@dependabot reopen will reopen this PR if it is closed

@dependabot close will close this PR and stop Dependabot recreating it. You can achieve the same result by closing it manually

@dependabot ignore this major version will close this PR and stop Dependabot creating any more for this major version (unless you reopen the PR or upgrade to it yourself)

@dependabot ignore this minor version will close this PR and stop Dependabot creating any more for this minor version (unless you reopen the PR or upgrade to it yourself)

@dependabot ignore this dependency will close this PR and stop Dependabot creating any more for this dependency (unless you reopen the PR or upgrade to it yourself)

@dependabot use these labels will set the current labels as the default for future PRs for this repo and language

@dependabot use these reviewers will set the current reviewers as the default for future PRs for this repo and language

@dependabot use these assignees will set the current assignees as the default for future PRs for this repo and language

@dependabot use this milestone will set the current milestone as the default for future PRs for this repo and language

You can disable automated security fix PRs for this repo from the Security Alerts page.

dependencies
opened by dependabot[bot] 0
small(320000.pth.tar) weights incompatibility

`2022-11-11 22:31:08.004017: I tensorflow/stream_executor/platform/default/dso_loader.cc:53] Successfully opened dynamic library cudart64_110.dll

Device of PortaSpeech: cpu Traceback (most recent call last): File "synthesize.py", line 153, in model = get_model(args, configs, device, train=False) File "D:\projects\PortaSpeech\utils\model.py", line 21, in get_model model.load_state_dict(ckpt["model"]) File "C:\ProgramData\Miniconda3\envs\tts_env\lib\site-packages\torch\nn\modules\module.py", line 1223, in load_state_dict raise RuntimeError('Error(s) in loading state_dict for {}:\n\t{}'.format( RuntimeError: Error(s) in loading state_dict for PortaSpeech: Missing key(s) in state_dict: "linguistic_encoder.phoneme_encoder.attn_layers.3.emb_rel_k", "linguistic_encoder.phoneme_encoder.attn_layers.3.emb_rel_v", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_q.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_q.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_k.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_k.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_v.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_v.bias", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_o.weight", "linguistic_encoder.phoneme_encoder.attn_layers.3.conv_o.bias", "linguistic_encoder.phoneme_encoder.norm_layers_1.3.gamma", "linguistic_encoder.phoneme_encoder.norm_layers_1.3.beta", "linguistic_encoder.phoneme_encoder.ffn_layers.3.conv.weight", "linguistic_encoder.phoneme_encoder.ffn_layers.3.conv.bias", "linguistic_encoder.phoneme_encoder.norm_layers_2.3.gamma", "linguistic_encoder.phoneme_encoder.norm_layers_2.3.beta", "linguistic_encoder.word_encoder.attn_layers.3.emb_rel_k", "linguistic_encoder.word_encoder.attn_layers.3.emb_rel_v", "linguistic_encoder.word_encoder.attn_layers.3.conv_q.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_q.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_k.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_k.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_v.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_v.bias", "linguistic_encoder.word_encoder.attn_layers.3.conv_o.weight", "linguistic_encoder.word_encoder.attn_layers.3.conv_o.bias", "linguistic_encoder.word_encoder.norm_layers_1.3.gamma", "linguistic_encoder.word_encoder.norm_layers_1.3.beta", "linguistic_encoder.word_encoder.ffn_layers.3.conv.weight", "linguistic_encoder.word_encoder.ffn_layers.3.conv.bias", "linguistic_encoder.word_encoder.norm_layers_2.3.gamma", "linguistic_encoder.word_encoder.norm_layers_2.3.beta", "variational_generator.flow.flows.0.enc.in_layers.3.bias", "variational_generator.flow.flows.0.enc.in_layers.3.weight_g", "variational_generator.flow.flows.0.enc.in_layers.3.weight_v", "variational_generator.flow.flows.0.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.0.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.0.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.2.enc.in_layers.3.bias", "variational_generator.flow.flows.2.enc.in_layers.3.weight_g", "variational_generator.flow.flows.2.enc.in_layers.3.weight_v", "variational_generator.flow.flows.2.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.2.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.2.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.4.enc.in_layers.3.bias", "variational_generator.flow.flows.4.enc.in_layers.3.weight_g", "variational_generator.flow.flows.4.enc.in_layers.3.weight_v", "variational_generator.flow.flows.4.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.4.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.4.enc.res_skip_layers.3.weight_v", "variational_generator.flow.flows.6.enc.in_layers.3.bias", "variational_generator.flow.flows.6.enc.in_layers.3.weight_g", "variational_generator.flow.flows.6.enc.in_layers.3.weight_v", "variational_generator.flow.flows.6.enc.res_skip_layers.3.bias", "variational_generator.flow.flows.6.enc.res_skip_layers.3.weight_g", "variational_generator.flow.flows.6.enc.res_skip_layers.3.weight_v", "variational_generator.dec_wn.in_layers.3.bias", "variational_generator.dec_wn.in_layers.3.weight_g", "variational_generator.dec_wn.in_layers.3.weight_v", "variational_generator.dec_wn.res_skip_layers.3.bias", "variational_generator.dec_wn.res_skip_layers.3.weight_g", "variational_generator.dec_wn.res_skip_layers.3.weight_v", "postnet.flows.24.logs", "postnet.flows.24.bias", "postnet.flows.25.weight", "postnet.flows.26.start.bias", "postnet.flows.26.start.weight_g", "postnet.flows.26.start.weight_v", "postnet.flows.26.end.weight", "postnet.flows.26.end.bias", "postnet.flows.26.cond_layer.bias", "postnet.flows.26.cond_layer.weight_g", "postnet.flows.26.cond_layer.weight_v", "postnet.flows.26.wn.in_layers.0.bias", "postnet.flows.26.wn.in_layers.0.weight_g", "postnet.flows.26.wn.in_layers.0.weight_v", "postnet.flows.26.wn.in_layers.1.bias", "postnet.flows.26.wn.in_layers.1.weight_g", "postnet.flows.26.wn.in_layers.1.weight_v", "postnet.flows.26.wn.in_layers.2.bias", "postnet.flows.26.wn.in_layers.2.weight_g", "postnet.flows.26.wn.in_layers.2.weight_v", "postnet.flows.26.wn.res_skip_layers.0.bias", "postnet.flows.26.wn.res_skip_layers.0.weight_g", "postnet.flows.26.wn.res_skip_layers.0.weight_v", "postnet.flows.26.wn.res_skip_layers.1.bias", "postnet.flows.26.wn.res_skip_layers.1.weight_g", "postnet.flows.26.wn.res_skip_layers.1.weight_v", "postnet.flows.26.wn.res_skip_layers.2.bias", "postnet.flows.26.wn.res_skip_layers.2.weight_g", "postnet.flows.26.wn.res_skip_layers.2.weight_v", "postnet.flows.27.logs", "postnet.flows.27.bias", "postnet.flows.28.weight", "postnet.flows.29.start.bias", "postnet.flows.29.start.weight_g", "postnet.flows.29.start.weight_v", "postnet.flows.29.end.weight", "postnet.flows.29.end.bias", "postnet.flows.29.cond_layer.bias", "postnet.flows.29.cond_layer.weight_g", "postnet.flows.29.cond_layer.weight_v", "postnet.flows.29.wn.in_layers.0.bias", "postnet.flows.29.wn.in_layers.0.weight_g", "postnet.flows.29.wn.in_layers.0.weight_v", "postnet.flows.29.wn.in_layers.1.bias", "postnet.flows.29.wn.in_layers.1.weight_g", "postnet.flows.29.wn.in_layers.1.weight_v", "postnet.flows.29.wn.in_layers.2.bias", "postnet.flows.29.wn.in_layers.2.weight_g", "postnet.flows.29.wn.in_layers.2.weight_v", "postnet.flows.29.wn.res_skip_layers.0.bias", "postnet.flows.29.wn.res_skip_layers.0.weight_g", "postnet.flows.29.wn.res_skip_layers.0.weight_v", "postnet.flows.29.wn.res_skip_layers.1.bias", "postnet.flows.29.wn.res_skip_layers.1.weight_g", "postnet.flows.29.wn.res_skip_layers.1.weight_v", "postnet.flows.29.wn.res_skip_layers.2.bias", "postnet.flows.29.wn.res_skip_layers.2.weight_g", "postnet.flows.29.wn.res_skip_layers.2.weight_v", "postnet.flows.30.logs", "postnet.flows.30.bias", "postnet.flows.31.weight", "postnet.flows.32.start.bias", "postnet.flows.32.start.weight_g", "postnet.flows.32.start.weight_v", "postnet.flows.32.end.weight", "postnet.flows.32.end.bias", "postnet.flows.32.cond_layer.bias", "postnet.flows.32.cond_layer.weight_g", "postnet.flows.32.cond_layer.weight_v", "postnet.flows.32.wn.in_layers.0.bias", "postnet.flows.32.wn.in_layers.0.weight_g", "postnet.flows.32.wn.in_layers.0.weight_v", "postnet.flows.32.wn.in_layers.1.bias", "postnet.flows.32.wn.in_layers.1.weight_g", "postnet.flows.32.wn.in_layers.1.weight_v", "postnet.flows.32.wn.in_layers.2.bias", "postnet.flows.32.wn.in_layers.2.weight_g", "postnet.flows.32.wn.in_layers.2.weight_v", "postnet.flows.32.wn.res_skip_layers.0.bias", "postnet.flows.32.wn.res_skip_layers.0.weight_g", "postnet.flows.32.wn.res_skip_layers.0.weight_v", "postnet.flows.32.wn.res_skip_layers.1.bias", "postnet.flows.32.wn.res_skip_layers.1.weight_g", "postnet.flows.32.wn.res_skip_layers.1.weight_v", "postnet.flows.32.wn.res_skip_layers.2.bias", "postnet.flows.32.wn.res_skip_layers.2.weight_g", "postnet.flows.32.wn.res_skip_layers.2.weight_v", "postnet.flows.33.logs", "postnet.flows.33.bias", "postnet.flows.34.weight", "postnet.flows.35.start.bias", "postnet.flows.35.start.weight_g", "postnet.flows.35.start.weight_v", "postnet.flows.35.end.weight", "postnet.flows.35.end.bias", "postnet.flows.35.cond_layer.bias", "postnet.flows.35.cond_layer.weight_g", "postnet.flows.35.cond_layer.weight_v", "postnet.flows.35.wn.in_layers.0.bias", "postnet.flows.35.wn.in_layers.0.weight_g", "postnet.flows.35.wn.in_layers.0.weight_v", "postnet.flows.35.wn.in_layers.1.bias", "postnet.flows.35.wn.in_layers.1.weight_g", "postnet.flows.35.wn.in_layers.1.weight_v", "postnet.flows.35.wn.in_layers.2.bias", "postnet.flows.35.wn.in_layers.2.weight_g", "postnet.flows.35.wn.in_layers.2.weight_v", "postnet.flows.35.wn.res_skip_layers.0.bias", "postnet.flows.35.wn.res_skip_layers.0.weight_g", "postnet.flows.35.wn.res_skip_layers.0.weight_v", "postnet.flows.35.wn.res_skip_layers.1.bias", "postnet.flows.35.wn.res_skip_layers.1.weight_g", "postnet.flows.35.wn.res_skip_layers.1.weight_v", "postnet.flows.35.wn.res_skip_layers.2.bias", "postnet.flows.35.wn.res_skip_layers.2.weight_g", "postnet.flows.35.wn.res_skip_layers.2.weight_v". size mismatch for linguistic_encoder.abs_position_enc: copying a param with shape torch.Size([1, 1001, 128]) from checkpoint, the shape in current model is torch.Size([1, 1001, 192]). size mismatch for linguistic_encoder.kv_position_enc: copying a param with shape torch.Size([1, 1001, 128]) from checkpoint, the shape in current model is torch.Size([1, 1001, 192]). size mismatch for linguistic_encoder.q_position_enc: copying a param with shape torch.Size([1, 1001, 128]) from checkpoint, the shape in current model is torch.Size([1, 1001, 192]). size mismatch for linguistic_encoder.src_emb.weight: copying a param with shape torch.Size([361, 128]) from checkpoint, the shape in current model is torch.Size([361, 192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.emb_rel_v: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_q.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_q.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_k.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_k.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_v.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_v.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_o.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.0.conv_o.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.emb_rel_v: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_q.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_q.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_k.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_k.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_v.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_v.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_o.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.1.conv_o.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.emb_rel_v: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_q.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_q.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_k.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_k.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_v.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_v.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_o.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.phoneme_encoder.attn_layers.2.conv_o.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.0.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.0.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.1.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.1.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.2.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_1.2.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.0.conv.weight: copying a param with shape torch.Size([128, 128, 3]) from checkpoint, the shape in current model is torch.Size([192, 192, 5]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.0.conv.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.1.conv.weight: copying a param with shape torch.Size([128, 128, 3]) from checkpoint, the shape in current model is torch.Size([192, 192, 5]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.1.conv.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.2.conv.weight: copying a param with shape torch.Size([128, 128, 3]) from checkpoint, the shape in current model is torch.Size([192, 192, 5]). size mismatch for linguistic_encoder.phoneme_encoder.ffn_layers.2.conv.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.0.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.0.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.1.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.1.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.2.gamma: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.phoneme_encoder.norm_layers_2.2.beta: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.emb_rel_v: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_q.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_q.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_k.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_k.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_v.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_v.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_o.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.0.conv_o.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.emb_rel_v: copying a param with shape torch.Size([1, 9, 64]) from checkpoint, the shape in current model is torch.Size([1, 9, 96]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_q.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_q.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_k.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_k.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_v.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_v.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_o.weight: copying a param with shape torch.Size([128, 128, 1]) from checkpoint, the shape in current model is torch.Size([192, 192, 1]). size mismatch for linguistic_encoder.word_encoder.attn_layers.1.conv_o.bias: copying a param with shape torch.Size([128]) from checkpoint, the shape in current model is torch.Size([192]). size mismatch for linguistic_encoder.word_encoder.attn_layers.2.emb_rel_k: copying a param with shape torch.Size([1, 9, 64]) from...`

opened by ironmann250 0
RuntimeError: Found dtype Long but expected Float

File "train.py", line 122, in main model_update(model, step, G_loss, optG_fs2) File "train.py", line 77, in model_update loss = (loss / grad_acc_step).backward() File "C:\Users\12604\Anaconda3\envs\pytorch\lib\site-packages\torch\tensor.py", line 221, in backward torch.autograd.backward(self, gradient, retain_graph, create_graph) File "C:\Users\12604\Anaconda3\envs\pytorch\lib\site-packages\torch\autograd_init_.py", line 132, in backward allow_unreachable=True) # allow_unreachable flag RuntimeError: Found dtype Long but expected Float

[email protected]. This problem occurs when the loss function is back-propagating, how can I solve it? This is the dtype of loss

opened by qw1260497397 1
A questions about the output of Phoneme Encoding

[email protected], after the linguistic encoder is implemented, the text is input to the character embedding layer, and the output value contains Nan. How to solve this problem?

opened by qw1260497397 2
Multi-speaker TTS

Dear sir,

First of all, I really appriciate your contribution in this amazing repo! However, it would be perfect if you can add the feature of multi-speaker TTS here. I can see the spker_emb was not used now. Do I know when can you consider this and opmimize the ability of this impressive model!

Thanks,

Max

opened by manhph2211 1
The meaning of inputs[11:] in model.loss.py
HI@[keonlee9420]，I cannot understand the meaning of inputs[11:] in model.loss.py

def forward(self, inputs, predictions, step): ( mel_targets, *_, ) = inputs[11:] Thank you very much!
opened by qw1260497397 4

Releases(v0.2.0)

v0.2.0(Feb 17, 2022)
Fix bug in LinguisticEncoder. See this commit for details.

Apply several techniques to improve world-to-phoneme alignment and output accuracy. Check out the Note section in README for details.

Update pre-trained models with some demo of the update.

Source code(tar.gz)
Source code(zip)
v0.1.0(Oct 18, 2021)

Source code(tar.gz)
Source code(zip)

PyTorch Implementation of PortaSpeech: Portable and High-Quality Generative Text-to-Speech

Related tags

Overview

PortaSpeech - PyTorch Implementation

Model Size

Quickstart

Dependencies

Inference

Batch Inference

Controllability

Training

Datasets

Preprocessing

Training

TensorBoard

Notes

Citation

References

Comments

8.3.2

Security

Python 3.10 wheels

Fixed regressions

8.3.2 (2021-09-02)

TensorFlow 2.5.1

Release 2.5.1

Release 2.5.1

Releases(v0.2.0)

v0.2.0(Feb 17, 2022)

v0.1.0(Oct 18, 2021)

Owner

Keon Lee

Contrastive Learning Inverts the Data Generating Process

Tutorial on active learning with the Nvidia Transfer Learning Toolkit (TLT).

QSYM: A Practical Concolic Execution Engine Tailored for Hybrid Fuzzing

CLOOB: Modern Hopfield Networks with InfoLOOB Outperform CLIP

Nb workflows - A workflow platform which allows you to run parameterized notebooks programmatically

Can we learn gradients by Hamiltonian Neural Networks?

Code and real data for the paper "Counterfactual Temporal Point Processes", available at arXiv.

VISNOTATE: An Opensource tool for Gaze-based Annotation of WSI Data

Motion Reconstruction Code and Data for Skills from Videos (SFV)

Notebook and code to synthesize complex and highly dimensional datasets using Gretel APIs.

This repository contains the code for designing risk bounded motion plans for car-like robot using Carla Simulator.

Python code to generate art with Generative Adversarial Network

Pytorch implementation of DeepMind's differentiable neural computer paper.

Bolt Online Learning Toolbox

Fully Adaptive Bayesian Algorithm for Data Analysis (FABADA) is a new approach of noise reduction methods. In this repository is shown the package developed for this new method based on \citepaper.

A collection of inference modules for fastai2

A list of all papers and resoureces on Semantic Segmentation

EfficientDet (Scalable and Efficient Object Detection) implementation in Keras and Tensorflow

PyTorch Implementation of Fully Convolutional Networks. (Training code to reproduce the original result is available.)

My 1st place solution at Kaggle Hotel-ID 2021