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?

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.

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)

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 ......

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?

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", 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"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]).

[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!

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.

Bumps pillow from 8.3.1 to 8.3.2.

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.

Bumps tensorflow from 2.5.0 to 2.5.1.

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.

`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", 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"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...`

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

[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?

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

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!