# Amphion Evaluation Recipe ## Supported Evaluation Metrics Until now, Amphion Evaluation has supported the following objective metrics: - **F0 Modeling**: - F0 Pearson Coefficients (FPC) - F0 Periodicity Root Mean Square Error (PeriodicityRMSE) - F0 Root Mean Square Error (F0RMSE) - Voiced/Unvoiced F1 Score (V/UV F1) - **Energy Modeling**: - Energy Root Mean Square Error (EnergyRMSE) - Energy Pearson Coefficients (EnergyPC) - **Intelligibility**: - Character Error Rate (CER) based on [Whipser](https://github.com/openai/whisper) - Word Error Rate (WER) based on [Whipser](https://github.com/openai/whisper) - **Spectrogram Distortion**: - Frechet Audio Distance (FAD) - Mel Cepstral Distortion (MCD) - Multi-Resolution STFT Distance (MSTFT) - Perceptual Evaluation of Speech Quality (PESQ) - Short Time Objective Intelligibility (STOI) - Scale Invariant Signal to Distortion Ratio (SISDR) - Scale Invariant Signal to Noise Ratio (SISNR) - **Speaker Similarity**: - Cosine similarity based on: - [Rawnet3](https://github.com/Jungjee/RawNet) - [Resemblyzer](https://github.com/resemble-ai/Resemblyzer) - [WavLM](https://huggingface.co./microsoft/wavlm-base-plus-sv) We provide a recipe to demonstrate how to objectively evaluate your generated audios. There are three steps in total: 1. Pretrained Models Preparation 2. Audio Data Preparation 3. Evaluation ## 1. Pretrained Models Preparation If you want to calculate `RawNet3` based speaker similarity, you need to download the pretrained model first, as illustrated [here](../../pretrained/README.md). ## 2. Audio Data Preparation Prepare reference audios and generated audios in two folders, the `ref_dir` contains the reference audio and the `gen_dir` contains the generated audio. Here is an example. ```plaintext ┣ {ref_dir} ┃ ┣ sample1.wav ┃ ┣ sample2.wav ┣ {gen_dir} ┃ ┣ sample1.wav ┃ ┣ sample2.wav ``` You have to make sure that the pairwise **reference audio and generated audio are named the same**, as illustrated above (sample1 to sample1, sample2 to sample2). ## 3. Evaluation Run the `run.sh` with specified refenrece folder, generated folder, dump folder and metrics. ```bash cd Amphion sh egs/metrics/run.sh \ --reference_folder [Your path to the reference audios] \ --generated_folder [Your path to the generated audios] \ --dump_folder [Your path to dump the objective results] \ --metrics [The metrics you need] \ --fs [Optional. To calculate all metrics in the specified sampling rate] \ --similarity_model [Optional. To choose the model for calculating the speaker similarity. Currently "rawnet", "wavlm" and "resemblyzer" are available. Default to "wavlm"] \ --similarity_mode [Optional. To choose the mode for calculating the speaker similarity. "pairwith" for calculating a series of ground truth / prediction audio pairs to obtain the speaker similarity, and "overall" for computing the average score with all possible pairs between the refernece folder and generated folder. Default to "pairwith"] \ --intelligibility_mode [Optionoal. To choose the mode for computing CER and WER. "gt_audio" means selecting the recognition content of the reference audio as the target, "gt_content" means using transcription as the target. Default to "gt_audio"] \ --ltr_path [Optional. Path to the transcription file] \ --language [Optional. Language for computing CER and WER. Default to "english"] ``` As for the metrics, an example is provided below: ```bash --metrics "mcd pesq fad" ``` All currently available metrics keywords are listed below: | Keys | Description | | ------------------------- | ------------------------------------------ | | `fpc` | F0 Pearson Coefficients | | `f0_periodicity_rmse` | F0 Periodicity Root Mean Square Error | | `f0rmse` | F0 Root Mean Square Error | | `v_uv_f1` | Voiced/Unvoiced F1 Score | | `energy_rmse` | Energy Root Mean Square Error | | `energy_pc` | Energy Pearson Coefficients | | `cer` | Character Error Rate | | `wer` | Word Error Rate | | `similarity` | Speaker Similarity | `fad` | Frechet Audio Distance | | `mcd` | Mel Cepstral Distortion | | `mstft` | Multi-Resolution STFT Distance | | `pesq` | Perceptual Evaluation of Speech Quality | | `si_sdr` | Scale Invariant Signal to Distortion Ratio | | `si_snr` | Scale Invariant Signal to Noise Ratio | | `stoi` | Short Time Objective Intelligibility | For example, if want to calculate the speaker similarity between the synthesized audio and the reference audio with the same content, run: ```bash sh egs/metrics/run.sh \ --reference_folder [Your path to the reference audios] \ --generated_folder [Your path to the generated audios] \ --dump_folder [Your path to dump the objective results] \ --metrics "similarity" \ --similarity_model [Optional. To choose the model for calculating the speaker similarity. Currently "rawnet", "wavlm" and "resemblyzer" are available. Default to "wavlm"] \ --similarity_mode "pairwith" \ ``` If you don't have the reference audio with the same content, run the following to get the conteng-free similarity score: ```bash sh egs/metrics/run.sh \ --reference_folder [Your path to the reference audios] \ --generated_folder [Your path to the generated audios] \ --dump_folder [Your path to dump the objective results] \ --metrics "similarity" \ --similarity_model [Optional. To choose the model for calculating the speaker similarity. Currently "rawnet", "wavlm" and "resemblyzer" are available. Default to "wavlm"] \ --similarity_mode "overall" \ ``` ## Troubleshooting ### FAD (Using Offline Models) If your system is unable to access huggingface.co from the terminal, you might run into an error like "OSError: Can't load tokenizer for ...". To work around this, follow these steps to use local models: 1. Download the [bert-base-uncased](https://huggingface.co./bert-base-uncased), [roberta-base](https://huggingface.co./roberta-base), and [facebook/bart-base](https://huggingface.co./facebook/bart-base) models from `huggingface.co`. Ensure that the models are complete and uncorrupted. Place these directories within `Amphion/pretrained`. For a detailed file structure reference, see [This README](../../pretrained/README.md#optional-model-dependencies-for-evaluation) under `Amphion/pretrained`. 2. Inside the `Amphion/pretrained` directory, create a bash script with the content outlined below. This script will automatically update the tokenizer paths used by your system: ```bash #!/bin/bash BERT_DIR="bert-base-uncased" ROBERTA_DIR="roberta-base" BART_DIR="facebook/bart-base" PYTHON_SCRIPT="[YOUR ENV PATH]/lib/python3.9/site-packages/laion_clap/training/data.py" update_tokenizer_path() { local dir_name=$1 local tokenizer_variable=$2 local full_path if [ -d "$dir_name" ]; then full_path=$(realpath "$dir_name") if [ -f "$PYTHON_SCRIPT" ]; then sed -i "s|${tokenizer_variable}.from_pretrained(\".*\")|${tokenizer_variable}.from_pretrained(\"$full_path\")|" "$PYTHON_SCRIPT" echo "Updated ${tokenizer_variable} path to $full_path." else echo "Error: The specified Python script does not exist." exit 1 fi else echo "Error: The directory $dir_name does not exist in the current directory." exit 1 fi } update_tokenizer_path "$BERT_DIR" "BertTokenizer" update_tokenizer_path "$ROBERTA_DIR" "RobertaTokenizer" update_tokenizer_path "$BART_DIR" "BartTokenizer" echo "BERT, BART and RoBERTa Python script paths have been updated." ``` 3. The script provided is intended to adjust the tokenizer paths in the `data.py` file, found under `/lib/python3.9/site-packages/laion_clap/training/`, within your specific environment. For those utilizing conda, you can determine your environment path by running `conda info --envs`. Then, substitute `[YOUR ENV PATH]` in the script with this path. If your environment is configured differently, you'll need to update the `PYTHON_SCRIPT` variable to correctly point to the `data.py` file. 4. Run the script. If it executes successfully, the tokenizer paths will be updated, allowing them to be loaded locally. ### WavLM-based Speaker Similarity (Using Offline Models) If your system is unable to access huggingface.co from the terminal and you want to calculate `WavLM` based speaker similarity, you need to download the pretrained model first, as illustrated [here](../../pretrained/README.md).