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egs/reverb/s5/local/nnet3/run_ivector_common.sh
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#!/bin/bash set -euo pipefail # This script is called from local/nnet3/run_tdnn.sh and # local/chain/run_tdnn.sh (and may eventually be called by more # scripts). It contains the common feature preparation and # iVector-related parts of the script. See those scripts for examples # of usage. stage=0 train_set=train_worn_u100k test_sets="dev_worn dev_beamformit_ref" gmm=tri3 nj=96 nnet3_affix=_train_worn_u100k . ./cmd.sh . ./path.sh . utils/parse_options.sh gmm_dir=exp/${gmm} ali_dir=exp/${gmm}_ali_${train_set}_sp for f in data/${train_set}/feats.scp ${gmm_dir}/final.mdl; do if [ ! -f $f ]; then echo "$0: expected file $f to exist" exit 1 fi done if [ $stage -le 1 ]; then # Although the nnet will be trained by high resolution data, we still have to # perturb the normal data to get the alignment _sp stands for speed-perturbed echo "$0: preparing directory for low-resolution speed-perturbed data (for alignment)" utils/data/perturb_data_dir_speed_3way.sh data/${train_set} data/${train_set}_sp echo "$0: making MFCC features for low-resolution speed-perturbed data" steps/make_mfcc.sh --cmd "$train_cmd" --nj 20 data/${train_set}_sp || exit 1; steps/compute_cmvn_stats.sh data/${train_set}_sp || exit 1; utils/fix_data_dir.sh data/${train_set}_sp fi if [ $stage -le 2 ]; then echo "$0: aligning with the perturbed low-resolution data" steps/align_fmllr.sh --nj ${nj} --cmd "$train_cmd" \ data/${train_set}_sp data/lang $gmm_dir $ali_dir || exit 1 fi if [ $stage -le 3 ]; then # Create high-resolution MFCC features (with 40 cepstra instead of 13). # this shows how you can split across multiple file-systems. echo "$0: creating high-resolution MFCC features" mfccdir=data/${train_set}_sp_hires/data if [[ $(hostname -f) == *.clsp.jhu.edu ]] && [ ! -d $mfccdir/storage ]; then utils/create_split_dir.pl /export/b1{4,5,6,8}/$USER/kaldi-data/mfcc/reverb-$(date +'%m_%d_%H_%M')/s5/$mfccdir/storage $mfccdir/storage fi for datadir in ${train_set}_sp ${test_sets}; do utils/copy_data_dir.sh data/$datadir data/${datadir}_hires done # do volume-perturbation on the training data prior to extracting hires # features; this helps make trained nnets more invariant to test data volume. utils/data/perturb_data_dir_volume.sh data/${train_set}_sp_hires || exit 1; for datadir in ${train_set}_sp ${test_sets}; do steps/make_mfcc.sh --nj 20 --mfcc-config conf/mfcc_hires.conf \ --cmd "$train_cmd" data/${datadir}_hires || exit 1; steps/compute_cmvn_stats.sh data/${datadir}_hires || exit 1; utils/fix_data_dir.sh data/${datadir}_hires || exit 1; done fi if [ $stage -le 4 ]; then echo "$0: computing a subset of data to train the diagonal UBM." # We'll use about a quarter of the data. mkdir -p exp/nnet3${nnet3_affix}/diag_ubm temp_data_root=exp/nnet3${nnet3_affix}/diag_ubm num_utts_total=$(wc -l <data/${train_set}_sp_hires/utt2spk) num_utts=$[$num_utts_total/4] utils/data/subset_data_dir.sh data/${train_set}_sp_hires \ $num_utts ${temp_data_root}/${train_set}_sp_hires_subset echo "$0: computing a PCA transform from the hires data." steps/online/nnet2/get_pca_transform.sh --cmd "$train_cmd" \ --splice-opts "--left-context=3 --right-context=3" \ --max-utts 10000 --subsample 2 \ ${temp_data_root}/${train_set}_sp_hires_subset \ exp/nnet3${nnet3_affix}/pca_transform echo "$0: training the diagonal UBM." # Use 512 Gaussians in the UBM. steps/online/nnet2/train_diag_ubm.sh --cmd "$train_cmd" --nj 30 \ --num-frames 700000 \ --num-threads 8 \ ${temp_data_root}/${train_set}_sp_hires_subset 512 \ exp/nnet3${nnet3_affix}/pca_transform exp/nnet3${nnet3_affix}/diag_ubm fi if [ $stage -le 5 ]; then # Train the iVector extractor. Use all of the speed-perturbed data since iVector extractors # can be sensitive to the amount of data. The script defaults to an iVector dimension of # 100. echo "$0: training the iVector extractor" steps/online/nnet2/train_ivector_extractor.sh --cmd "$train_cmd" --nj 20 \ data/${train_set}_sp_hires exp/nnet3${nnet3_affix}/diag_ubm \ exp/nnet3${nnet3_affix}/extractor || exit 1; fi if [ $stage -le 6 ]; then # We extract iVectors on the speed-perturbed training data after combining # short segments, which will be what we train the system on. With # --utts-per-spk-max 2, the script pairs the utterances into twos, and treats # each of these pairs as one speaker; this gives more diversity in iVectors.. # Note that these are extracted 'online'. # note, we don't encode the 'max2' in the name of the ivectordir even though # that's the data we extract the ivectors from, as it's still going to be # valid for the non-'max2' data, the utterance list is the same. ivectordir=exp/nnet3${nnet3_affix}/ivectors_${train_set}_sp_hires if [[ $(hostname -f) == *.clsp.jhu.edu ]] && [ ! -d $ivectordir/storage ]; then utils/create_split_dir.pl /export/b0{5,6,7,8}/$USER/kaldi-data/ivectors/reverb-$(date +'%m_%d_%H_%M')/s5/$ivectordir/storage $ivectordir/storage fi # having a larger number of speakers is helpful for generalization, and to # handle per-utterance decoding well (iVector starts at zero). temp_data_root=${ivectordir} utils/data/modify_speaker_info.sh --utts-per-spk-max 2 \ data/${train_set}_sp_hires ${temp_data_root}/${train_set}_sp_hires_max2 steps/online/nnet2/extract_ivectors_online.sh --cmd "$train_cmd" --nj ${nj} \ ${temp_data_root}/${train_set}_sp_hires_max2 \ exp/nnet3${nnet3_affix}/extractor $ivectordir # Also extract iVectors for the test data, but in this case we don't need the speed # perturbation (sp). for data in $test_sets; do steps/online/nnet2/extract_ivectors_online.sh --cmd "$train_cmd" --nj 10 \ data/${data}_hires exp/nnet3${nnet3_affix}/extractor \ exp/nnet3${nnet3_affix}/ivectors_${data}_hires done fi exit 0 |