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egs/iam/v2/local/chain/tuning/run_cnn_e2eali_1c.sh
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#!/bin/bash # e2eali_1c is the same as e2eali_1b but has fewer CNN layers, smaller # l2-regularize, more epochs and uses dropout. # local/chain/compare_wer.sh exp/chain/cnn_e2eali_1b exp/chain/cnn_e2eali_1c # System cnn_e2eali_1b cnn_e2eali_1c # WER 10.33 10.05 # WER (rescored) 10.10 9.75 # CER 5.00 4.76 # CER (rescored) 4.88 4.68 # Final train prob -0.0428 -0.0317 # Final valid prob -0.0666 -0.0630 # Final train prob (xent) -0.9210 -0.5413 # Final valid prob (xent) -1.0264 -0.7096 # Parameters 3.98M 5.12M # steps/info/chain_dir_info.pl exp/chain/cnn_e2eali_1c # exp/chain/cnn_e2eali_1c: num-iters=21 nj=2..4 num-params=5.1M dim=40->392 combine=-0.034->-0.034 (over 1) xent:train/valid[13,20,final]=(-0.953,-0.800,-0.541/-1.03,-0.933,-0.710) logprob:train/valid[13,20,final]=(-0.069,-0.048,-0.032/-0.091,-0.078,-0.063) set -e -o pipefail stage=0 nj=30 train_set=train decode_val=true nnet3_affix= # affix for exp dirs, e.g. it was _cleaned in tedlium. affix=_1c #affix for TDNN+LSTM directory e.g. "1a" or "1b", in case we change the configuration. e2echain_model_dir=exp/chain/e2e_cnn_1a common_egs_dir= reporting_email= # chain options train_stage=-10 xent_regularize=0.1 frame_subsampling_factor=4 # training chunk-options chunk_width=340,300,200,100 num_leaves=500 # we don't need extra left/right context for TDNN systems. chunk_left_context=0 chunk_right_context=0 tdnn_dim=550 # training options srand=0 remove_egs=true lang_decode=data/lang lang_rescore=data/lang_rescore_6g if $decode_val; then maybe_val=val; else maybe_val= ; fi dropout_schedule='0,0@0.20,0.2@0.50,0' # End configuration section. echo "$0 $@" # Print the command line for logging . ./cmd.sh . ./path.sh . ./utils/parse_options.sh if ! cuda-compiled; then cat <<EOF && exit 1 This script is intended to be used with GPUs but you have not compiled Kaldi with CUDA If you want to use GPUs (and have them), go to src/, and configure and make on a machine where "nvcc" is installed. EOF fi ali_dir=exp/chain/e2e_ali_train lat_dir=exp/chain${nnet3_affix}/e2e_${train_set}_lats dir=exp/chain${nnet3_affix}/cnn_e2eali${affix} train_data_dir=data/${train_set} tree_dir=exp/chain${nnet3_affix}/tree_e2e # the 'lang' directory is created by this script. # If you create such a directory with a non-standard topology # you should probably name it differently. lang=data/lang_chain for f in $train_data_dir/feats.scp $ali_dir/ali.1.gz $ali_dir/final.mdl; do [ ! -f $f ] && echo "$0: expected file $f to exist" && exit 1 done if [ $stage -le 1 ]; then echo "$0: creating lang directory $lang with chain-type topology" # Create a version of the lang/ directory that has one state per phone in the # topo file. [note, it really has two states.. the first one is only repeated # once, the second one has zero or more repeats.] if [ -d $lang ]; then if [ $lang/L.fst -nt data/lang/L.fst ]; then echo "$0: $lang already exists, not overwriting it; continuing" else echo "$0: $lang already exists and seems to be older than data/lang..." echo " ... not sure what to do. Exiting." exit 1; fi else cp -r data/lang $lang silphonelist=$(cat $lang/phones/silence.csl) || exit 1; nonsilphonelist=$(cat $lang/phones/nonsilence.csl) || exit 1; # Use our special topology... note that later on may have to tune this # topology. steps/nnet3/chain/gen_topo.py $nonsilphonelist $silphonelist >$lang/topo fi fi if [ $stage -le 2 ]; then # Get the alignments as lattices (gives the chain training more freedom). # use the same num-jobs as the alignments steps/nnet3/align_lats.sh --nj $nj --cmd "$cmd" \ --acoustic-scale 1.0 \ --scale-opts '--transition-scale=1.0 --self-loop-scale=1.0' \ ${train_data_dir} data/lang $e2echain_model_dir $lat_dir echo "" >$lat_dir/splice_opts fi if [ $stage -le 3 ]; then # Build a tree using our new topology. We know we have alignments for the # speed-perturbed data (local/nnet3/run_ivector_common.sh made them), so use # those. The num-leaves is always somewhat less than the num-leaves from # the GMM baseline. if [ -f $tree_dir/final.mdl ]; then echo "$0: $tree_dir/final.mdl already exists, refusing to overwrite it." exit 1; fi steps/nnet3/chain/build_tree.sh \ --frame-subsampling-factor $frame_subsampling_factor \ --alignment-subsampling-factor 1 \ --context-opts "--context-width=2 --central-position=1" \ --cmd "$cmd" $num_leaves ${train_data_dir} \ $lang $ali_dir $tree_dir fi if [ $stage -le 4 ]; then mkdir -p $dir echo "$0: creating neural net configs using the xconfig parser"; num_targets=$(tree-info $tree_dir/tree | grep num-pdfs | awk '{print $2}') learning_rate_factor=$(echo "print (0.5/$xent_regularize)" | python) cnn_opts="l2-regularize=0.03 dropout-proportion=0.0" tdnn_opts="l2-regularize=0.03" output_opts="l2-regularize=0.04" common1="$cnn_opts required-time-offsets= height-offsets=-2,-1,0,1,2 num-filters-out=36" common2="$cnn_opts required-time-offsets= height-offsets=-2,-1,0,1,2 num-filters-out=70" common3="$cnn_opts required-time-offsets= height-offsets=-1,0,1 num-filters-out=70" mkdir -p $dir/configs cat <<EOF > $dir/configs/network.xconfig input dim=40 name=input conv-relu-batchnorm-dropout-layer name=cnn1 height-in=40 height-out=40 time-offsets=-3,-2,-1,0,1,2,3 $common1 conv-relu-batchnorm-dropout-layer name=cnn2 height-in=40 height-out=20 time-offsets=-2,-1,0,1,2 $common1 height-subsample-out=2 conv-relu-batchnorm-dropout-layer name=cnn3 height-in=20 height-out=20 time-offsets=-4,-2,0,2,4 $common2 conv-relu-batchnorm-dropout-layer name=cnn4 height-in=20 height-out=20 time-offsets=-4,-2,0,2,4 $common2 conv-relu-batchnorm-dropout-layer name=cnn5 height-in=20 height-out=10 time-offsets=-4,-2,0,2,4 $common2 height-subsample-out=2 relu-batchnorm-dropout-layer name=tdnn1 input=Append(-4,-2,0,2,4) dim=$tdnn_dim $tdnn_opts dropout-proportion=0.0 relu-batchnorm-dropout-layer name=tdnn2 input=Append(-4,0,4) dim=$tdnn_dim $tdnn_opts dropout-proportion=0.0 relu-batchnorm-dropout-layer name=tdnn3 input=Append(-4,0,4) dim=$tdnn_dim $tdnn_opts dropout-proportion=0.0 ## adding the layers for chain branch relu-batchnorm-layer name=prefinal-chain dim=$tdnn_dim target-rms=0.5 $tdnn_opts output-layer name=output include-log-softmax=false dim=$num_targets max-change=1.5 $output_opts # adding the layers for xent branch # This block prints the configs for a separate output that will be # trained with a cross-entropy objective in the 'chain' mod?els... this # has the effect of regularizing the hidden parts of the model. we use # 0.5 / args.xent_regularize as the learning rate factor- the factor of # 0.5 / args.xent_regularize is suitable as it means the xent # final-layer learns at a rate independent of the regularization # constant; and the 0.5 was tuned so as to make the relative progress # similar in the xent and regular final layers. relu-batchnorm-layer name=prefinal-xent input=tdnn3 dim=$tdnn_dim target-rms=0.5 $tdnn_opts output-layer name=output-xent dim=$num_targets learning-rate-factor=$learning_rate_factor max-change=1.5 $output_opts EOF steps/nnet3/xconfig_to_configs.py --xconfig-file $dir/configs/network.xconfig --config-dir $dir/configs/ fi if [ $stage -le 5 ]; then if [[ $(hostname -f) == *.clsp.jhu.edu ]] && [ ! -d $dir/egs/storage ]; then utils/create_split_dir.pl \ /export/b0{3,4,5,6}/$USER/kaldi-data/egs/iam-$(date +'%m_%d_%H_%M')/s5/$dir/egs/storage $dir/egs/storage fi steps/nnet3/chain/train.py --stage=$train_stage \ --cmd="$cmd" \ --feat.cmvn-opts="--norm-means=false --norm-vars=false" \ --chain.xent-regularize $xent_regularize \ --chain.leaky-hmm-coefficient=0.1 \ --chain.l2-regularize=0.00005 \ --chain.apply-deriv-weights=false \ --chain.lm-opts="--num-extra-lm-states=500" \ --chain.frame-subsampling-factor=$frame_subsampling_factor \ --chain.alignment-subsampling-factor=1 \ --chain.left-tolerance 3 \ --chain.right-tolerance 3 \ --trainer.srand=$srand \ --trainer.max-param-change=2.0 \ --trainer.num-epochs=8 \ --trainer.frames-per-iter=2000000 \ --trainer.optimization.num-jobs-initial=2 \ --trainer.optimization.num-jobs-final=4 \ --trainer.dropout-schedule $dropout_schedule \ --trainer.optimization.initial-effective-lrate=0.001 \ --trainer.optimization.final-effective-lrate=0.0001 \ --trainer.optimization.shrink-value=1.0 \ --trainer.num-chunk-per-minibatch=64,32 \ --trainer.optimization.momentum=0.0 \ --egs.chunk-width=$chunk_width \ --egs.chunk-left-context=$chunk_left_context \ --egs.chunk-right-context=$chunk_right_context \ --egs.chunk-left-context-initial=0 \ --egs.chunk-right-context-final=0 \ --egs.dir="$common_egs_dir" \ --egs.opts="--frames-overlap-per-eg 0 --constrained false" \ --cleanup.remove-egs=$remove_egs \ --use-gpu=true \ --reporting.email="$reporting_email" \ --feat-dir=$train_data_dir \ --tree-dir=$tree_dir \ --lat-dir=$lat_dir \ --dir=$dir || exit 1; fi if [ $stage -le 6 ]; then # The reason we are using data/lang here, instead of $lang, is just to # emphasize that it's not actually important to give mkgraph.sh the # lang directory with the matched topology (since it gets the # topology file from the model). So you could give it a different # lang directory, one that contained a wordlist and LM of your choice, # as long as phones.txt was compatible. utils/mkgraph.sh \ --self-loop-scale 1.0 $lang_decode \ $dir $dir/graph || exit 1; fi if [ $stage -le 7 ]; then frames_per_chunk=$(echo $chunk_width | cut -d, -f1) for decode_set in test $maybe_val; do steps/nnet3/decode.sh --acwt 1.0 --post-decode-acwt 10.0 \ --extra-left-context $chunk_left_context \ --extra-right-context $chunk_right_context \ --extra-left-context-initial 0 \ --extra-right-context-final 0 \ --frames-per-chunk $frames_per_chunk \ --nj $nj --cmd "$cmd" \ $dir/graph data/$decode_set $dir/decode_$decode_set || exit 1; steps/lmrescore_const_arpa.sh --cmd "$cmd" $lang_decode $lang_rescore \ data/$decode_set $dir/decode_${decode_set}{,_rescored} || exit 1 done fi echo "Done. Date: $(date). Results:" local/chain/compare_wer.sh $dir |