train_mmi_sgmm2.sh
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#!/bin/bash
# Copyright 2012 Johns Hopkins University (Author: Daniel Povey). Apache 2.0.
# Korbinian Riedhammer
# MMI training (or optionally boosted MMI, if you give the --boost option),
# for SGMMs. 4 iterations (by default) of Extended Baum-Welch update.
#
# Begin configuration section.
cmd=run.pl
num_iters=4
boost=0.0
cancel=true # if true, cancel num and den counts on each frame.
acwt=0.1
stage=0
update_opts=
transform_dir=
# End configuration section
echo "$0 $@" # Print the command line for logging
[ -f ./path.sh ] && . ./path.sh; # source the path.
. parse_options.sh || exit 1;
if [ $# -ne 6 ]; then
echo "Usage: steps/tandem/train_mmi_sgmm2.sh <data1> <data2> <lang> <ali> <denlats> <exp>"
echo " e.g.: steps/tandem/train_mmi_sgmm2.sh {mfcc,bottleneck}/data1/train_si84 data1/lang exp/tri2b_ali_si84 exp/tri2b_denlats_si84 exp/tri2b_mmi"
echo "Main options (for others, see top of script file)"
echo " --boost <boost-weight> # (e.g. 0.1), for boosted MMI. (default 0)"
echo " --cancel (true|false) # cancel stats (true by default)"
echo " --cmd (utils/run.pl|utils/queue.pl <queue opts>) # how to run jobs."
echo " --config <config-file> # config containing options"
echo " --stage <stage> # stage to do partial re-run from."
echo " --transform-dir <transform-dir> # directory to find fMLLR transforms."
exit 1;
fi
data1=$1
data2=$2
lang=$3
alidir=$4
denlatdir=$5
dir=$6
mkdir -p $dir/log
utils/lang/check_phones_compatible.sh $lang/phones.txt $alidir/phones.txt || exit 1;
cp $lang/phones.txt $dir || exit 1;
for f in $data1/feats.scp $alidir/{tree,final.mdl,ali.1.gz} $denlatdir/lat.1.gz; do
[ ! -f $f ] && echo "$0: no such file $f" && exit 1;
done
nj=`cat $alidir/num_jobs` || exit 1;
[ "$nj" -ne "`cat $denlatdir/num_jobs`" ] && \
echo "$alidir and $denlatdir have different num-jobs" && exit 1;
mkdir -p $dir/log
echo $nj > $dir/num_jobs
cp $alidir/{final.mdl,tree} $dir
silphonelist=`cat $lang/phones/silence.csl` || exit 1;
# Set up features
sdata1=$data1/split$nj
sdata2=$data2/split$nj
[[ -d $sdata1 && $data1/feats.scp -ot $sdata1 ]] || split_data.sh $data1 $nj || exit 1;
[[ -d $sdata2 && $data2/feats.scp -ot $sdata2 ]] || split_data.sh $data2 $nj || exit 1;
splice_opts=`cat $alidir/splice_opts 2>/dev/null` # frame-splicing options.
normft2=`cat $alidir/normft2 2>/dev/null`
if [ -f $alidir/final.mat ]; then feat_type=lda; else feat_type=delta; fi
case $feat_type in
delta)
echo "$0: feature type is $feat_type"
;;
lda)
echo "$0: feature type is $feat_type"
cp $alidir/{lda,final}.mat $dir/ || exit 1;
;;
*) echo "$0: invalid feature type $feat_type" && exit 1;
esac
# set up feature stream 1; this are usually spectral features, so we will add
# deltas or splice them
feats1="ark,s,cs:apply-cmvn --norm-vars=false --utt2spk=ark:$sdata1/JOB/utt2spk scp:$sdata1/JOB/cmvn.scp scp:$sdata1/JOB/feats.scp ark:- |"
if [ "$feat_type" == "delta" ]; then
feats1="$feats1 add-deltas ark:- ark:- |"
elif [ "$feat_type" == "lda" ]; then
feats1="$feats1 splice-feats $splice_opts ark:- ark:- | transform-feats $dir/lda.mat ark:- ark:- |"
fi
# set up feature stream 2; this are usually bottleneck or posterior features,
# which may be normalized if desired
feats2="scp:$sdata2/JOB/feats.scp"
if [ "$normft2" == "true" ]; then
feats2="ark,s,cs:apply-cmvn --norm-vars=false --utt2spk=ark:$sdata2/JOB/utt2spk scp:$sdata2/JOB/cmvn.scp $feats2 ark:- |"
fi
# assemble tandem features
feats="ark,s,cs:paste-feats '$feats1' '$feats2' ark:- |"
# add transformation, if applicable
if [ "$feat_type" == "lda" ]; then
feats="$feats transform-feats $dir/final.mat ark:- ark:- |"
fi
# splicing/normalization options
cp $alidir/{splice_opts,normft2,tandem} $dir 2>/dev/null
if [ ! -z "$transform_dir" ]; then
echo "$0: using transforms from $transform_dir"
[ ! -f $transform_dir/trans.1 ] && echo "$0: no such file $transform_dir/trans.1" \
&& exit 1;
feats="$feats transform-feats --utt2spk=ark:$sdata1/JOB/utt2spk ark,s,cs:$transform_dir/trans.JOB ark:- ark:- |"
else
echo "$0: no fMLLR transforms."
fi
if [ -f $alidir/vecs.1 ]; then
echo "$0: using speaker vectors from $alidir"
spkvecs_opt="--spk-vecs=ark:$alidir/vecs.JOB --utt2spk=ark:$sdata1/JOB/utt2spk"
else
echo "$0: no speaker vectors."
spkvecs_opt=
fi
if [ -f $alidir/gselect.1.gz ]; then
echo "$0: using Gaussian-selection info from $alidir"
gselect_opt="--gselect=ark:gunzip -c $alidir/gselect.JOB.gz|"
else
echo "$0: error: no Gaussian-selection info found" && exit 1;
fi
lats="ark:gunzip -c $denlatdir/lat.JOB.gz|"
if [[ "$boost" != "0.0" && "$boost" != 0 ]]; then
lats="$lats lattice-boost-ali --b=$boost --silence-phones=$silphonelist $alidir/final.mdl ark:- 'ark,s,cs:gunzip -c $alidir/ali.JOB.gz|' ark:- |"
fi
cur_mdl=$alidir/final.mdl
x=0
while [ $x -lt $num_iters ]; do
echo "Iteration $x of MMI training"
# Note: the num and den states are accumulated at the same time, so we
# can cancel them per frame.
if [ $stage -le $x ]; then
$cmd JOB=1:$nj $dir/log/acc.$x.JOB.log \
sgmm2-rescore-lattice "$gselect_opt" $spkvecs_opt $cur_mdl "$lats" "$feats" ark:- \| \
lattice-to-post --acoustic-scale=$acwt ark:- ark:- \| \
sum-post --merge=$cancel --scale1=-1 \
ark:- "ark,s,cs:gunzip -c $alidir/ali.JOB.gz | ali-to-post ark:- ark:- |" ark:- \| \
sgmm2-acc-stats2 "$gselect_opt" $spkvecs_opt $cur_mdl "$feats" ark,s,cs:- \
$dir/num_acc.$x.JOB.acc $dir/den_acc.$x.JOB.acc || exit 1;
n=`echo $dir/{num,den}_acc.$x.*.acc | wc -w`;
[ "$n" -ne $[$nj*2] ] && \
echo "Wrong number of MMI accumulators $n versus 2*$nj" && exit 1;
$cmd $dir/log/den_acc_sum.$x.log \
sgmm2-sum-accs $dir/den_acc.$x.acc $dir/den_acc.$x.*.acc || exit 1;
rm $dir/den_acc.$x.*.acc
$cmd $dir/log/num_acc_sum.$x.log \
sgmm2-sum-accs $dir/num_acc.$x.acc $dir/num_acc.$x.*.acc || exit 1;
rm $dir/num_acc.$x.*.acc
$cmd $dir/log/update.$x.log \
sgmm2-est-ebw $update_opts $cur_mdl $dir/num_acc.$x.acc $dir/den_acc.$x.acc $dir/$[$x+1].mdl || exit 1;
fi
cur_mdl=$dir/$[$x+1].mdl
# Some diagnostics: the objective function progress and auxiliary-function
# improvement. Note: this code is same as in train_mmi.sh
tail -n 50 $dir/log/acc.$x.*.log | perl -e '$acwt=shift @ARGV; while(<STDIN>) { if(m/sgmm2-acc-stats2.+Overall weighted acoustic likelihood per frame was (\S+) over (\S+) frames/) { $tot_aclike += $1*$2; $tot_frames1 += $2; } if(m|lattice-to-post.+Overall average log-like/frame is (\S+) over (\S+) frames. Average acoustic like/frame is (\S+)|) { $tot_den_lat_like += $1*$2; $tot_frames2 += $2; $tot_den_aclike += $3*$2; } } if (abs($tot_frames1 - $tot_frames2) > 0.01*($tot_frames1 + $tot_frames2)) { print STDERR "Frame-counts disagree $tot_frames1 versus $tot_frames2\n"; } $tot_den_lat_like /= $tot_frames2; $tot_den_aclike /= $tot_frames2; $tot_aclike *= ($acwt / $tot_frames1); $num_like = $tot_aclike + $tot_den_aclike; $per_frame_objf = $num_like - $tot_den_lat_like; print "$per_frame_objf $tot_frames1\n"; ' $acwt > $dir/tmpf
objf=`cat $dir/tmpf | awk '{print $1}'`;
nf=`cat $dir/tmpf | awk '{print $2}'`;
rm $dir/tmpf
impr=`grep -w Overall $dir/log/update.$x.log | awk '{x += $10*$12;} END{print x;}'`
impr=`perl -e "print ($impr*$acwt/$nf);"` # We multiply by acwt, and divide by $nf which is the "real" number of frames.
echo "Iteration $x: objf was $objf, MMI auxf change was $impr" | tee $dir/objf.$x.log
x=$[$x+1]
done
echo "MMI training finished"
rm $dir/final.mdl 2>/dev/null
ln -s $x.mdl $dir/final.mdl
exit 0;