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ItsdbTreebanking_ItsdbModeling
This page presents user-supplied information, hence may be inaccurate in some details, or not necessarily reflect use patterns anticipated by the [incr tsdb()] developers. This page was initiated by FrancisBond; please feel free to make additions or corrections as you see fit. However, before revising this page, one should be reasonably confident of the information given being correct.
Contents
- Page Status
- Overview
- Training a Scoring Model
- Training a scoring model using a batch script
- Using TADM directly to train a ranking model
If you have treebanked a profile, and have Rob Malouf's TADM: Toolkit for Advanced Discriminative Modeling, in particular the program tadm installed, then you can train a scoring model which PET (PetTop) can use. However, current [incr tsdb()] training and evaluation code assumes a small number of patches to TADM that have yet to be incorporated into the SourceForge repository; feel free to contact StephanOepen for details. A pre-compiled binary is available as part of the LOGON tree, and quite generally all [incr tsdb()] machine learning and experimentation (MLE) functionality is best supported in the LOGON environment. Look in the sub-directory lingo/redwoods/ for examples of how to create virtual profiles and run extensive batch runs, e.g. populating a feature cache, training models, and executing a grid search for optimal feature selection and estimation parameters.
Select the treebanked profile (left-click), or profiles (click in the radio buttons) and then select Trees | Train from the menus. It will prompt you for the filename to put the scoring model in. The tradtion is something like corpus-version.mem. You should have the grammar used for treebanking loaded into the LKB (LkbTop). Training is normally fairly fast.
You can compare the ranking of a given profile with a treebanked gold standard (assuming the same test-suite and grammar). The ranking can be changed by changing the scoring model in the parser.
To compare: select the gold standard (middle click), then the profile to be scored as the current database (left click); (make sure the current version of the grammar is loaded into the LKB).
Set: Trees | Switches | Implicit Ranks and Trees | Switches | Result Equivalence; and then go Trees | Score.
;; score results in .data. against ground truth in .gold. operates in
;; several slightly distinct modes: (i) using the implicit parse ranking in
;; the order of `results' or (ii) using an explicit ranking from the `score'
;; relation an orthogonal dimension of variation is (a) scoring by result
;; identifier (e.g. within the same profile or against one that is comprised
;; of identical results) vs. (b) scoring by derivation equivalence (e.g.
;; when comparing best-first parser output against a gold standard).
In order to make the scoring faster, you should do a thinning normalize on the gold profile for comparison first. This thins (implicitly) to only those trees marked as good by the annotator, i.e. you thin out all dis-preferred trees. To get a 5-best comparison, play with the Scoring Beam value.
The scoring model is referenced in cheap's grammar.set for PET:
;;; scoring mechanism (fairly embryonic, for now)
sm := "hinoki.mem".
The scoring model is referenced in the script and globals.lsp for the LKB:
script
;;; if you have [incr tsdb()], load a Maximum Entropy parse selection model
#+:tsdb
(tsdb::read-model (lkb-pathname (parent-directory) "hinoki.mem"))
globals.lsp
;;; use the parse selection model for selective unpacking
#+:tsdb
(setf *unpacking-scoring-hook* #'tsdb::mem-score-configuration)
You can calculate the baseline for a profile (the probability of a random parse being correct) as follows:
(tsdb::baseline "profile-name")
(0.18341358 1.4064516 104.56272 1395)
The four numbers are the baseline itself, the average number of selected trees, ??? and the number of items considered. The default condition is readings > 1 && t-active >= 1, that is, all ambiguous parses that have been reduced. You can add extra conditions, for example to only consider items where the results are resolved to a single parse:
(tsdb::baseline "profile-name" :condition "t-active = 1")
(0.20147601 1.0 64.88867 1015)
Use the redwood script train.lisp.
./load train.lisp
This should work if you have the treebanks and skeletons in the right places. It first caches the values (fc.dbd) and then trains the models. You must have tadm to do the actual training.
To create a ranker you just need to specify the number of options for each event and indicate the number of observations for each option (often 0 or 1 when looking at a single, uncondensed event). Say you were doing parse reranking, and your first sentence has 2 parses and the 1st is the correct one, and the second sentence has 5 parses and the 4th one is the correct one. Then your event file would like like:
2
1 <features of the first parse>
0 <features of the second parse>
5
0 <features of the first parse>
0 <features of the second parse>
0 <features of the third parse>
1 <features of the fourth parse>
0 <features of the fifth parse>
The difference with a classifier is that different events can have different numbers of outcomes and the features won't include the class label as part of their definition. The reason TADM can be used for ranking is precisely because it doesn't pack in the class label into the features automatically.
From Jason Baldridge http://sourceforge.net/projects/tadm/forums/forum/473054/topic/1992369
Note that: <features of the nth parse> should be an integer giving how many pairs of parses there are, and then pairs of integers showing feature frequency. e.g.,
3 0 1 1 3 2 1
To train a model:
tadm -events_in trains_df.eve.gz -params_out para_df-smooth.par -monitor -fatol 1e-32 -frtol 1e-7 -variances variances -malloc_log
To evaluate a model:
evaluate para_df-smooth.par test_df.eve.gz
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