Models: various bag-of-words approaches on segmented documents with WordPiece tokenization
This page describes experiments, integrated into Anserini's regression testing framework, on the TREC 2020 Deep Learning Track document ranking task. Here we are using WordPiece tokenization (i.e., from BERT) on passages from the documents. At retrieval time, we select the score of the highest-scoring passage from a document as the score for that document to produce a document ranking; this is known as the MaxP technique. In general, effectiveness is lower than with "standard" Lucene tokenization for two reasons: (1) we're losing stemming, and (2) some terms are chopped into less meaningful subwords.
Note that the NIST relevance judgments provide far more relevant documents per topic, unlike the "sparse" judgments provided by Microsoft (these are sometimes called "dense" judgments to emphasize this contrast).
The exact configurations for these regressions are stored in this YAML file. Note that this page is automatically generated from this template as part of Anserini's regression pipeline, so do not modify this page directly; modify the template instead.
From one of our Waterloo servers (e.g., orca
), the following command will perform the complete regression, end to end:
python src/main/python/run_regression.py --index --verify --search --regression dl20-doc-segmented-wp
Typical indexing command:
target/appassembler/bin/IndexCollection \
-collection JsonCollection \
-input /path/to/msmarco-doc-segmented-wp \
-generator DefaultLuceneDocumentGenerator \
-index indexes/lucene-index.msmarco-doc-segmented-wp/ \
-threads 16 -storePositions -storeDocvectors -storeRaw -pretokenized \
>& logs/log.msmarco-doc-segmented-wp &
The directory /path/to/msmarco-doc-segmented/
should be a directory containing the segmented corpus in Anserini's jsonl format.
See this page for how to prepare the corpus.
For additional details, see explanation of common indexing options.
Topics and qrels are stored here, which is linked to the Anserini repo as a submodule. The regression experiments here evaluate on the 45 topics for which NIST has provided judgments as part of the TREC 2020 Deep Learning Track. The original data can be found here.
After indexing has completed, you should be able to perform retrieval as follows:
target/appassembler/bin/SearchCollection \
-index indexes/lucene-index.msmarco-doc-segmented-wp/ \
-topics tools/topics-and-qrels/topics.dl20.wp.tsv.gz \
-topicReader TsvInt \
-output runs/run.msmarco-doc-segmented-wp.bm25-default.topics.dl20.wp.txt \
-bm25 -pretokenized -hits 10000 -selectMaxPassage -selectMaxPassage.delimiter "#" -selectMaxPassage.hits 1000 &
Evaluation can be performed using trec_eval
:
target/appassembler/bin/trec_eval -c -M 100 -m map tools/topics-and-qrels/qrels.dl20-doc.txt runs/run.msmarco-doc-segmented-wp.bm25-default.topics.dl20.wp.txt
target/appassembler/bin/trec_eval -c -m ndcg_cut.10 tools/topics-and-qrels/qrels.dl20-doc.txt runs/run.msmarco-doc-segmented-wp.bm25-default.topics.dl20.wp.txt
target/appassembler/bin/trec_eval -c -m recall.100 tools/topics-and-qrels/qrels.dl20-doc.txt runs/run.msmarco-doc-segmented-wp.bm25-default.topics.dl20.wp.txt
target/appassembler/bin/trec_eval -c -m recall.1000 tools/topics-and-qrels/qrels.dl20-doc.txt runs/run.msmarco-doc-segmented-wp.bm25-default.topics.dl20.wp.txt
With the above commands, you should be able to reproduce the following results:
AP@100 | BM25 (default) |
---|---|
DL20 (Doc) | 0.3267 |
nDCG@10 | BM25 (default) |
DL20 (Doc) | 0.5127 |
R@100 | BM25 (default) |
DL20 (Doc) | 0.5468 |
R@1000 | BM25 (default) |
DL20 (Doc) | 0.7441 |