path: root/notes/old_pipeline.md

## Performance

For development, we worked on a `release_export_expanded.json` dump (113G/700G zstd/plain, 154,203,375 lines) and with the [fatcat API](https://api.fatcat.wiki/).


### Clustering

Clustering derives sets of similar documents from a [fatcat database release
dump](https://archive.org/details/fatcat_snapshots_and_exports?&sort=-publicdate).


Example running clustering:

```
$ python -m fuzzycat cluster -t tsandcrawler < data/re.json | zstd -c -T0 > cluster.json.zst
```

Clustering works in a three step process:

1. key extraction for each document (choose algorithm)
2. sorting by keys (via [GNU sort](https://www.gnu.org/software/coreutils/manual/html_node/sort-invocation.html))
3. group by key and write out ([itertools.groupby](https://docs.python.org/3/library/itertools.html#itertools.groupby))

Note: For long running processes, this all-or-nothing approach is impractical;
e.g. running clustering on the joint references and fatcat dataset (2B records)
takes 24h+.

Ideas:

* [ ] make (sorted) key extraction a fast standalone thing

> `cat data.jsonl | fuzzycat-key --algo X > data.key.tsv`

Where `data.key` group (id, key, blob) or the like. Make this line speed (maybe
w/ rust). Need to carry the blob, as we do not want to restrict options.


## Verification

Run verification (pairwise *double-check* of match candidates in a cluster).

```
$ time zstdcat -T0 sample_cluster.json.zst | python -m fuzzycat verify > sample_verify.txt

real    7m56.713s
user    8m50.703s
sys     0m29.262s
```

This is a one-pass operation. For processing 150M docs, we very much depend on
the documents being on disk in a file (we keep the complete document in the
clustering result).

Example results:

```
3450874 Status.EXACT Reason.TITLE_AUTHOR_MATCH
2619990 Status.STRONG Reason.SLUG_TITLE_AUTHOR_MATCH
2487633 Status.DIFFERENT Reason.YEAR
2434532 Status.EXACT Reason.WORK_ID
2085006 Status.DIFFERENT Reason.CONTRIB_INTERSECTION_EMPTY
1397420 Status.DIFFERENT Reason.SHARED_DOI_PREFIX
1355852 Status.DIFFERENT Reason.RELEASE_TYPE
1290162 Status.AMBIGUOUS Reason.DUMMY
1145511 Status.DIFFERENT Reason.BOOK_CHAPTER
1009657 Status.DIFFERENT Reason.DATASET_DOI
 996503 Status.STRONG Reason.PMID_DOI_PAIR
 868951 Status.EXACT Reason.DATACITE_VERSION
 796216 Status.STRONG Reason.DATACITE_RELATED_ID
 704154 Status.STRONG Reason.FIGSHARE_VERSION
 534963 Status.STRONG Reason.VERSIONED_DOI
 343310 Status.STRONG Reason.TOKENIZED_AUTHORS
 334974 Status.STRONG Reason.JACCARD_AUTHORS
 293835 Status.STRONG Reason.PREPRINT_PUBLISHED
 269366 Status.DIFFERENT Reason.COMPONENT
 263626 Status.DIFFERENT Reason.SUBTITLE
 224021 Status.AMBIGUOUS Reason.SHORT_TITLE
 152990 Status.DIFFERENT Reason.PAGE_COUNT
 133811 Status.AMBIGUOUS Reason.CUSTOM_PREFIX_10_5860_CHOICE_REVIEW
 122600 Status.AMBIGUOUS Reason.CUSTOM_PREFIX_10_7916
  79664 Status.STRONG Reason.CUSTOM_IEEE_ARXIV
  46649 Status.DIFFERENT Reason.CUSTOM_PREFIX_10_14288
  39797 Status.DIFFERENT Reason.JSTOR_ID
  38598 Status.STRONG Reason.CUSTOM_BSI_UNDATED
  18907 Status.STRONG Reason.CUSTOM_BSI_SUBDOC
  15465 Status.EXACT Reason.DOI
  13393 Status.DIFFERENT Reason.CUSTOM_IOP_MA_PATTERN
  10378 Status.DIFFERENT Reason.CONTAINER
   3081 Status.AMBIGUOUS Reason.BLACKLISTED
   2504 Status.AMBIGUOUS Reason.BLACKLISTED_FRAGMENT
   1273 Status.AMBIGUOUS Reason.APPENDIX
   1063 Status.DIFFERENT Reason.TITLE_FILENAME
    104 Status.DIFFERENT Reason.NUM_DIFF
      4 Status.STRONG Reason.ARXIV_VERSION
```

## A full run

Single threaded, 42h.

```
$ time zstdcat -T0 release_export_expanded.json.zst | \
    TMPDIR=/bigger/tmp python -m fuzzycat cluster --tmpdir /bigger/tmp -t tsandcrawler | \
    zstd -c9 > cluster_tsandcrawler.json.zst
{
  "key_fail": 0,
  "key_ok": 154202433,
  "key_empty": 942,
  "key_denylist": 0,
  "num_clusters": 124321361
}

real    2559m7.880s
user    2605m41.347s
sys     118m38.141s
```

So, 29881072 (about 20%) docs in the potentially duplicated set. Verification (about 15h w/o parallel):

```
$ time zstdcat -T0 cluster_tsandcrawler.json.zst | python -m fuzzycat verify | \
    zstd -c9 > cluster_tsandcrawler_verified_3c7378.tsv.zst

...

real    927m28.631s
user    939m32.761s
sys     36m47.602s
```

----

# Misc


## Usage

Release clusters start with release entities json lines.

```shell
$ cat data/sample.json | python -m fuzzycat cluster -t title > out.json
```

Clustering 1M records (single core) takes about 64s (15K docs/s).

```shell
$ head -1 out.json
{
  "k": "裏表紙",
  "v": [
    ...
  ]
}
```

Using GNU parallel to make it faster.

```
$ cat data/sample.json | parallel -j 8 --pipe --roundrobin python -m fuzzycat.main cluster -t title
```

Interestingly, the parallel variants detects fewer clusters (because data is
split and clusters are searched within each batch). TODO(miku): sort out sharding bug.

# Notes on Refs

* technique from fuzzycat ported in parts to [skate](https://github.com/miku/skate) - to go from refs and release dataset to a number of clusters, relating references to releases
* need to verify, but not the references against each other, only refs againt the release

# Notes on Performance

While running bulk (1B+) clustering and verification, even with parallel,
fuzzycat got slow. The citation graph project therefore contains a
reimplementation of `fuzzycat.verify` and related functions in Go, which in
this case is an order of magnitude faster. See:
[skate](https://git.archive.org/martin/cgraph/-/tree/master/skate).