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Anonymous linkage using cryptographic hashes and bloom filters

Project description

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A Python (and optimised C++) implementation of anonymous linkage using cryptographic linkage keys as described by Rainer Schnell, Tobias Bachteler, and Jörg Reiher in A Novel Error-Tolerant Anonymous Linking Code.

anonlink computes similarity scores, and/or best guess matches between sets of cryptographic linkage keys (hashed entity records).

Use clkhash to create cryptographic linkage keys from personally identifiable data.

Installation

Install a precompiled wheel from PyPi:

pip install anonlink

Or (if your system has a C++ compiler) you can locally install from source:

pip install -r requirements.txt
pip install -e .

Benchmark

You can run the benchmark with:

$ python -m anonlink.benchmark
Anonlink benchmark -- see README for explanation
------------------------------------------------
100000 x 1024 bit popcounts
Implementation              | Time (ms) | Bandwidth (MiB/s) | Throughput (1e6 popc/s)
Python (bitarray.count()):  |    17.78  |      686.54       |    5.62
Native code (no copy):      |     1.00  |    12243.76       |  100.30
Native code (w/ copy):      |   344.17  |       35.47       |    0.29 (99.7% copying)

Threshold: 0.5
Size 1 | Size 2 | Comparisons      | Total Time (s)          | Throughput
       |        |        (match %) | (comparisons / matching)|  (1e6 cmp/s)
-------+--------+------------------+-------------------------+-------------
  1000 |   1000 |    1e6  (50.20%) |  0.249  (88.6% / 11.4%) |     4.525
  2000 |   2000 |    4e6  (50.51%) |  1.069  (88.5% / 11.5%) |     4.227
  3000 |   3000 |    9e6  (50.51%) |  2.412  (85.3% / 14.7%) |     4.375
  4000 |   4000 |   16e6  (50.56%) |  4.316  (83.6% / 16.4%) |     4.434

Threshold: 0.7
Size 1 | Size 2 | Comparisons      | Total Time (s)          | Throughput
       |        |        (match %) | (comparisons / matching)|  (1e6 cmp/s)
-------+--------+------------------+-------------------------+-------------
  1000 |   1000 |    1e6  ( 0.01%) |  0.017  (99.8% /  0.2%) |    59.605
  2000 |   2000 |    4e6  ( 0.01%) |  0.056  (99.8% /  0.2%) |    71.484
  3000 |   3000 |    9e6  ( 0.01%) |  0.118  (99.9% /  0.1%) |    76.500
  4000 |   4000 |   16e6  ( 0.01%) |  0.202  (99.9% /  0.1%) |    79.256
  5000 |   5000 |   25e6  ( 0.01%) |  0.309  (99.9% /  0.1%) |    81.093
  6000 |   6000 |   36e6  ( 0.01%) |  0.435  (99.9% /  0.1%) |    82.841
  7000 |   7000 |   49e6  ( 0.01%) |  0.590  (99.9% /  0.1%) |    83.164
  8000 |   8000 |   64e6  ( 0.01%) |  0.757  (99.9% /  0.1%) |    84.619
  9000 |   9000 |   81e6  ( 0.01%) |  0.962  (99.8% /  0.2%) |    84.358
 10000 |  10000 |  100e6  ( 0.01%) |  1.166  (99.8% /  0.2%) |    85.895
 20000 |  20000 |  400e6  ( 0.01%) |  4.586  (99.9% /  0.1%) |    87.334

The tables are interpreted as follows. The first section compares the bandwidth doing popcounts through (i) the Python bitarray library and (ii) a native code implementation in assembler. The latter implementation is measured in two ways: the first measures just the time taken to compute the popcounts, while the second includes the time taken to copy the data out of the running Python instance as well as copying the result back into Python. The “% copying” measure is the proportion of time spent doing this copying.

The second section includes two tables that measure the throughput of the Dice coefficient comparison function. The two tables correspond to two different choices of “matching threshold”, 0.5 and 0.7, which were chosen to characterise two different performance scenarios. Since the data used for comparisons is randomly generated, the first threshold value will cause about 50% of the candidates to “match”, while the second threshold value will cause <0.01% of the candidates to match (these values are reported in the “match %” column). In both cases, all matches above the threshold are returned and passed to the solver. In the first case, the large number of matches means that much of the time is spent keeping the candidates in order so that the top k matches can be returned. In the latter case, the tiny number of candidate matches means that the throughput is determined primarily by the comparison code itself.

Finally, the Total Time column includes indications as to the proportion of time spent calculating the (sparse) similarity matrix comparisons and the proportion of time spent matching in the greedy solver. This latter is determined by the size of the similarity matrix, which will be approximately #comparisons * match% / 100.

Tests

Run unit tests with pytest:

$ pytest
====================================== test session starts ======================================
platform linux -- Python 3.6.4, pytest-3.2.5, py-1.4.34, pluggy-0.4.0
rootdir: /home/hlaw/src/n1-anonlink, inifile:
collected 71 items

tests/test_benchmark.py ...
tests/test_bloommatcher.py ..............
tests/test_e2e.py .............ss....
tests/test_matcher.py ..x.....x......x....x..
tests/test_similarity.py .........
tests/test_util.py ...

======================== 65 passed, 2 skipped, 4 xfailed in 4.01 seconds ========================

To enable slightly larger tests add the following environment variables:

  • INCLUDE_10K

  • INCLUDE_100K

Limitations

Discussion

If you run into bugs, you can file them in our issue tracker on GitHub.

There is also an anonlink mailing list for development discussion and release announcements.

Wherever we interact, we strive to follow the Python Community Code of Conduct.

Citing

Anonlink is designed, developed and supported by CSIRO’s Data61. If you use any part of this library in your research, please cite it using the following BibTex entry:

@misc{Anonlink,
  author = {CSIRO's Data61},
  title = {Anonlink Private Record Linkage System},
  year = {2017},
  publisher = {GitHub},
  journal = {GitHub Repository},
  howpublished = {\url{https://github.com/data61/anonlink}},
}

License

Copyright 2017 CSIRO (Data61)

Licensed under the Apache License, Version 2.0 (the “License”); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

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