LiveRamp / HyperMinHash-java

Union, intersection, and set cardinality in loglog space
Other
54 stars 13 forks source link
cardinality cardinality-estimation hyperloglog hyperloglog-sketches java loglog loglog-beta minhash

Build Status

HyperMinHash-java

A Java implementation of the HyperMinHash algorithm, presented by Yu and Weber. HyperMinHash allows approximating set unions, intersections, Jaccard Indices, and cardinalities of very large sets with high accuracy using only loglog space. It also supports streaming updates and merging sketches, just the same as HyperLogLog.

This repo implements two flavors of HyperMinHash: 1) HyperMinHash: An implementation based on HyperLogLog with the addition of the bias correction seen in HyperLogLog++. 2) BetaMinHash: An implementation which uses LogLog-Beta for the underlying LogLog implementation. Loglog-beta is almost identical in accuracy to HyperLogLog++, except it performs better on cardinality estimations for small datasets (n <= 80k), holding memory fixed. Since we use Loglog-Beta, we refer to our implementation as BetaMinHash. However, our implementation currently only supports a fixed precision p=14.

If you expect to be dealing with low cardinality datasets (<= 80,000 unique elements), we recommend using BetaMinHash as it has a smaller memory footprint and is more accurate than HyperLogLog in the range from 20,000-80,000, holding memory fixed. However, note that different sketch types are not interchangeable i.e: obtaining the intersection of an HMH and a BMH is not currently supported.

Both implementations are equipped with serialization/deserialization capabilities out of the box for sending sketches over the wire or persisting them to disk.

Usage

Importing via Maven

<dependency>
  <groupId>com.liveramp</groupId>
  <artifactId>hyperminhash</artifactId>
  <version>0.2</version>
</dependency>

Cardinality estimation

Set<byte[]> mySet = getMySet();
BetaMinHash sketch = new BetaMinHash();
for (byte[] element : mySet){
    sketch.add(element);
}

long estimatedCardinality = sketch.cardinality();

Merging (unioning) sketches

Collection<BetaMinHash> sketches = getSketches();
SketchCombiner<BetaMinHash> combiner = BetaMinHashCombiner.getInstance();
BetaMinHash combined = combiner.union(sketches);

// to get cardinality of the union
long unionCardinality = combined.cardinality();

// using HyperMinHash instead of BetaMinHash
Collection<HyperMinHash> sketches = getSketches();
SketchCombiner<HyperMinHash> combiner = HyperMinHashCombinre.getInstance();
HyperMinHash combined = combiner.union(sketches);

Cardinality of unions

BetaMinHash combined = combiner.union(sketches);
long estimatedCardinality = combined.cardinality();

Cardinality of intersection

Collection<BetaMinHash> sketches = getSketches();
SketchCombiner<BetaMinHash> combiner = BetaMinHashComber.getInstance();
long intersectionCardinality = combiner.intersectionCardinality(sketches);

Serializing a sketch

To get a byte[] representation of a sketch, use the IntersectionSketch.SerDe interface:

HyperMinHash sketch = getSketch();
HyperMinHashSerde serde = new HyperMinHashSerde();

byte[] serialized = serde.toBytes(sketch);
HyperMinHash deserialized = serde.fromBytes(serialized);

int sizeInBytes = serde.sizeInBytes(sketch);

Maintainers

Commit authorship was lost when merging code. The maintainers of the library, in alphabetical order, are:

1) Christian Hansen (github.com/ChristianHansen) 2) Harry Rackmil (github.com/harryrackmil) 3) Shrif Nada (github.com/sherifnada)

Acknowledgements

Thanks to Seif Lotfy for implementing a Golang version of HyperMinHash. We use some of his tests in our library, and our BetaMinHash implementation references his implementation.