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GitHub - linvon/cuckoo-filter: Cuckoo Filter go implement, better than Bloom Filter, configurable and space optimized 布谷鸟过滤器的Go实现,优于布隆过滤器,可以定制化过滤器参数,并进行了空间优化
Cuckoo Filter go implement, better than Bloom Filter, configurable and space optimized 布谷鸟过滤器的Go实现,优于布隆过滤器,可以定制化过滤器参数,并进行了空间优化 - linvon/cuckoo-filter
Visit SiteGitHub - linvon/cuckoo-filter: Cuckoo Filter go implement, better than Bloom Filter, configurable and space optimized 布谷鸟过滤器的Go实现,优于布隆过滤器,可以定制化过滤器参数,并进行了空间优化
Cuckoo Filter go implement, better than Bloom Filter, configurable and space optimized 布谷鸟过滤器的Go实现,优于布隆过滤器,可以定制化过滤器参数,并进行了空间优化 - linvon/cuckoo-filter
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cuckoo-filter
cuckoo-filter go implement. Config by you
transplant from efficient/cuckoofilter
Overview
Cuckoo filter is a Bloom filter replacement for approximated set-membership queries. While Bloom filters are well-known space-efficient data structures to serve queries like "if item x is in a set?", they do not support deletion. Their variances to enable deletion (like counting Bloom filters) usually require much more space.
Cuckoo filters provide the flexibility to add and remove items dynamically. A cuckoo filter is based on cuckoo hashing (and therefore named as cuckoo filter). It is essentially a cuckoo hash table storing each key's fingerprint. Cuckoo hash tables can be highly compact, thus a cuckoo filter could use less space than conventional Bloom filters, for applications that require low false positive rates (< 3%).
For details about the algorithm and citations please use:
"Cuckoo Filter: Practically Better Than Bloom" in proceedings of ACM CoNEXT 2014 by Bin Fan, Dave Andersen and Michael Kaminsky
Implementation details
The paper cited above leaves several parameters to choose.
- Bucket size(b): Number of fingerprints per bucket
- Fingerprints size(f): Fingerprints bits size of hashtag
In other implementation:
- seiflotfy/cuckoofilter use b=4, f=8 bit, which correspond to a false positive rate of
r ~= 0.03
. - panmari/cuckoofilter use b=4, f=16 bit, which correspond to a false positive rate of
r ~= 0.0001
. - irfansharif/cfilter can adjust b and f, but only can adjust f to 8x, which means it is in Bytes.
In this implementation, you can adjust b and f to any value you want in TableTypeSingle
type implementation.
In addition, the Semi-sorting Buckets mentioned in paper which can save 1 bit per item is also available in TableTypePacked
type,
note that b=4, only f is adjustable.
Why custom is important?
According to paper
- Different bucket size result in different filter loadfactor, which means occupancy rate of filter
- Different bucket size is suitable for different target false positive rate
- To keep a false positive rate, bigger bucket size, bigger fingerprint size
Given a target false positive rate of r
when r > 0.002, having two entries per bucket yields slightly better results than using four entries per bucket; when decreases to 0.00001 < r ≤ 0.002, four entries per bucket minimizes space.
with a bucket size b
, they suggest choosing the fingerprint size f
using
f >= log2(2b/r) bits
as the same time, notice that we got loadfactor 84%, 95% or 98% when using bucket size b = 2, 4 or 8
To know more about parameter choosing, refer to paper's section 5
Note: generally b = 8 is enough, without more data support, we suggest you choosing b from 2, 4 or 8. And f is max 32 bits
Example usage:
package main
import (
"fmt"
"github.com/linvon/cuckoo-filter"
)
func main() {
cf := cuckoo.NewFilter(4, 9, 3900, cuckoo.TableTypePacked)
fmt.Println(cf.Info())
fmt.Println(cf.FalsePositiveRate())
a := []byte("A")
cf.Add(a)
fmt.Println(cf.Contain(a))
fmt.Println(cf.Size())
b := cf.Encode()
ncf, _ := cuckoo.Decode(b)
fmt.Println(ncf.Contain(a))
cf.Delete(a)
fmt.Println(cf.Size())
}
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