Generator to generate Bigint ID or unique key for 174 years (Approx 200k unique Id/sec/machine on 8k distributed machines at once) inspired by Twitter's Snowflake and Sonyflake
Goldflake is a distributed unique ID generator inspired by Twitter's Snowflake & Sonyflake
To become application & database oriented unique bigint id generator for lifetime without compromising performance.
- Sonyflake generator is good, if you are generating all Ids at application end.
- Sonyflake has a limit of 25K id/sec on single node, which seems low in today's scenarios when we are talking about cloud & databases can be created with high system configurations easily.
- I have tried & tested Sonyflake bits configuration on Postgres-12 on my machine (Dell XPS, Intel® Core™ i7-9750H Processor 6 Core 12 Threads, 16GB RAM, SSD) & observed duplicate key conflict, which is a very basic configuration for Databases now a days.
- Goldflake is usnig 11 bits for sequence instead of 8 (as used by Sonyflake) which gives more unique ID generation on databases as well.
So it has a different bit assignment from Snowflake & Sonyflake. A Goldflake ID is composed of
39 bits for time in units of 10 msec // Similar to Sonyflake
13 bits for a machine id or app instance id or shard id // Balance between Snowflake and Sonyflake (If you can live with 8192 machines)
11 bits for a sequence number // To generate 2^11=2048 unique ids per 10 millisecond or 204800 keys/sec on one node
For PostgreSQL -https://github.com/AmreeshTyagi/goldflake-pg
| Twitter Snowflake | Sonyflake | Goldflake | |
|---|---|---|---|
| Lifetime to generate unique id on single machine | 69 | 174 | 174 |
| No. of distributed machines | 1024 | 65536 | 8192 |
| No. of unique IDs per 10 milliseconds | 40960 | 256 | 2048 |
| Max No. of unique IDs per second on single node | 4096000 = 4096k | 25600 = 25.6k | 204800 = 204.8k |
| Max No. of unique IDs per second on all nodes | 4194304000 | 1677721600 | 1677721600 |
| Database oriented | Yes | No | Yes |
| Application oriented | Yes | Yes | Yes |
| Comment | Less number of machines | DB will return duplicate soon in case of heavy concurrency | 50% application generated IDs & 50% database generated IDs makes it a best fit to use it on app server and db server. I believe 4096 database shards are enough to handle potential large load. Though it depends on solution design as well. |