Resolve latency issues

This page shows you how to resolve latency issues with Firestore.

Latency

The following table describes possible causes of increased latency:

Latency cause Types of operations affected Resolution
Sustained traffic exceeding the 500-50-5 rule. read, write

For rapid traffic increases, Firestore attempts to automatically scale to meet the increased demand. When Firestore scales, latency begins to decrease.

Hot-spots (high read, write, and delete rates to a narrow document range) limit the ability of Firestore to scale. Review designing for scale and identify hot-spots in your application.

Contention, either from updating a single document too frequently or from transactions. read, write

Reduce the write rate to individual documents.

Review data contention in transactions and how you use transactions.

Slow merge-join queries. read For example, queries with multiple equality filters (==) but not backed by composite indexes can result in slow merge-join queries. To improve performance, add composite indexes for these queries, see Reason #3 in Why is my Firestore query slow?
Large reads that return many documents. read Use pagination to split large reads.
Too many recent deletes. read
This greatly affects operations that list collections in a database.
If latency is caused by too many recent deletes, the issue should automatically resolve after some time. If the issue does not resolve, contact support.
Adding and removing listeners too quickly. realtime listener queries See the best practices for realtime updates.
Listening to large documents or to a query with many results. realtime listener queries See the best practices for realtime updates
Index fanout, especially for array fields and map fields. write Review your usage of array fields and map fields. For map fields, you can disable subfields from indexing. You can also use collection level exemptions.
Large writes and batched writes. write

Try reducing the number of writes in each batched write. Batched writes are atomic and many writes in a single batch can increase latency and contention. For example, a batch of 10 writes performs better than a batch of 500 writes.

For bulk data entry where you don't require atomicity, use a server client library with parallelized individual writes. Batched writes perform better than serialized writes but not better than parallel writes.