This document provides an overview of table clustering capabilities in BigQuery.
When you create a clustered table in BigQuery, the table data is automatically organized based on the contents of one or more columns in the table’s schema. The columns you specify are used to colocate related data. When you cluster a table using multiple columns, the order of columns you specify is important. The order of the specified columns determines the sort order of the data.
Clustering can improve the performance of certain types of queries such as queries that use filter clauses and queries that aggregate data. When data is written to a clustered table by a query job or a load job, BigQuery sorts the data using the values in the clustering columns. These values are used to organize the data into multiple blocks in BigQuery storage. When you submit a query that contains a clause that filters data based on the clustering columns, BigQuery uses the sorted blocks to eliminate scans of unnecessary data. You might not see a significant difference in query performance between a clustered and unclustered table if the table or partition is under 1 GB.
Similarly, when you submit a query that aggregates data based on the values in the clustering columns, performance is improved because the sorted blocks colocate rows with similar values.
When to use clustering
BigQuery supports clustering for both partitioned and non-partitioned tables.
Use clustering under the following circumstances:
- You don't need strict cost guarantees before running the query.
- You need more granularity than partitioning alone allows. To get clustering benefits in addition to partitioning benefits, you can use the same column for both partitioning and clustering.
- Your queries commonly use filters or aggregation against multiple particular columns.
Use partitioning under the following circumstances:
- You need strict cost guarantees before running the query.
- You need partition-level management. For example, you need to set a partition expiration time rather than a table expiration time.
- You want to specify how the data will be partitioned and what data is in each partition. For example, you want to define time granularity or define the ranges used to partition the table for integer range partitioning.
Prefer clustering over partitioning under the following circumstances:
- Partitioning results in a small amount of data per partition (approximately less than 1 GB).
- Partitioning results in a large number of partitions beyond the limits on partitioned tables.
- Partitioning results in your mutation operations modifying the majority of partitions in the table frequently (for example, every few minutes).
When you use clustering and partitioning together, the data can be partitioned by a date or timestamp column and then clustered on a different set of columns. In this case, data in each partition is clustered based on the values of the clustering columns. Partitioning provides a way to obtain accurate cost estimates for queries (based on the partitions that are scanned).
Clustering partitioned tables
In a partitioned table, data is stored in physical blocks, each of which holds one partition of data. A partitioned table maintains these properties across all operations that modify it: query jobs, data manipulation language (DML) statements, data definition language (DDL) statements, load jobs, and copy jobs. This requires BigQuery to maintain more metadata than a unpartitioned table. As the number of partitions increases, the amount of metadata overhead increases.
Although more metadata must be maintained, by ensuring that data is partitioned globally, BigQuery can more accurately estimate the bytes processed by a query before you run it. This cost calculation provides an upper bound on the final cost of the query.
In a clustered table, BigQuery automatically sorts the data based on the values in the clustering columns and organizes them in optimally sized storage blocks. You can achieve more finely grained sorting by creating a table that is clustered and partitioned. A clustered table maintains the sort properties in the context of each operation that modifies it. As a result, BigQuery might not be able to accurately estimate the bytes processed by the query or the query costs. When blocks of data are eliminated during a query, BigQuery provides a best effort reduction of the query costs.
As data is added to a clustered table, the newly inserted data can be written to blocks that contain key ranges that overlap with the key ranges in previously written blocks. These overlapping keys weaken the sort property of the table.
To maintain the performance characteristics of a clustered table, BigQuery performs automatic re-clustering in the background to restore the sort property of the table. For partitioned tables, clustering is maintained for data within the scope of each partition.
Clustered table quotas and limits
When you use the clustered table feature with a partitioned table, you are subject to the limits on partitioned tables.
Quotas and limits also apply to the different types of jobs you can run against clustered tables, including:
- Loading data (load jobs)
- Exporting data (export jobs)
- Querying data (query jobs)
- Copying tables (copy jobs)
For more information about all quotas and limits, see Quotas and limits.
Clustered table pricing
When you create and use clustered tables in BigQuery, your charges are based on how much data is stored in the tables and on the queries you run against the data:
- For information about storage pricing, see Storage pricing.
- For information about query pricing, see Query pricing.
Many clustered table operations don't incur charges, including loading data into clustered tables, copying tables and partitions, and exporting data. These operations are subject to BigQuery's Quotas and limits. For information about all free operations, see Free operations on the pricing page.
For a detailed clustered table pricing example, see the Pricing page.
- To learn how to create and use clustered tables, see Creating and using clustered tables.
- For information about querying clustered tables, see Querying clustered tables.
- For an overview of partitioned tables in BigQuery, see Introduction to partitioned tables.
- To learn how to create and use ingestion-time partitioned tables, see Creating and using ingestion-time partitioned tables.
- To learn how to create and use date/timestamp partitioned tables, see Creating and using date/timestamp partitioned tables.
- To learn how to create and use integer-range partitioned tables, see Creating and using integer-range partitioned tables.