diff --git a/choose-index.md b/choose-index.md index 19bf0f2f49d53..5770c1e58544c 100644 --- a/choose-index.md +++ b/choose-index.md @@ -73,7 +73,7 @@ mysql> SHOW WARNINGS; ### Skyline-pruning -Skyline-pruning is a heuristic filtering rule for indexes, which can reduce the probability of wrong index selection caused by wrong estimation. To judge an index, the following three dimensions are needed: +Skyline-pruning is a heuristic filtering rule for indexes, which can reduce the probability of wrong index selection caused by wrong estimation. To judge an index, the following dimensions are needed: - How many access conditions are covered by the indexed columns. An "access condition" is a where condition that can be converted to a column range. And the more access conditions an indexed column set covers, the better it is in this dimension. @@ -81,7 +81,9 @@ Skyline-pruning is a heuristic filtering rule for indexes, which can reduce the - Select whether the index satisfies a certain order. Because index reading can guarantee the order of certain column sets, indexes that satisfy the query order are superior to indexes that do not satisfy on this dimension. -For these three dimensions above, if the index `idx_a` performs no worse than the index `idx_b` in all three dimensions and performs better than `idx_b` in one dimension, then `idx_a` is preferred. When executing the `EXPLAIN FORMAT = 'verbose' ...` statement, if skyline-pruning excludes some indexes, TiDB outputs a NOTE-level warning listing the remaining indexes after the skyline-pruning exclusion. +- Whether the index is a [global index](/partitioned-table.md#global-indexes). In partitioned tables, global indexes can effectively reduce the number of cop tasks for a SQL compared to normal indexes, thus improving overall performance. + +For these preceding dimensions, if the index `idx_a` performs no worse than the index `idx_b` in all three dimensions and performs better than `idx_b` in one dimension, then `idx_a` is preferred. When executing the `EXPLAIN FORMAT = 'verbose' ...` statement, if skyline-pruning excludes some indexes, TiDB outputs a NOTE-level warning listing the remaining indexes after the skyline-pruning exclusion. In the following example, the indexes `idx_b` and `idx_e` are both inferior to `idx_b_c`, so they are excluded by skyline-pruning. The returned result of `SHOW WARNING` displays the remaining indexes after skyline-pruning. diff --git a/partitioned-table.md b/partitioned-table.md index 4e303518f5b23..9fea6fec90421 100644 --- a/partitioned-table.md +++ b/partitioned-table.md @@ -1690,11 +1690,7 @@ Before the introduction of global indexes, TiDB created a local index for each p To address these issues, TiDB introduces the global indexes feature in v8.3.0. A global index covers the data of the entire table with a single index, allowing primary keys and unique keys to maintain global uniqueness without including all partition keys. Moreover, global indexes can access data across multiple partitions in a single operation, significantly improving query performance for non-partitioned keys. -> **Warning:** -> -> The global indexes feature is experimental. It is not recommended that you use it in the production environment. This feature might be changed or removed without prior notice. If you find a bug, you can report an [issue](https://github.com/pingcap/tidb/issues) on GitHub. - -To create a global index for a primary key or unique key that **does not include all the columns used in the partition expressions**, add the `GLOBAL` keyword in the index definition. +To create a global index for a primary key or unique key that **does not include all the columns used in the partition expressions**, you can enable the [`tidb_enable_global_index`](/system-variables.md#tidb_enable_global_index-new-in-v760) system variable and add the `GLOBAL` keyword in the index definition. > **Note:** > @@ -1780,6 +1776,7 @@ ALTER TABLE t1 PARTITION BY HASH (col1) PARTITIONS 3 UPDATE INDEXES (uidx12 LOCA - The `GLOBAL` and `LOCAL` keywords only apply to partitioned tables and do not affect non-partitioned tables. In other words, there is no difference between a global index and a local index in non-partitioned tables. - DDL operations such as `ADD PARTITION`, `DROP PARTITION`, `TRUNCATE PARTITION`, `REORGANIZE PARTITION`, `SPLIT PARTITION`, and `EXCHANGE PARTITION` also trigger updates to global indexes. The results of these DDL operations will only be returned after the global indexes of the corresponding tables are fully updated. This can delay operations that usually require quick DDL completion, such as data archiving operations (`EXCHANGE PARTITION`, `TRUNCATE PARTITION`, and `DROP PARTITION`). In contrast, when global indexes are not involved, these DDL operations can be completed immediately. - By default, the primary key of a partitioned table is a clustered index and must include the partition key. If you require the primary key to exclude the partition key, you can explicitly specify the primary key as a non-clustered global index when creating the table, for example, `PRIMARY KEY(col1, col2) NONCLUSTERED GLOBAL`. +- If a global index is added to an expression column, or a global index is also a prefix index (for example `UNIQUE KEY idx_id_prefix (id(10)) GLOBAL`), you need to collect statistics manually for this global index. ### Partitioning limitations relating to functions