--- slug: /en/sql-reference/aggregate-functions/reference/uniqcombined64 sidebar_position: 206 --- # uniqCombined64 Calculates the approximate number of different argument values. It is the same as [uniqCombined](../../../sql-reference/aggregate-functions/reference/uniqcombined.md#agg_function-uniqcombined), but uses a 64-bit hash for all data types rather than just for the String data type. ``` sql uniqCombined64(HLL_precision)(x[, ...]) ``` **Parameters** - `HLL_precision`: The base-2 logarithm of the number of cells in [HyperLogLog](https://en.wikipedia.org/wiki/HyperLogLog). Optionally, you can use the function as `uniqCombined64(x[, ...])`. The default value for `HLL_precision` is 17, which is effectively 96 KiB of space (2^17 cells, 6 bits each). - `X`: A variable number of parameters. Parameters can be `Tuple`, `Array`, `Date`, `DateTime`, `String`, or numeric types. **Returned value** - A number [UInt64](../../../sql-reference/data-types/int-uint.md)-type number. **Implementation details** The `uniqCombined64` function: - Calculates a hash (64-bit hash for all data types) for all parameters in the aggregate, then uses it in calculations. - Uses a combination of three algorithms: array, hash table, and HyperLogLog with an error correction table. - For a small number of distinct elements, an array is used. - When the set size is larger, a hash table is used. - For a larger number of elements, HyperLogLog is used, which will occupy a fixed amount of memory. - Provides the result deterministically (it does not depend on the query processing order). :::note Since it uses 64-bit hash for all types, the result does not suffer from very high error for cardinalities significantly larger than `UINT_MAX` like [uniqCombined](../../../sql-reference/aggregate-functions/reference/uniqcombined.md) does, which uses a 32-bit hash for non-`String` types. ::: Compared to the [uniq](../../../sql-reference/aggregate-functions/reference/uniq.md#agg_function-uniq) function, the `uniqCombined64` function: - Consumes several times less memory. - Calculates with several times higher accuracy. **Example** In the example below `uniqCombined64` is run on `1e10` different numbers returning a very close approximation of the number of different argument values. Query: ```sql SELECT uniqCombined64(number) FROM numbers(1e10); ``` Result: ```response ┌─uniqCombined64(number)─┐ │ 9998568925 │ -- 10.00 billion └────────────────────────┘ ``` By comparison the `uniqCombined` function returns a rather poor approximation for an input this size. Query: ```sql SELECT uniqCombined(number) FROM numbers(1e10); ``` Result: ```response ┌─uniqCombined(number)─┐ │ 5545308725 │ -- 5.55 billion └──────────────────────┘ ``` **See Also** - [uniq](../../../sql-reference/aggregate-functions/reference/uniq.md#agg_function-uniq) - [uniqCombined](../../../sql-reference/aggregate-functions/reference/uniqcombined.md) - [uniqHLL12](../../../sql-reference/aggregate-functions/reference/uniqhll12.md#agg_function-uniqhll12) - [uniqExact](../../../sql-reference/aggregate-functions/reference/uniqexact.md#agg_function-uniqexact) - [uniqTheta](../../../sql-reference/aggregate-functions/reference/uniqthetasketch.md#agg_function-uniqthetasketch)