Returns memory objects that are currently allocated by SQL Server. You can use sys.dm_os_memory_objects to analyze memory use and to identify possible memory leaks.
|Column name||Data type||Description|
|memory_object_address||varbinary(8)||Address of the memory object. Is not nullable.|
|parent_address||varbinary(8)||Address of the parent memory object. Is nullable.|
|pages_allocated_count||int||Applies to: SQL Server 2008 through SQL Server 2008 R2.
Number of pages that are allocated by this object. Is not nullable.
|pages_in_bytes||bigint||Applies to: SQL Server 2012 (11.x) and later.
Amount of memory in bytes that is allocated by this instance of the memory object. Is not nullable.
|creation_options||int||Internal use only. Is nullable.|
|bytes_used||bigint||Internal use only. Is nullable.|
|type||nvarchar(60)||Type of memory object.
This indicates some component that this memory object belongs to, or the function of the memory object. Is nullable.
|name||varchar(128)||Internal use only. Nullable.|
|memory_node_id||smallint||ID of a memory node that is being used by this memory object. Is not nullable.|
|creation_time||datetime||Internal use only. Is nullable.|
|max_pages_allocated_count||int||Applies to: SQL Server 2008 through SQL Server 2008 R2.
Maximum number of pages allocated by this memory object. Is not nullable.
|page_size_in_bytes||int||Applies to: SQL Server 2012 (11.x) and later.
Size of pages in bytes allocated by this object. Is not nullable.
|max_pages_in_bytes||bigint||Maximum amount of memory ever used by this memory object. Is not nullable.|
|page_allocator_address||varbinary(8)||Memory address of page allocator. Is not nullable. For more information, see sys.dm_os_memory_clerks (Transact-SQL).|
|creation_stack_address||varbinary(8)||Internal use only. Is nullable.|
|sequence_num||int||Internal use only. Is nullable.|
|partition_type||int||The type of partition:
0 - Non-partitionable memory object
1 - Partitionable memory object, currently not partitioned
2 - Partitionable memory object, partitioned by NUMA node. In an environment with a single NUMA node this is equivalent to 1.
3 - Partitionable memory object, partitioned by CPU.
|contention_factor||real||A value specifying contention on this memory object, with 0 meaning no contention. The value is updated whenever a specified number of memory allocations were made reflecting contention during that period. Applies only to thread-safe memory objects.|
|waiting_tasks_count||bigint||Number of waits on this memory object. This counter is incremented whenever memory is allocated from this memory object. The increment is the number of tasks currently waiting for access to this memory object. Applies only to thread-safe memory objects. This is a best effort value without a correctness guarantee.|
|exclusive_access_count||bigint||Specifies how often this memory object was accessed exclusively. Applies only to thread-safe memory objects. This is a best effort value without a correctness guarantee.|
|pdw_node_id||int||Applies to: Azure Synapse Analytics (SQL Data Warehouse), Parallel Data Warehouse
The identifier for the node that this distribution is on.
partition_type, contention_factor, waiting_tasks_count, and exclusive_access_count are not yet implemented in SQL Database.
On SQL Server, requires
VIEW SERVER STATE permission.
On SQL Database Premium Tiers, requires the
VIEW DATABASE STATE permission in the database. On SQL Database Standard and Basic Tiers, requires the Server admin or an Azure Active Directory admin account.
Memory objects are heaps. They provide allocations that have a finer granularity than those provided by memory clerks. SQL Server components use memory objects instead of memory clerks. Memory objects use the page allocator interface of the memory clerk to allocate pages. Memory objects do not use virtual or shared memory interfaces. Depending on the allocation patterns, components can create different types of memory objects to allocate regions of arbitrary size.
The typical page size for a memory object is 8 KB. However, incremental memory objects can have page sizes that range from 512 bytes to 8 KB.
Page size is not a maximum allocation. Instead, page size is allocation granularity that is supported by a page allocator and that is implemented by a memory clerk. You can request allocations greater than 8 KB from memory objects.
The following example returns the amount of memory allocated by each memory object type.
SELECT SUM (pages_in_bytes) as 'Bytes Used', type FROM sys.dm_os_memory_objects GROUP BY type ORDER BY 'Bytes Used' DESC; GO