Resource Governor Resource Pool
Updated: March 17, 2016
Applies To: SQL Server 2016
In the SQL Server Resource Governor, a resource pool represents a subset of the physical resources of an instance of the Database Engine. Resource Governor enables you to specify limits on the amount of CPU, physical IO, and memory that incoming application requests can use within the resource pool. Each resource pool can contain one or more workload groups. When a session is started, the Resource Governor classifier assigns the session to a specific workload group, and the session must run using the resources assigned to the workload group.
A resource pool, or pool, represents the physical resources of the server. You can think of a pool as a virtual SQL Server instance inside of a SQL Server instance. A pool has two parts. One part does not overlap with other pools, which enables minimum resource reservation. The other part is shared with other pools, which supports maximum possible resource consumption. The pool resources are defined by specifying one or more of the following settings for each resource (CPU, memory, and physical IO):
MIN_CPU_PERCENT and MAX_CPU_PERCENT
These settings are the minimum and maximum guaranteed average CPU bandwidth for all requests in the resource pool when there is CPU contention. You can use these settings to establish predictable CPU resource usage for multiple workloads that is based on the needs of each workload. For example, assume the Sales and Marketing departments in a company share the same database. The Sales department has a CPU-intensive workload with high-priority queries. The Marketing department also has a CPU-intensive workload, but has lower-priority queries. By creating a separate resource pool for each department, you can assign a minimum CPU percentage of 70 for the Sales resource pool and a maximum CPU percentage of 30 for the Marketing resource pool. This ensures that the Sales workload receives the CPU resources it requires and the Marketing workload is isolated from the CPU demands of the Sales workload. Note that the maximum CPU percentage is an opportunistic maximum. If there is available CPU capacity, the workload uses it up to 100 percent. The maximum value only applies when there is contention for CPU resources. In this example, if the Sales workload is switched off, the Marketing workload can use 100 percent of the CPU if needed.
This settings is a hard cap limit on the CPU bandwidth for all requests in the resource pool. Workloads associated with the pool can use CPU capacity above the value of MAX_CPU_PERCENT if it is available, but not above the value of CAP_CPU_PERCENT. Using the example above, lets assume that the Marketing department is being charged for their resource usage. They want predictable billing and do not want to pay for more than 30 percent of the CPU. This can be accomplished by setting the CAP_CPU_PERCENT to 30 for the Marketing resource pool.
MIN_MEMORY_PERCENT and MAX_MEMORY_PERCENT
These settings are the minimum and maximum amount of memory reserved for the resource pool that can not be shared with other resource pools. The memory referenced here is query execution grant memory, not buffer pool memory (for example, data and index pages). Setting a minimum memory value for a pool means that you are ensuring that the percentage of memory specified will be available for any requests that might run in this resource pool. This is an important differentiator compared to MIN_CPU_PERCENT, because in this case memory may remain in the given resource pool even when the pool does not have any requests in the workload groups belonging to this pool. Therefore it is crucial that you be very careful when using this setting, because this memory will be unavailable for use by any other pool, even when there are no active requests. Setting a maximum memory value for a pool means that when requests are running in this pool, they will never get more than this percentage of overall memory.
This setting lets you affinitize a resource pool to one or more schedulers or NUMA nodes for greater isolation of CPU resources. Using the Sales and Marketing scenario above, lets assume that the Sales department needs a more isolated environment and wants 100 percent of a CPU core at all times. By using the AFFINITY option the Sales and Marketing workloads can be scheduled on different CPUs. Assuming the CAP_CPU_PERCENT on the Marketing pool is still in place, the Marketing workload continues to use a maximum of 30 percent of one core, while the Sales workload uses 100 percent of the other core. As far as the Sales and Marketing workloads are concerned, they are running on two isolated machines.
MIN_IOPS_PER_VOLUME and MAX_IOPS_PER_VOLUME
These settings are the minimum and maximum physical IO operations per second (IOPS) per disk volume for a resource pool. You can use these settings to control the physical IOs issued for user threads for a given resource pool. For example, the Sales department generates several end-of-month reports in large batches. The queries in these batches can generate IOs that can saturate the disk volume and impact the performance of other higher priority workloads in the database. To isolate this workload, the MIN_IOPS_PER_VOLUME is set to 20 and the MAX_IOPS_PER_VOLUME is set to 100 for the Sales department resource pool, which controls the level of IOs that can issued for the workload.
When configuring CPU or Memory, the sum of MIN values across all pools cannot exceed 100 percent of the server resources. In addition, when configuring CPU or Memory, MAX and CAP values can be set anywhere in the range between MIN and 100 percent inclusive.
If a pool has a nonzero MIN defined, the effective MAX value of other pools is readjusted. The minimum of the configured MAX value of a pool and the sum of the MIN values of other pools is subtracted from 100 percent.
The following table illustrates a few of the preceding concepts. The table shows the settings for the internal pool, the default pool, and two user-defined pools. The following formulas are used for calculating the effective MAX% and the shared %.
Min(X,Y) means the smaller value of X and Y.
Sum(X) means the sum of value X across all pools.
Total shared % = 100 - sum(MIN %).
Effective MAX % = min(X,Y).
Shared % = Effective MAX % - MIN %.
|Pool name||MIN % setting||MAX % setting||Calculated effective MAX %||Calculated shared %||Comment|
|internal||0||100||100||0||Effective MAX% and shared% are not applicable to the internal pool.|
|default||0||100||30||30||The effective MAX value is calculated as: min(100,100-(20+50)) = 30. The calculated shared % is effective MAX - MIN = 30.|
|Pool 1||20||100||50||30||The effective MAX value is calculated as: min(100,100-50) = 50. The calculated Shared % is Effective MAX - MIN = 30.|
|Pool 2||50||70||70||20||The effective MAX value is calculated as: min(70,100-20) = 70. The calculated Shared % is Effective MAX - MIN = 20.|
Using the preceding table as an example we can further illustrate the adjustments that take place when another pool is created. This pool is Pool 3 and has a MIN % setting of 5.
|Pool name||MIN % setting||MAX % setting||Calculated effective MAX %||Calculated shared %||Comment|
|internal||0||100||100||0||Effective MAX % and shared % are not applicable to the internal pool.|
|default||0||100||25||25||The effective MAX value is calculated as: min(100,100-(20+50+5)) = 25. The calculated shared % is Effective MAX - MIN = 25.|
|Pool 1||20||100||45||25||The effective MAX value is calculated as: min(100,100-55) = 45. The calculated Shared % is Effective MAX - MIN = 25.|
|Pool 2||50||70||70||20||The effective MAX value is calculated as: min(70,100-25) = 70. The calculated Shared % is effective MAX - MIN = 20.|
|Pool 3||5||100||30||25||The effective MAX value is calculated as: min(100,100-70) = 30. The calculated Shared % is effective MAX - MIN = 25.|
The shared part of the pool is used to indicate where available resources can go if resources are available. However, when resources are consumed they go to the specified pool and are not shared. This may improve resource utilization in cases where there are no requests in a given pool and the resources configured to the pool can be freed up for other pools.
Some extreme cases of pool configuration are:
All pools define minimums that in total represent 100 percent of the server resources. In this case the effective maximums are equal to minimums. This is equivalent to dividing the server resources into non-overlapping pieces regardless of resources are consumed inside any given pool.
All pools have zero minimums. All the pools compete for available resources and their final sizes are based on resource consumption in each pool. Other factors such as policies play a role in shaping the final pool size.
Resource Governor predefines two resource pools, the internal pool and the default pool. You can add additional pools.
The internal pool represents the resources consumed by the SQL Server itself. This pool always contains only the internal group, and the pool is not alterable in any way. Resource consumption by the internal pool is not restricted. Any workloads in the pool are considered critical for server function, and Resource Governor allows the internal pool to pressure other pools even if it means the violation of limits set for the other pools.
The default pool is the first predefined user pool. Prior to any configuration the default pool only contains the default group. The default pool cannot be created or dropped but it can be altered. The default pool can contain user-defined groups in addition to the default group. Beginning with SQL Server 2016 there is a default resource pool for routine SQL Server operations, and a default external resource pool for external processes, such as executing R scripts.
Users can define an external pool to define resources for the external processes. For R Services, this specifically governs
BxlServer.exe and other processes spawned by them.
User-Defined Resource Pools
User-defined resource pools are those that you create for specific workloads in your environment. Resource Governor provides DDL statements for creating, changing, and dropping resource pools.
|Describes how to create a resource pool.||Create a Resource Pool|
|Describes how to change resource pool settings.||Change Resource Pool Settings|
|Describes how to delete a resource pool.||Delete a Resource Pool|