MAXDOP Settings for SQL Server 2014












7















I know this question has been asked number of times and also has answers to it but, I still need a bit more guidance on this subject.



Below is the details of my CPU from SSMS:



CPU



Below is CPU tab from task manager of the DB Server:



CPU Tab



I have kept the setting of MAXDOP at 2 by following below formula:



declare @hyperthreadingRatio bit
declare @logicalCPUs int
declare @HTEnabled int
declare @physicalCPU int
declare @SOCKET int
declare @logicalCPUPerNuma int
declare @NoOfNUMA int
declare @MaxDOP int

select @logicalCPUs = cpu_count -- [Logical CPU Count]
,@hyperthreadingRatio = hyperthread_ratio -- [Hyperthread Ratio]
,@physicalCPU = cpu_count / hyperthread_ratio -- [Physical CPU Count]
,@HTEnabled = case
when cpu_count > hyperthread_ratio
then 1
else 0
end -- HTEnabled
from sys.dm_os_sys_info
option (recompile);

select @logicalCPUPerNuma = COUNT(parent_node_id) -- [NumberOfLogicalProcessorsPerNuma]
from sys.dm_os_schedulers
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64
group by parent_node_id
option (recompile);

select @NoOfNUMA = count(distinct parent_node_id)
from sys.dm_os_schedulers -- find NO OF NUMA Nodes
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64

IF @NoofNUMA > 1 AND @HTEnabled = 0
SET @MaxDOP= @logicalCPUPerNuma
ELSE IF @NoofNUMA > 1 AND @HTEnabled = 1
SET @MaxDOP=round( @NoofNUMA / @physicalCPU *1.0,0)
ELSE IF @HTEnabled = 0
SET @MaxDOP=@logicalCPUs
ELSE IF @HTEnabled = 1
SET @MaxDOP=@physicalCPU

IF @MaxDOP > 10
SET @MaxDOP=10
IF @MaxDOP = 0
SET @MaxDOP=1

PRINT 'logicalCPUs : ' + CONVERT(VARCHAR, @logicalCPUs)
PRINT 'hyperthreadingRatio : ' + CONVERT(VARCHAR, @hyperthreadingRatio)
PRINT 'physicalCPU : ' + CONVERT(VARCHAR, @physicalCPU)
PRINT 'HTEnabled : ' + CONVERT(VARCHAR, @HTEnabled)
PRINT 'logicalCPUPerNuma : ' + CONVERT(VARCHAR, @logicalCPUPerNuma)
PRINT 'NoOfNUMA : ' + CONVERT(VARCHAR, @NoOfNUMA)
PRINT '---------------------------'
Print 'MAXDOP setting should be : ' + CONVERT(VARCHAR, @MaxDOP)


I am still seeing high wait times related to CXPACKET. I am using below query to get that:



WITH [Waits] AS
(SELECT
[wait_type],
[wait_time_ms] / 1000.0 AS [WaitS],
([wait_time_ms] - [signal_wait_time_ms]) / 1000.0 AS [ResourceS],
[signal_wait_time_ms] / 1000.0 AS [SignalS],
[waiting_tasks_count] AS [WaitCount],
100.0 * [wait_time_ms] / SUM ([wait_time_ms]) OVER() AS [Percentage],
ROW_NUMBER() OVER(ORDER BY [wait_time_ms] DESC) AS [RowNum]
FROM sys.dm_os_wait_stats
WHERE [wait_type] NOT IN (
N'BROKER_EVENTHANDLER', N'BROKER_RECEIVE_WAITFOR',
N'BROKER_TASK_STOP', N'BROKER_TO_FLUSH',
N'BROKER_TRANSMITTER', N'CHECKPOINT_QUEUE',
N'CHKPT', N'CLR_AUTO_EVENT',
N'CLR_MANUAL_EVENT', N'CLR_SEMAPHORE',
N'DBMIRROR_DBM_EVENT', N'DBMIRROR_EVENTS_QUEUE',
N'DBMIRROR_WORKER_QUEUE', N'DBMIRRORING_CMD',
N'DIRTY_PAGE_POLL', N'DISPATCHER_QUEUE_SEMAPHORE',
N'EXECSYNC', N'FSAGENT',
N'FT_IFTS_SCHEDULER_IDLE_WAIT', N'FT_IFTSHC_MUTEX',
N'HADR_CLUSAPI_CALL', N'HADR_FILESTREAM_IOMGR_IOCOMPLETION',
N'HADR_LOGCAPTURE_WAIT', N'HADR_NOTIFICATION_DEQUEUE',
N'HADR_TIMER_TASK', N'HADR_WORK_QUEUE',
N'KSOURCE_WAKEUP', N'LAZYWRITER_SLEEP',
N'LOGMGR_QUEUE', N'ONDEMAND_TASK_QUEUE',
N'PWAIT_ALL_COMPONENTS_INITIALIZED',
N'QDS_PERSIST_TASK_MAIN_LOOP_SLEEP',
N'QDS_CLEANUP_STALE_QUERIES_TASK_MAIN_LOOP_SLEEP',
N'REQUEST_FOR_DEADLOCK_SEARCH', N'RESOURCE_QUEUE',
N'SERVER_IDLE_CHECK', N'SLEEP_BPOOL_FLUSH',
N'SLEEP_DBSTARTUP', N'SLEEP_DCOMSTARTUP',
N'SLEEP_MASTERDBREADY', N'SLEEP_MASTERMDREADY',
N'SLEEP_MASTERUPGRADED', N'SLEEP_MSDBSTARTUP',
N'SLEEP_SYSTEMTASK', N'SLEEP_TASK',
N'SLEEP_TEMPDBSTARTUP', N'SNI_HTTP_ACCEPT',
N'SP_SERVER_DIAGNOSTICS_SLEEP', N'SQLTRACE_BUFFER_FLUSH',
N'SQLTRACE_INCREMENTAL_FLUSH_SLEEP',
N'SQLTRACE_WAIT_ENTRIES', N'WAIT_FOR_RESULTS',
N'WAITFOR', N'WAITFOR_TASKSHUTDOWN',
N'WAIT_XTP_HOST_WAIT', N'WAIT_XTP_OFFLINE_CKPT_NEW_LOG',
N'WAIT_XTP_CKPT_CLOSE', N'XE_DISPATCHER_JOIN',
N'XE_DISPATCHER_WAIT', N'XE_TIMER_EVENT')
AND [waiting_tasks_count] > 0
)
SELECT
MAX ([W1].[wait_type]) AS [WaitType],
CAST (MAX ([W1].[WaitS]) AS DECIMAL (16,2)) AS [Wait_S],
CAST (MAX ([W1].[ResourceS]) AS DECIMAL (16,2)) AS [Resource_S],
CAST (MAX ([W1].[SignalS]) AS DECIMAL (16,2)) AS [Signal_S],
MAX ([W1].[WaitCount]) AS [WaitCount],
CAST (MAX ([W1].[Percentage]) AS DECIMAL (5,2)) AS [Percentage],
CAST ((MAX ([W1].[WaitS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgWait_S],
CAST ((MAX ([W1].[ResourceS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgRes_S],
CAST ((MAX ([W1].[SignalS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgSig_S]
FROM [Waits] AS [W1]
INNER JOIN [Waits] AS [W2]
ON [W2].[RowNum] <= [W1].[RowNum]
GROUP BY [W1].[RowNum]
HAVING SUM ([W2].[Percentage]) - MAX ([W1].[Percentage]) < 95; -- percentage threshold
GO


Currently CXPACKET wait stands at 63% for my server:



Wait Statistics



I referred to multiple articles on the recommendation from experts and also looked at MAXDOP suggestions by Microsoft; however, I am not really sure what should be the optimum value for this one.



I found one question on the same topic here however if I go with that suggestion by Kin then, MAXDOP should be 4. In the same question, if we go with Max Vernon, it should be 3.



Kindly provide your valuable suggestion.




Version: Microsoft SQL Server 2014 (SP3) (KB4022619) - 12.0.6024.0
(X64) Sep 7 2018 01:37:51 Enterprise Edition: Core-based Licensing
(64-bit) on Windows NT 6.3 (Build 9600: ) (Hypervisor)




Cost Threshold for Parallelism is set at 70. CTfP has been set to 70 after testing the same for values ranging from default to 25 and 50 respectively. When it was default(5) and MAXDOP was 0, wait time was close to 70% for CXPACKET.



I executed sp_blitzfirst for 60 seconds in the expert mode and below is the output for findings and wait stats:



sp_blitzfirst










share|improve this question

























  • I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

    – hot2use
    13 hours ago











  • @hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

    – Learning_DBAdmin
    11 hours ago
















7















I know this question has been asked number of times and also has answers to it but, I still need a bit more guidance on this subject.



Below is the details of my CPU from SSMS:



CPU



Below is CPU tab from task manager of the DB Server:



CPU Tab



I have kept the setting of MAXDOP at 2 by following below formula:



declare @hyperthreadingRatio bit
declare @logicalCPUs int
declare @HTEnabled int
declare @physicalCPU int
declare @SOCKET int
declare @logicalCPUPerNuma int
declare @NoOfNUMA int
declare @MaxDOP int

select @logicalCPUs = cpu_count -- [Logical CPU Count]
,@hyperthreadingRatio = hyperthread_ratio -- [Hyperthread Ratio]
,@physicalCPU = cpu_count / hyperthread_ratio -- [Physical CPU Count]
,@HTEnabled = case
when cpu_count > hyperthread_ratio
then 1
else 0
end -- HTEnabled
from sys.dm_os_sys_info
option (recompile);

select @logicalCPUPerNuma = COUNT(parent_node_id) -- [NumberOfLogicalProcessorsPerNuma]
from sys.dm_os_schedulers
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64
group by parent_node_id
option (recompile);

select @NoOfNUMA = count(distinct parent_node_id)
from sys.dm_os_schedulers -- find NO OF NUMA Nodes
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64

IF @NoofNUMA > 1 AND @HTEnabled = 0
SET @MaxDOP= @logicalCPUPerNuma
ELSE IF @NoofNUMA > 1 AND @HTEnabled = 1
SET @MaxDOP=round( @NoofNUMA / @physicalCPU *1.0,0)
ELSE IF @HTEnabled = 0
SET @MaxDOP=@logicalCPUs
ELSE IF @HTEnabled = 1
SET @MaxDOP=@physicalCPU

IF @MaxDOP > 10
SET @MaxDOP=10
IF @MaxDOP = 0
SET @MaxDOP=1

PRINT 'logicalCPUs : ' + CONVERT(VARCHAR, @logicalCPUs)
PRINT 'hyperthreadingRatio : ' + CONVERT(VARCHAR, @hyperthreadingRatio)
PRINT 'physicalCPU : ' + CONVERT(VARCHAR, @physicalCPU)
PRINT 'HTEnabled : ' + CONVERT(VARCHAR, @HTEnabled)
PRINT 'logicalCPUPerNuma : ' + CONVERT(VARCHAR, @logicalCPUPerNuma)
PRINT 'NoOfNUMA : ' + CONVERT(VARCHAR, @NoOfNUMA)
PRINT '---------------------------'
Print 'MAXDOP setting should be : ' + CONVERT(VARCHAR, @MaxDOP)


I am still seeing high wait times related to CXPACKET. I am using below query to get that:



WITH [Waits] AS
(SELECT
[wait_type],
[wait_time_ms] / 1000.0 AS [WaitS],
([wait_time_ms] - [signal_wait_time_ms]) / 1000.0 AS [ResourceS],
[signal_wait_time_ms] / 1000.0 AS [SignalS],
[waiting_tasks_count] AS [WaitCount],
100.0 * [wait_time_ms] / SUM ([wait_time_ms]) OVER() AS [Percentage],
ROW_NUMBER() OVER(ORDER BY [wait_time_ms] DESC) AS [RowNum]
FROM sys.dm_os_wait_stats
WHERE [wait_type] NOT IN (
N'BROKER_EVENTHANDLER', N'BROKER_RECEIVE_WAITFOR',
N'BROKER_TASK_STOP', N'BROKER_TO_FLUSH',
N'BROKER_TRANSMITTER', N'CHECKPOINT_QUEUE',
N'CHKPT', N'CLR_AUTO_EVENT',
N'CLR_MANUAL_EVENT', N'CLR_SEMAPHORE',
N'DBMIRROR_DBM_EVENT', N'DBMIRROR_EVENTS_QUEUE',
N'DBMIRROR_WORKER_QUEUE', N'DBMIRRORING_CMD',
N'DIRTY_PAGE_POLL', N'DISPATCHER_QUEUE_SEMAPHORE',
N'EXECSYNC', N'FSAGENT',
N'FT_IFTS_SCHEDULER_IDLE_WAIT', N'FT_IFTSHC_MUTEX',
N'HADR_CLUSAPI_CALL', N'HADR_FILESTREAM_IOMGR_IOCOMPLETION',
N'HADR_LOGCAPTURE_WAIT', N'HADR_NOTIFICATION_DEQUEUE',
N'HADR_TIMER_TASK', N'HADR_WORK_QUEUE',
N'KSOURCE_WAKEUP', N'LAZYWRITER_SLEEP',
N'LOGMGR_QUEUE', N'ONDEMAND_TASK_QUEUE',
N'PWAIT_ALL_COMPONENTS_INITIALIZED',
N'QDS_PERSIST_TASK_MAIN_LOOP_SLEEP',
N'QDS_CLEANUP_STALE_QUERIES_TASK_MAIN_LOOP_SLEEP',
N'REQUEST_FOR_DEADLOCK_SEARCH', N'RESOURCE_QUEUE',
N'SERVER_IDLE_CHECK', N'SLEEP_BPOOL_FLUSH',
N'SLEEP_DBSTARTUP', N'SLEEP_DCOMSTARTUP',
N'SLEEP_MASTERDBREADY', N'SLEEP_MASTERMDREADY',
N'SLEEP_MASTERUPGRADED', N'SLEEP_MSDBSTARTUP',
N'SLEEP_SYSTEMTASK', N'SLEEP_TASK',
N'SLEEP_TEMPDBSTARTUP', N'SNI_HTTP_ACCEPT',
N'SP_SERVER_DIAGNOSTICS_SLEEP', N'SQLTRACE_BUFFER_FLUSH',
N'SQLTRACE_INCREMENTAL_FLUSH_SLEEP',
N'SQLTRACE_WAIT_ENTRIES', N'WAIT_FOR_RESULTS',
N'WAITFOR', N'WAITFOR_TASKSHUTDOWN',
N'WAIT_XTP_HOST_WAIT', N'WAIT_XTP_OFFLINE_CKPT_NEW_LOG',
N'WAIT_XTP_CKPT_CLOSE', N'XE_DISPATCHER_JOIN',
N'XE_DISPATCHER_WAIT', N'XE_TIMER_EVENT')
AND [waiting_tasks_count] > 0
)
SELECT
MAX ([W1].[wait_type]) AS [WaitType],
CAST (MAX ([W1].[WaitS]) AS DECIMAL (16,2)) AS [Wait_S],
CAST (MAX ([W1].[ResourceS]) AS DECIMAL (16,2)) AS [Resource_S],
CAST (MAX ([W1].[SignalS]) AS DECIMAL (16,2)) AS [Signal_S],
MAX ([W1].[WaitCount]) AS [WaitCount],
CAST (MAX ([W1].[Percentage]) AS DECIMAL (5,2)) AS [Percentage],
CAST ((MAX ([W1].[WaitS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgWait_S],
CAST ((MAX ([W1].[ResourceS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgRes_S],
CAST ((MAX ([W1].[SignalS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgSig_S]
FROM [Waits] AS [W1]
INNER JOIN [Waits] AS [W2]
ON [W2].[RowNum] <= [W1].[RowNum]
GROUP BY [W1].[RowNum]
HAVING SUM ([W2].[Percentage]) - MAX ([W1].[Percentage]) < 95; -- percentage threshold
GO


Currently CXPACKET wait stands at 63% for my server:



Wait Statistics



I referred to multiple articles on the recommendation from experts and also looked at MAXDOP suggestions by Microsoft; however, I am not really sure what should be the optimum value for this one.



I found one question on the same topic here however if I go with that suggestion by Kin then, MAXDOP should be 4. In the same question, if we go with Max Vernon, it should be 3.



Kindly provide your valuable suggestion.




Version: Microsoft SQL Server 2014 (SP3) (KB4022619) - 12.0.6024.0
(X64) Sep 7 2018 01:37:51 Enterprise Edition: Core-based Licensing
(64-bit) on Windows NT 6.3 (Build 9600: ) (Hypervisor)




Cost Threshold for Parallelism is set at 70. CTfP has been set to 70 after testing the same for values ranging from default to 25 and 50 respectively. When it was default(5) and MAXDOP was 0, wait time was close to 70% for CXPACKET.



I executed sp_blitzfirst for 60 seconds in the expert mode and below is the output for findings and wait stats:



sp_blitzfirst










share|improve this question

























  • I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

    – hot2use
    13 hours ago











  • @hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

    – Learning_DBAdmin
    11 hours ago














7












7








7


3






I know this question has been asked number of times and also has answers to it but, I still need a bit more guidance on this subject.



Below is the details of my CPU from SSMS:



CPU



Below is CPU tab from task manager of the DB Server:



CPU Tab



I have kept the setting of MAXDOP at 2 by following below formula:



declare @hyperthreadingRatio bit
declare @logicalCPUs int
declare @HTEnabled int
declare @physicalCPU int
declare @SOCKET int
declare @logicalCPUPerNuma int
declare @NoOfNUMA int
declare @MaxDOP int

select @logicalCPUs = cpu_count -- [Logical CPU Count]
,@hyperthreadingRatio = hyperthread_ratio -- [Hyperthread Ratio]
,@physicalCPU = cpu_count / hyperthread_ratio -- [Physical CPU Count]
,@HTEnabled = case
when cpu_count > hyperthread_ratio
then 1
else 0
end -- HTEnabled
from sys.dm_os_sys_info
option (recompile);

select @logicalCPUPerNuma = COUNT(parent_node_id) -- [NumberOfLogicalProcessorsPerNuma]
from sys.dm_os_schedulers
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64
group by parent_node_id
option (recompile);

select @NoOfNUMA = count(distinct parent_node_id)
from sys.dm_os_schedulers -- find NO OF NUMA Nodes
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64

IF @NoofNUMA > 1 AND @HTEnabled = 0
SET @MaxDOP= @logicalCPUPerNuma
ELSE IF @NoofNUMA > 1 AND @HTEnabled = 1
SET @MaxDOP=round( @NoofNUMA / @physicalCPU *1.0,0)
ELSE IF @HTEnabled = 0
SET @MaxDOP=@logicalCPUs
ELSE IF @HTEnabled = 1
SET @MaxDOP=@physicalCPU

IF @MaxDOP > 10
SET @MaxDOP=10
IF @MaxDOP = 0
SET @MaxDOP=1

PRINT 'logicalCPUs : ' + CONVERT(VARCHAR, @logicalCPUs)
PRINT 'hyperthreadingRatio : ' + CONVERT(VARCHAR, @hyperthreadingRatio)
PRINT 'physicalCPU : ' + CONVERT(VARCHAR, @physicalCPU)
PRINT 'HTEnabled : ' + CONVERT(VARCHAR, @HTEnabled)
PRINT 'logicalCPUPerNuma : ' + CONVERT(VARCHAR, @logicalCPUPerNuma)
PRINT 'NoOfNUMA : ' + CONVERT(VARCHAR, @NoOfNUMA)
PRINT '---------------------------'
Print 'MAXDOP setting should be : ' + CONVERT(VARCHAR, @MaxDOP)


I am still seeing high wait times related to CXPACKET. I am using below query to get that:



WITH [Waits] AS
(SELECT
[wait_type],
[wait_time_ms] / 1000.0 AS [WaitS],
([wait_time_ms] - [signal_wait_time_ms]) / 1000.0 AS [ResourceS],
[signal_wait_time_ms] / 1000.0 AS [SignalS],
[waiting_tasks_count] AS [WaitCount],
100.0 * [wait_time_ms] / SUM ([wait_time_ms]) OVER() AS [Percentage],
ROW_NUMBER() OVER(ORDER BY [wait_time_ms] DESC) AS [RowNum]
FROM sys.dm_os_wait_stats
WHERE [wait_type] NOT IN (
N'BROKER_EVENTHANDLER', N'BROKER_RECEIVE_WAITFOR',
N'BROKER_TASK_STOP', N'BROKER_TO_FLUSH',
N'BROKER_TRANSMITTER', N'CHECKPOINT_QUEUE',
N'CHKPT', N'CLR_AUTO_EVENT',
N'CLR_MANUAL_EVENT', N'CLR_SEMAPHORE',
N'DBMIRROR_DBM_EVENT', N'DBMIRROR_EVENTS_QUEUE',
N'DBMIRROR_WORKER_QUEUE', N'DBMIRRORING_CMD',
N'DIRTY_PAGE_POLL', N'DISPATCHER_QUEUE_SEMAPHORE',
N'EXECSYNC', N'FSAGENT',
N'FT_IFTS_SCHEDULER_IDLE_WAIT', N'FT_IFTSHC_MUTEX',
N'HADR_CLUSAPI_CALL', N'HADR_FILESTREAM_IOMGR_IOCOMPLETION',
N'HADR_LOGCAPTURE_WAIT', N'HADR_NOTIFICATION_DEQUEUE',
N'HADR_TIMER_TASK', N'HADR_WORK_QUEUE',
N'KSOURCE_WAKEUP', N'LAZYWRITER_SLEEP',
N'LOGMGR_QUEUE', N'ONDEMAND_TASK_QUEUE',
N'PWAIT_ALL_COMPONENTS_INITIALIZED',
N'QDS_PERSIST_TASK_MAIN_LOOP_SLEEP',
N'QDS_CLEANUP_STALE_QUERIES_TASK_MAIN_LOOP_SLEEP',
N'REQUEST_FOR_DEADLOCK_SEARCH', N'RESOURCE_QUEUE',
N'SERVER_IDLE_CHECK', N'SLEEP_BPOOL_FLUSH',
N'SLEEP_DBSTARTUP', N'SLEEP_DCOMSTARTUP',
N'SLEEP_MASTERDBREADY', N'SLEEP_MASTERMDREADY',
N'SLEEP_MASTERUPGRADED', N'SLEEP_MSDBSTARTUP',
N'SLEEP_SYSTEMTASK', N'SLEEP_TASK',
N'SLEEP_TEMPDBSTARTUP', N'SNI_HTTP_ACCEPT',
N'SP_SERVER_DIAGNOSTICS_SLEEP', N'SQLTRACE_BUFFER_FLUSH',
N'SQLTRACE_INCREMENTAL_FLUSH_SLEEP',
N'SQLTRACE_WAIT_ENTRIES', N'WAIT_FOR_RESULTS',
N'WAITFOR', N'WAITFOR_TASKSHUTDOWN',
N'WAIT_XTP_HOST_WAIT', N'WAIT_XTP_OFFLINE_CKPT_NEW_LOG',
N'WAIT_XTP_CKPT_CLOSE', N'XE_DISPATCHER_JOIN',
N'XE_DISPATCHER_WAIT', N'XE_TIMER_EVENT')
AND [waiting_tasks_count] > 0
)
SELECT
MAX ([W1].[wait_type]) AS [WaitType],
CAST (MAX ([W1].[WaitS]) AS DECIMAL (16,2)) AS [Wait_S],
CAST (MAX ([W1].[ResourceS]) AS DECIMAL (16,2)) AS [Resource_S],
CAST (MAX ([W1].[SignalS]) AS DECIMAL (16,2)) AS [Signal_S],
MAX ([W1].[WaitCount]) AS [WaitCount],
CAST (MAX ([W1].[Percentage]) AS DECIMAL (5,2)) AS [Percentage],
CAST ((MAX ([W1].[WaitS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgWait_S],
CAST ((MAX ([W1].[ResourceS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgRes_S],
CAST ((MAX ([W1].[SignalS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgSig_S]
FROM [Waits] AS [W1]
INNER JOIN [Waits] AS [W2]
ON [W2].[RowNum] <= [W1].[RowNum]
GROUP BY [W1].[RowNum]
HAVING SUM ([W2].[Percentage]) - MAX ([W1].[Percentage]) < 95; -- percentage threshold
GO


Currently CXPACKET wait stands at 63% for my server:



Wait Statistics



I referred to multiple articles on the recommendation from experts and also looked at MAXDOP suggestions by Microsoft; however, I am not really sure what should be the optimum value for this one.



I found one question on the same topic here however if I go with that suggestion by Kin then, MAXDOP should be 4. In the same question, if we go with Max Vernon, it should be 3.



Kindly provide your valuable suggestion.




Version: Microsoft SQL Server 2014 (SP3) (KB4022619) - 12.0.6024.0
(X64) Sep 7 2018 01:37:51 Enterprise Edition: Core-based Licensing
(64-bit) on Windows NT 6.3 (Build 9600: ) (Hypervisor)




Cost Threshold for Parallelism is set at 70. CTfP has been set to 70 after testing the same for values ranging from default to 25 and 50 respectively. When it was default(5) and MAXDOP was 0, wait time was close to 70% for CXPACKET.



I executed sp_blitzfirst for 60 seconds in the expert mode and below is the output for findings and wait stats:



sp_blitzfirst










share|improve this question
















I know this question has been asked number of times and also has answers to it but, I still need a bit more guidance on this subject.



Below is the details of my CPU from SSMS:



CPU



Below is CPU tab from task manager of the DB Server:



CPU Tab



I have kept the setting of MAXDOP at 2 by following below formula:



declare @hyperthreadingRatio bit
declare @logicalCPUs int
declare @HTEnabled int
declare @physicalCPU int
declare @SOCKET int
declare @logicalCPUPerNuma int
declare @NoOfNUMA int
declare @MaxDOP int

select @logicalCPUs = cpu_count -- [Logical CPU Count]
,@hyperthreadingRatio = hyperthread_ratio -- [Hyperthread Ratio]
,@physicalCPU = cpu_count / hyperthread_ratio -- [Physical CPU Count]
,@HTEnabled = case
when cpu_count > hyperthread_ratio
then 1
else 0
end -- HTEnabled
from sys.dm_os_sys_info
option (recompile);

select @logicalCPUPerNuma = COUNT(parent_node_id) -- [NumberOfLogicalProcessorsPerNuma]
from sys.dm_os_schedulers
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64
group by parent_node_id
option (recompile);

select @NoOfNUMA = count(distinct parent_node_id)
from sys.dm_os_schedulers -- find NO OF NUMA Nodes
where [status] = 'VISIBLE ONLINE'
and parent_node_id < 64

IF @NoofNUMA > 1 AND @HTEnabled = 0
SET @MaxDOP= @logicalCPUPerNuma
ELSE IF @NoofNUMA > 1 AND @HTEnabled = 1
SET @MaxDOP=round( @NoofNUMA / @physicalCPU *1.0,0)
ELSE IF @HTEnabled = 0
SET @MaxDOP=@logicalCPUs
ELSE IF @HTEnabled = 1
SET @MaxDOP=@physicalCPU

IF @MaxDOP > 10
SET @MaxDOP=10
IF @MaxDOP = 0
SET @MaxDOP=1

PRINT 'logicalCPUs : ' + CONVERT(VARCHAR, @logicalCPUs)
PRINT 'hyperthreadingRatio : ' + CONVERT(VARCHAR, @hyperthreadingRatio)
PRINT 'physicalCPU : ' + CONVERT(VARCHAR, @physicalCPU)
PRINT 'HTEnabled : ' + CONVERT(VARCHAR, @HTEnabled)
PRINT 'logicalCPUPerNuma : ' + CONVERT(VARCHAR, @logicalCPUPerNuma)
PRINT 'NoOfNUMA : ' + CONVERT(VARCHAR, @NoOfNUMA)
PRINT '---------------------------'
Print 'MAXDOP setting should be : ' + CONVERT(VARCHAR, @MaxDOP)


I am still seeing high wait times related to CXPACKET. I am using below query to get that:



WITH [Waits] AS
(SELECT
[wait_type],
[wait_time_ms] / 1000.0 AS [WaitS],
([wait_time_ms] - [signal_wait_time_ms]) / 1000.0 AS [ResourceS],
[signal_wait_time_ms] / 1000.0 AS [SignalS],
[waiting_tasks_count] AS [WaitCount],
100.0 * [wait_time_ms] / SUM ([wait_time_ms]) OVER() AS [Percentage],
ROW_NUMBER() OVER(ORDER BY [wait_time_ms] DESC) AS [RowNum]
FROM sys.dm_os_wait_stats
WHERE [wait_type] NOT IN (
N'BROKER_EVENTHANDLER', N'BROKER_RECEIVE_WAITFOR',
N'BROKER_TASK_STOP', N'BROKER_TO_FLUSH',
N'BROKER_TRANSMITTER', N'CHECKPOINT_QUEUE',
N'CHKPT', N'CLR_AUTO_EVENT',
N'CLR_MANUAL_EVENT', N'CLR_SEMAPHORE',
N'DBMIRROR_DBM_EVENT', N'DBMIRROR_EVENTS_QUEUE',
N'DBMIRROR_WORKER_QUEUE', N'DBMIRRORING_CMD',
N'DIRTY_PAGE_POLL', N'DISPATCHER_QUEUE_SEMAPHORE',
N'EXECSYNC', N'FSAGENT',
N'FT_IFTS_SCHEDULER_IDLE_WAIT', N'FT_IFTSHC_MUTEX',
N'HADR_CLUSAPI_CALL', N'HADR_FILESTREAM_IOMGR_IOCOMPLETION',
N'HADR_LOGCAPTURE_WAIT', N'HADR_NOTIFICATION_DEQUEUE',
N'HADR_TIMER_TASK', N'HADR_WORK_QUEUE',
N'KSOURCE_WAKEUP', N'LAZYWRITER_SLEEP',
N'LOGMGR_QUEUE', N'ONDEMAND_TASK_QUEUE',
N'PWAIT_ALL_COMPONENTS_INITIALIZED',
N'QDS_PERSIST_TASK_MAIN_LOOP_SLEEP',
N'QDS_CLEANUP_STALE_QUERIES_TASK_MAIN_LOOP_SLEEP',
N'REQUEST_FOR_DEADLOCK_SEARCH', N'RESOURCE_QUEUE',
N'SERVER_IDLE_CHECK', N'SLEEP_BPOOL_FLUSH',
N'SLEEP_DBSTARTUP', N'SLEEP_DCOMSTARTUP',
N'SLEEP_MASTERDBREADY', N'SLEEP_MASTERMDREADY',
N'SLEEP_MASTERUPGRADED', N'SLEEP_MSDBSTARTUP',
N'SLEEP_SYSTEMTASK', N'SLEEP_TASK',
N'SLEEP_TEMPDBSTARTUP', N'SNI_HTTP_ACCEPT',
N'SP_SERVER_DIAGNOSTICS_SLEEP', N'SQLTRACE_BUFFER_FLUSH',
N'SQLTRACE_INCREMENTAL_FLUSH_SLEEP',
N'SQLTRACE_WAIT_ENTRIES', N'WAIT_FOR_RESULTS',
N'WAITFOR', N'WAITFOR_TASKSHUTDOWN',
N'WAIT_XTP_HOST_WAIT', N'WAIT_XTP_OFFLINE_CKPT_NEW_LOG',
N'WAIT_XTP_CKPT_CLOSE', N'XE_DISPATCHER_JOIN',
N'XE_DISPATCHER_WAIT', N'XE_TIMER_EVENT')
AND [waiting_tasks_count] > 0
)
SELECT
MAX ([W1].[wait_type]) AS [WaitType],
CAST (MAX ([W1].[WaitS]) AS DECIMAL (16,2)) AS [Wait_S],
CAST (MAX ([W1].[ResourceS]) AS DECIMAL (16,2)) AS [Resource_S],
CAST (MAX ([W1].[SignalS]) AS DECIMAL (16,2)) AS [Signal_S],
MAX ([W1].[WaitCount]) AS [WaitCount],
CAST (MAX ([W1].[Percentage]) AS DECIMAL (5,2)) AS [Percentage],
CAST ((MAX ([W1].[WaitS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgWait_S],
CAST ((MAX ([W1].[ResourceS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgRes_S],
CAST ((MAX ([W1].[SignalS]) / MAX ([W1].[WaitCount])) AS DECIMAL (16,4)) AS [AvgSig_S]
FROM [Waits] AS [W1]
INNER JOIN [Waits] AS [W2]
ON [W2].[RowNum] <= [W1].[RowNum]
GROUP BY [W1].[RowNum]
HAVING SUM ([W2].[Percentage]) - MAX ([W1].[Percentage]) < 95; -- percentage threshold
GO


Currently CXPACKET wait stands at 63% for my server:



Wait Statistics



I referred to multiple articles on the recommendation from experts and also looked at MAXDOP suggestions by Microsoft; however, I am not really sure what should be the optimum value for this one.



I found one question on the same topic here however if I go with that suggestion by Kin then, MAXDOP should be 4. In the same question, if we go with Max Vernon, it should be 3.



Kindly provide your valuable suggestion.




Version: Microsoft SQL Server 2014 (SP3) (KB4022619) - 12.0.6024.0
(X64) Sep 7 2018 01:37:51 Enterprise Edition: Core-based Licensing
(64-bit) on Windows NT 6.3 (Build 9600: ) (Hypervisor)




Cost Threshold for Parallelism is set at 70. CTfP has been set to 70 after testing the same for values ranging from default to 25 and 50 respectively. When it was default(5) and MAXDOP was 0, wait time was close to 70% for CXPACKET.



I executed sp_blitzfirst for 60 seconds in the expert mode and below is the output for findings and wait stats:



sp_blitzfirst







sql-server sql-server-2014 configuration maxdop






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 14 hours ago









Paul White

53.6k14286458




53.6k14286458










asked yesterday









Learning_DBAdminLearning_DBAdmin

378114




378114













  • I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

    – hot2use
    13 hours ago











  • @hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

    – Learning_DBAdmin
    11 hours ago



















  • I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

    – hot2use
    13 hours ago











  • @hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

    – Learning_DBAdmin
    11 hours ago

















I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

– hot2use
13 hours ago





I agree with @JaredKarney 's comment in his answer: What are you trying to fix/solve? Are you encountering bad performance? Why do you believe that a high CXPACKET wait is bad? Could you please elaborate on why your situation is different than all the other questions and answers regarding this issue?

– hot2use
13 hours ago













@hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

– Learning_DBAdmin
11 hours ago





@hot2use Yes, I am having performance issue and trying to see all possible aspects which could deteriorate performance. I am not expert on CXPACKET wait stats and hence wanted to have some guidance from experts.

– Learning_DBAdmin
11 hours ago










3 Answers
3






active

oldest

votes


















12














Bogus



Here's why that wait stats report stinks: It doesn't tell you how long the server has been up.



I can see it in your screenshot of CPU time: 55 days!



Alright, so let's do some math.



Math



There are 86,400 seconds in day.



SELECT (86400 * 55) seconds_in_55_days


The answer there? 4,752,000



You have a total of 452,488 seconds of CXPACKET.



SELECT 4752000 / 452488 AS oh_yeah_that_axis


Which gives you... 10 (it's closer to 9.5 if you do actual math, here).



So while CXPACKET might be 62% of your server's waits, it's only happening about 10% of the time.



Leave It Alone



You've made the right adjustments to settings, it's time to do actual query and index tuning if you want to change the numbers in a meaningful way.



Other considerations



CXPACKET may arise from skewed parallelism:





  • More on CXPACKET Waits: Skewed Parallelism


On newer versions, it may surface as CXCONSUMER:




  • CXCONSUMER Is Harmless? Not So Fast, Tiger.


Absent a third party monitoring tool, it may be worth capturing wait stats on your own:




  • Capturing wait statistics for a period of time

  • How to Capture Baselines with sp_BlitzFirst






share|improve this answer

































    10














    Wait stats are just numbers. If your server is doing anything at all then you'll likely to have some kind of waits appear. Also, by definition there must be one wait which will have the highest percent. That doesn't mean anything without some kind of normalization. Your server has been up for 55 days if I'm reading the output of task manager correctly. That means that you only have 452000/(55*86400) = 0.095 wait seconds of CXPACKET per second overall. In addition, since you're on SQL Server 2014 your CXPACKET waits include both benign parallel waits and actionable waits. See Making parallelism waits actionable for more details. I would not jump to a conclusion that MAXDOP is set incorrectly based on what you have presented here.



    I would first measure throughput. Is there actually a problem here? We can't tell you how to do that because it depends on your workload. For an OLTP system you might measure transactions per second. For an ETL, you might measure rows loaded per second, and so on.



    If you do have a problem and system performance needs to be improved I would then check CPU during times when you experience that problem. If CPU is too high then you probably need to tune your queries, increase server resources, or reduce the total number of active queries. If CPU is too low then you may again need to tune your queries, increase the total number of active queries, or there might be some wait type that's responsible.



    If you do elect to look at wait stats, you should look at them only during the period in which you're experiencing a performance problem. Looking at global wait stats over the past 55 days simply is not actionable in almost all cases. It adds unnecessary noise to the data that makes your job harder.



    Once you've completed a proper investigation it is possible that changing MAXDOP will help you. For a server of your size I would stick to MAXDOP 1, 2, 4, or 8. We cannot tell you which of those will be best for your workload. You need to monitor your throughput before and after changing MAXDOP to make a conclusion.






    share|improve this answer

































      0















      1. Your 'starting' maxdop should be 4; smallest number of cores per numa node up to 8. Your formula is incorrect.


      2. High percentage of waits for a particular type means nothing. Everything in SQL waits, so something is always the highest. The ONLY thing high cxpacket waits means is that you have a high percentage of parallelism going on. CPU doesn't look high overall (at least for the snapshot provided), so probably not a problem.


      3. Before ever trying to solve a problem, define the problem. What problem are you trying to solve? In this case, it seems you've defined the problem as high percentage of cxpacket waits, but that in and of itself is not a problem.







      share|improve this answer
























      • Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

        – Max Vernon
        13 hours ago











      Your Answer








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      3 Answers
      3






      active

      oldest

      votes








      3 Answers
      3






      active

      oldest

      votes









      active

      oldest

      votes






      active

      oldest

      votes









      12














      Bogus



      Here's why that wait stats report stinks: It doesn't tell you how long the server has been up.



      I can see it in your screenshot of CPU time: 55 days!



      Alright, so let's do some math.



      Math



      There are 86,400 seconds in day.



      SELECT (86400 * 55) seconds_in_55_days


      The answer there? 4,752,000



      You have a total of 452,488 seconds of CXPACKET.



      SELECT 4752000 / 452488 AS oh_yeah_that_axis


      Which gives you... 10 (it's closer to 9.5 if you do actual math, here).



      So while CXPACKET might be 62% of your server's waits, it's only happening about 10% of the time.



      Leave It Alone



      You've made the right adjustments to settings, it's time to do actual query and index tuning if you want to change the numbers in a meaningful way.



      Other considerations



      CXPACKET may arise from skewed parallelism:





      • More on CXPACKET Waits: Skewed Parallelism


      On newer versions, it may surface as CXCONSUMER:




      • CXCONSUMER Is Harmless? Not So Fast, Tiger.


      Absent a third party monitoring tool, it may be worth capturing wait stats on your own:




      • Capturing wait statistics for a period of time

      • How to Capture Baselines with sp_BlitzFirst






      share|improve this answer






























        12














        Bogus



        Here's why that wait stats report stinks: It doesn't tell you how long the server has been up.



        I can see it in your screenshot of CPU time: 55 days!



        Alright, so let's do some math.



        Math



        There are 86,400 seconds in day.



        SELECT (86400 * 55) seconds_in_55_days


        The answer there? 4,752,000



        You have a total of 452,488 seconds of CXPACKET.



        SELECT 4752000 / 452488 AS oh_yeah_that_axis


        Which gives you... 10 (it's closer to 9.5 if you do actual math, here).



        So while CXPACKET might be 62% of your server's waits, it's only happening about 10% of the time.



        Leave It Alone



        You've made the right adjustments to settings, it's time to do actual query and index tuning if you want to change the numbers in a meaningful way.



        Other considerations



        CXPACKET may arise from skewed parallelism:





        • More on CXPACKET Waits: Skewed Parallelism


        On newer versions, it may surface as CXCONSUMER:




        • CXCONSUMER Is Harmless? Not So Fast, Tiger.


        Absent a third party monitoring tool, it may be worth capturing wait stats on your own:




        • Capturing wait statistics for a period of time

        • How to Capture Baselines with sp_BlitzFirst






        share|improve this answer




























          12












          12








          12







          Bogus



          Here's why that wait stats report stinks: It doesn't tell you how long the server has been up.



          I can see it in your screenshot of CPU time: 55 days!



          Alright, so let's do some math.



          Math



          There are 86,400 seconds in day.



          SELECT (86400 * 55) seconds_in_55_days


          The answer there? 4,752,000



          You have a total of 452,488 seconds of CXPACKET.



          SELECT 4752000 / 452488 AS oh_yeah_that_axis


          Which gives you... 10 (it's closer to 9.5 if you do actual math, here).



          So while CXPACKET might be 62% of your server's waits, it's only happening about 10% of the time.



          Leave It Alone



          You've made the right adjustments to settings, it's time to do actual query and index tuning if you want to change the numbers in a meaningful way.



          Other considerations



          CXPACKET may arise from skewed parallelism:





          • More on CXPACKET Waits: Skewed Parallelism


          On newer versions, it may surface as CXCONSUMER:




          • CXCONSUMER Is Harmless? Not So Fast, Tiger.


          Absent a third party monitoring tool, it may be worth capturing wait stats on your own:




          • Capturing wait statistics for a period of time

          • How to Capture Baselines with sp_BlitzFirst






          share|improve this answer















          Bogus



          Here's why that wait stats report stinks: It doesn't tell you how long the server has been up.



          I can see it in your screenshot of CPU time: 55 days!



          Alright, so let's do some math.



          Math



          There are 86,400 seconds in day.



          SELECT (86400 * 55) seconds_in_55_days


          The answer there? 4,752,000



          You have a total of 452,488 seconds of CXPACKET.



          SELECT 4752000 / 452488 AS oh_yeah_that_axis


          Which gives you... 10 (it's closer to 9.5 if you do actual math, here).



          So while CXPACKET might be 62% of your server's waits, it's only happening about 10% of the time.



          Leave It Alone



          You've made the right adjustments to settings, it's time to do actual query and index tuning if you want to change the numbers in a meaningful way.



          Other considerations



          CXPACKET may arise from skewed parallelism:





          • More on CXPACKET Waits: Skewed Parallelism


          On newer versions, it may surface as CXCONSUMER:




          • CXCONSUMER Is Harmless? Not So Fast, Tiger.


          Absent a third party monitoring tool, it may be worth capturing wait stats on your own:




          • Capturing wait statistics for a period of time

          • How to Capture Baselines with sp_BlitzFirst







          share|improve this answer














          share|improve this answer



          share|improve this answer








          edited yesterday

























          answered yesterday









          Erik DarlingErik Darling

          21.8k1268109




          21.8k1268109

























              10














              Wait stats are just numbers. If your server is doing anything at all then you'll likely to have some kind of waits appear. Also, by definition there must be one wait which will have the highest percent. That doesn't mean anything without some kind of normalization. Your server has been up for 55 days if I'm reading the output of task manager correctly. That means that you only have 452000/(55*86400) = 0.095 wait seconds of CXPACKET per second overall. In addition, since you're on SQL Server 2014 your CXPACKET waits include both benign parallel waits and actionable waits. See Making parallelism waits actionable for more details. I would not jump to a conclusion that MAXDOP is set incorrectly based on what you have presented here.



              I would first measure throughput. Is there actually a problem here? We can't tell you how to do that because it depends on your workload. For an OLTP system you might measure transactions per second. For an ETL, you might measure rows loaded per second, and so on.



              If you do have a problem and system performance needs to be improved I would then check CPU during times when you experience that problem. If CPU is too high then you probably need to tune your queries, increase server resources, or reduce the total number of active queries. If CPU is too low then you may again need to tune your queries, increase the total number of active queries, or there might be some wait type that's responsible.



              If you do elect to look at wait stats, you should look at them only during the period in which you're experiencing a performance problem. Looking at global wait stats over the past 55 days simply is not actionable in almost all cases. It adds unnecessary noise to the data that makes your job harder.



              Once you've completed a proper investigation it is possible that changing MAXDOP will help you. For a server of your size I would stick to MAXDOP 1, 2, 4, or 8. We cannot tell you which of those will be best for your workload. You need to monitor your throughput before and after changing MAXDOP to make a conclusion.






              share|improve this answer






























                10














                Wait stats are just numbers. If your server is doing anything at all then you'll likely to have some kind of waits appear. Also, by definition there must be one wait which will have the highest percent. That doesn't mean anything without some kind of normalization. Your server has been up for 55 days if I'm reading the output of task manager correctly. That means that you only have 452000/(55*86400) = 0.095 wait seconds of CXPACKET per second overall. In addition, since you're on SQL Server 2014 your CXPACKET waits include both benign parallel waits and actionable waits. See Making parallelism waits actionable for more details. I would not jump to a conclusion that MAXDOP is set incorrectly based on what you have presented here.



                I would first measure throughput. Is there actually a problem here? We can't tell you how to do that because it depends on your workload. For an OLTP system you might measure transactions per second. For an ETL, you might measure rows loaded per second, and so on.



                If you do have a problem and system performance needs to be improved I would then check CPU during times when you experience that problem. If CPU is too high then you probably need to tune your queries, increase server resources, or reduce the total number of active queries. If CPU is too low then you may again need to tune your queries, increase the total number of active queries, or there might be some wait type that's responsible.



                If you do elect to look at wait stats, you should look at them only during the period in which you're experiencing a performance problem. Looking at global wait stats over the past 55 days simply is not actionable in almost all cases. It adds unnecessary noise to the data that makes your job harder.



                Once you've completed a proper investigation it is possible that changing MAXDOP will help you. For a server of your size I would stick to MAXDOP 1, 2, 4, or 8. We cannot tell you which of those will be best for your workload. You need to monitor your throughput before and after changing MAXDOP to make a conclusion.






                share|improve this answer




























                  10












                  10








                  10







                  Wait stats are just numbers. If your server is doing anything at all then you'll likely to have some kind of waits appear. Also, by definition there must be one wait which will have the highest percent. That doesn't mean anything without some kind of normalization. Your server has been up for 55 days if I'm reading the output of task manager correctly. That means that you only have 452000/(55*86400) = 0.095 wait seconds of CXPACKET per second overall. In addition, since you're on SQL Server 2014 your CXPACKET waits include both benign parallel waits and actionable waits. See Making parallelism waits actionable for more details. I would not jump to a conclusion that MAXDOP is set incorrectly based on what you have presented here.



                  I would first measure throughput. Is there actually a problem here? We can't tell you how to do that because it depends on your workload. For an OLTP system you might measure transactions per second. For an ETL, you might measure rows loaded per second, and so on.



                  If you do have a problem and system performance needs to be improved I would then check CPU during times when you experience that problem. If CPU is too high then you probably need to tune your queries, increase server resources, or reduce the total number of active queries. If CPU is too low then you may again need to tune your queries, increase the total number of active queries, or there might be some wait type that's responsible.



                  If you do elect to look at wait stats, you should look at them only during the period in which you're experiencing a performance problem. Looking at global wait stats over the past 55 days simply is not actionable in almost all cases. It adds unnecessary noise to the data that makes your job harder.



                  Once you've completed a proper investigation it is possible that changing MAXDOP will help you. For a server of your size I would stick to MAXDOP 1, 2, 4, or 8. We cannot tell you which of those will be best for your workload. You need to monitor your throughput before and after changing MAXDOP to make a conclusion.






                  share|improve this answer















                  Wait stats are just numbers. If your server is doing anything at all then you'll likely to have some kind of waits appear. Also, by definition there must be one wait which will have the highest percent. That doesn't mean anything without some kind of normalization. Your server has been up for 55 days if I'm reading the output of task manager correctly. That means that you only have 452000/(55*86400) = 0.095 wait seconds of CXPACKET per second overall. In addition, since you're on SQL Server 2014 your CXPACKET waits include both benign parallel waits and actionable waits. See Making parallelism waits actionable for more details. I would not jump to a conclusion that MAXDOP is set incorrectly based on what you have presented here.



                  I would first measure throughput. Is there actually a problem here? We can't tell you how to do that because it depends on your workload. For an OLTP system you might measure transactions per second. For an ETL, you might measure rows loaded per second, and so on.



                  If you do have a problem and system performance needs to be improved I would then check CPU during times when you experience that problem. If CPU is too high then you probably need to tune your queries, increase server resources, or reduce the total number of active queries. If CPU is too low then you may again need to tune your queries, increase the total number of active queries, or there might be some wait type that's responsible.



                  If you do elect to look at wait stats, you should look at them only during the period in which you're experiencing a performance problem. Looking at global wait stats over the past 55 days simply is not actionable in almost all cases. It adds unnecessary noise to the data that makes your job harder.



                  Once you've completed a proper investigation it is possible that changing MAXDOP will help you. For a server of your size I would stick to MAXDOP 1, 2, 4, or 8. We cannot tell you which of those will be best for your workload. You need to monitor your throughput before and after changing MAXDOP to make a conclusion.







                  share|improve this answer














                  share|improve this answer



                  share|improve this answer








                  edited yesterday









                  Learning_DBAdmin

                  378114




                  378114










                  answered yesterday









                  Joe ObbishJoe Obbish

                  21.5k43189




                  21.5k43189























                      0















                      1. Your 'starting' maxdop should be 4; smallest number of cores per numa node up to 8. Your formula is incorrect.


                      2. High percentage of waits for a particular type means nothing. Everything in SQL waits, so something is always the highest. The ONLY thing high cxpacket waits means is that you have a high percentage of parallelism going on. CPU doesn't look high overall (at least for the snapshot provided), so probably not a problem.


                      3. Before ever trying to solve a problem, define the problem. What problem are you trying to solve? In this case, it seems you've defined the problem as high percentage of cxpacket waits, but that in and of itself is not a problem.







                      share|improve this answer
























                      • Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                        – Max Vernon
                        13 hours ago
















                      0















                      1. Your 'starting' maxdop should be 4; smallest number of cores per numa node up to 8. Your formula is incorrect.


                      2. High percentage of waits for a particular type means nothing. Everything in SQL waits, so something is always the highest. The ONLY thing high cxpacket waits means is that you have a high percentage of parallelism going on. CPU doesn't look high overall (at least for the snapshot provided), so probably not a problem.


                      3. Before ever trying to solve a problem, define the problem. What problem are you trying to solve? In this case, it seems you've defined the problem as high percentage of cxpacket waits, but that in and of itself is not a problem.







                      share|improve this answer
























                      • Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                        – Max Vernon
                        13 hours ago














                      0












                      0








                      0








                      1. Your 'starting' maxdop should be 4; smallest number of cores per numa node up to 8. Your formula is incorrect.


                      2. High percentage of waits for a particular type means nothing. Everything in SQL waits, so something is always the highest. The ONLY thing high cxpacket waits means is that you have a high percentage of parallelism going on. CPU doesn't look high overall (at least for the snapshot provided), so probably not a problem.


                      3. Before ever trying to solve a problem, define the problem. What problem are you trying to solve? In this case, it seems you've defined the problem as high percentage of cxpacket waits, but that in and of itself is not a problem.







                      share|improve this answer














                      1. Your 'starting' maxdop should be 4; smallest number of cores per numa node up to 8. Your formula is incorrect.


                      2. High percentage of waits for a particular type means nothing. Everything in SQL waits, so something is always the highest. The ONLY thing high cxpacket waits means is that you have a high percentage of parallelism going on. CPU doesn't look high overall (at least for the snapshot provided), so probably not a problem.


                      3. Before ever trying to solve a problem, define the problem. What problem are you trying to solve? In this case, it seems you've defined the problem as high percentage of cxpacket waits, but that in and of itself is not a problem.








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                      answered 17 hours ago









                      Jared KarneyJared Karney

                      952




                      952













                      • Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                        – Max Vernon
                        13 hours ago



















                      • Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                        – Max Vernon
                        13 hours ago

















                      Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                      – Max Vernon
                      13 hours ago





                      Virtual NUMA could easily have 2 cores per numa node. Why do you claim 4 is the smallest number of cores per numa node? Can you explain what you mean?

                      – Max Vernon
                      13 hours ago


















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