Tuning search for maximum indexing throughput
To tune DataStax Enterprise (DSE) Search for maximum indexing throughput, follow the recommendations in this topic. Also see the related topics in DSE Search performance tuning and monitoring. If search throughput improves in your development environment, consider using the recommendations in production.
It is critical that you locate DSE Cassandra transactional data and Solr-based DSE Search data on separate Solid State Drives (SSDs). Failure to do so will very likely result in sub-optimal search indexing performance.
For the steps to accomplish this task, refer to Set the location of search indexes.
In addition, plan for sufficient memory resources and disk space to meet operational requirements. Refer to Capacity planning for DSE Search.
Before you tune anything, determine how many physical CPUs you have. The JVM does not know whether CPUs are using hyper-threading.
DSE Search can be very IO intensive.
Performance is impacted by the Thread Per Core (TPC) asynchronous read and write paths architecture.
In your development environment, check the
iowait system metric by using the iostat command during peak load.
For example, on Linux:
iostat -x -c -d -t 1 600
IOwait is a measure of time over a given period that a CPU (or all CPUs) spent idle because all runnable tasks were waiting for an IO operation to complete.
While each environment is unique, a general guidelines is to check whether
iowait is above 5% more than 5% of the time.
If that scenario occurs, try upgrading to faster SSD devices or tune the machine to use less IO, and test again.
Again, it’s important to locate the search data on dedicated SSDs, separate from the transactional data.
In prior DSE 6.x releases, DataStax recommended disabling AIO and setting
file_cache_size_in_mb to 512 for search workloads, to improve indexing and query performance.
Starting with DSE 6.8.0, DataStax recommends enabling AIO and using the default file cache size, which is calculated as 50% of
Test the performance in your development environment.
If the settings result in improved performance, consider making the changes in production.
The changed recommendation is based on DataStax performance testing results and is specific to DSE 6.8.0 and later releases. DSE enhancements were made so that the buffer pool no longer over-allocates memory.
By default, AIO is enabled.
However if you previously disabled AIO in your DSE 6.7.x or 6.0.x configuration, pass
-Ddse.io.aio.enabled=true to DSE at startup.
If you decide instead to disable AIO, DataStax recommends a cache size of at least 2GB, of which 512 MB should be reserved for in-flight reads.
file_cache_size_in_mb: 2048 inflight_data_overhead_in_mb: 512
With those properties, the size of the buffer pool will be 2048 MB, while the size of the cache will be 2048 - 512, or 1536 MB.
If AIO is disabled and the file cache size is small, for example less than 2GB, the default may not be sufficient for workloads that keep reads in flight for a prolonged time.
If you notice errors in the logs that indicate the buffer pool was exhausted, consider increasing the space for in-flight reads by setting the
There are two indexing modes in DSE Search:
Near-real-time (NRT) indexing is the default indexing mode for Apache Solr™ and Apache Lucene®.
Live indexing, also called real-time (RT) indexing, supports searching directly against the Lucene RAM buffer and more frequent, cheaper soft-commits, which provide earlier visibility to newly indexed data. However, RT indexing requires a larger RAM buffer and more memory usage than an otherwise equivalent NRT setup.
DSE Search provides multi-threaded asynchronous indexing with a back pressure mechanism to avoid saturating available memory and to maintain stable performance. Multi-threaded indexing improves performance on machines that have multiple CPU cores.
For reindexing only, the IndexPool MBean provides operational visibility and tuning through JMX.
For NRT only, to maximize NRT throughput during a manual re-index, adjust these settings in the search index config:
Increase the soft commit time, which is set to 10 seconds (10000 ms) by default. For example, increase the time to 60 seconds and then reload the search index:
ALTER SEARCH INDEX CONFIG ON demo.health_data SET autoCommitTime = 60000;
To make the pending changes active:
RELOAD SEARCH INDEX ON demo.health_data;
A disadvantage of changing the
autoSoftCommit attribute is that newly updated rows take longer than usual (10000ms) to appear in search results.
Live indexing reduces the time for docs to be searchable.
To enable live indexing (also known as RT):
ALTER SEARCH INDEX CONFIG ON demo.health_data SET realtime = true;
To configure live indexing, set the autoCommitTime to a value between 100-1000 ms:
ALTER SEARCH INDEX CONFIG ON demo.health_data SET autoCommitTime = 1000;
Test with tuning values of 100-1000 ms. An optimal setting in this range depends on your hardware and environment. For live indexing (RT), this refresh interval saturates at 1000 ms. A value higher than 1000 ms is not recognized.
Ensure that search nodes have at least 14 GB heap.
If you change the heap, restart DSE to use live indexing with the changed heap size.
DSE Search workloads do not benefit from hyper-threading for writes (indexing). To optimize DSE Search for indexing throughput for both modes (NRT and RT), change tpc_cores in cassandra.yaml from the default to the number of physical CPUs. Change this setting only on search nodes, because this change might degrade throughput for workloads other than search.
The default settings for RAM buffer in
dse.yaml are appropriate for:
Because NRT does not use offheap, these settings apply only to RT.
Adjust these settings to configure how much global memory all Solr cores use to accumulate updates before flushing segments. Setting this value too low can induce a state of constant flushing during periods of ongoing write activity. For NRT, these forced segment flushes will also de-schedule pending auto-soft commits to avoid potentially flushing too many small segments.
JMX MBean path:
The back_pressure_threshold_per_core in
dse.yaml affects only index rebuilding/reindexing.
If you upgraded to DSE 6.0 from earlier versions, ensure that you use the new default value of
mergeScheduler settings are set automatically.
Do not adjust these settings in DSE 6.0 and later.
In earlier versions, the default settings were different and might have required tuning.