When you are creating a job in Kibana, the job creation wizards can provide advice based on the characteristics of your data. By heeding these suggestions, you can create jobs that are more likely to produce insightful machine learning results.
The bucket span is the time interval that machine learning analytics use to summarize and model data for your job. When you create a job in Kibana, you can choose to estimate a bucket span value based on your data characteristics.
The bucket span must contain a valid time interval. For more information, see Analysis configuration objects.
If you choose a value that is larger than one day or is significantly different than the estimated value, you receive an informational message. For more information about choosing an appropriate bucket span, see Buckets.
If there are logical groupings of related entities in your data, machine learning analytics can make data models and generate results that take these groupings into consideration. For example, you might choose to split your data by user ID and detect when users are accessing resources differently than they usually do.
If the field that you use to split your data has many different values, the
job uses more memory resources. In particular, if the cardinality of the
partition_field_name is greater than
1000, you are advised that there might be high memory usage.
Likewise if you are performing population analysis and the cardinality of the
over_field_name is below 10, you are advised that this might not be a suitable
field to use. For more information, see
Performing population analysis.
Each job must have one or more detectors. A detector applies an analytical function to specific fields in your data. If your job does not contain a detector or the detector does not contain a valid function, you receive an error.
If a job contains duplicate detectors, you also receive an error. Detectors are
duplicates if they have the same
When you create a job, you can specify influencers, which are also sometimes referred to as key fields. Picking an influencer is strongly recommended for the following reasons:
- It allows you to more easily assign blame for the anomaly
- It simplifies and aggregates the results
The best influencer is the person or thing that you want to blame for the anomaly. In many cases, users or client IP addresses make excellent influencers. Influencers can be any field in your data; they do not need to be fields that are specified in your detectors, though they often are.
As a best practice, do not pick too many influencers. For example, you generally do not need more than three. If you pick many influencers, the results can be overwhelming and there is a small overhead to the analysis.
The job creation wizards in Kibana can suggest which fields to use as influencers.
For each job, you can optionally specify a
model_memory_limit, which is the
approximate maximum amount of memory resources that are required for analytical
processing. The default value is 1 GB. Once this limit is approached, data
pruning becomes more aggressive. Upon exceeding this limit, new entities are not
You can also optionally specify the
By default, it’s not set, which means there is no upper bound on the acceptable
model_memory_limit values in your jobs.
If you set the
model_memory_limit too high, it will be impossible to open
the job; jobs cannot be allocated to nodes that have insufficient memory to run
If the estimated model memory limit for a job is greater than the model memory
limit for the job or the maximum model memory limit for the cluster, the job
creation wizards in Kibana generate a warning. If the estimated memory
requirement is only a little higher than the
model_memory_limit, the job will
probably produce useful results. Otherwise, the actions you take to address
these warnings vary depending on the resources available in your cluster:
If you are using the default value for the
model_memory_limitand the machine learning nodes in the cluster have lots of memory, the best course of action might be to simply increase the job’s
model_memory_limit. Before doing this, however, double-check that the chosen analysis makes sense. The default
model_memory_limitis relatively low to avoid accidentally creating a job that uses a huge amount of memory.
If the machine learning nodes in the cluster do not have sufficient memory to accommodate a job of the estimated size, the only options are:
- Add bigger machine learning nodes to the cluster, or
- Accept that the job will hit its memory limit and will not necessarily find all the anomalies it could otherwise find.
If you are using Elastic Cloud Enterprise or the hosted Elasticsearch Service on Elastic Cloud,
xpack.ml.max_model_memory_limit is set to prevent you from creating jobs
that cannot be allocated to any machine learning nodes in the cluster. If you find that you
model_memory_limit for your machine learning jobs, the solution is to
increase the size of the machine learning nodes in your cluster.
For more information about the
model_memory_limit property and the
xpack.ml.max_model_memory_limit setting, see
Analysis limits and
Machine learning settings.
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