VM configurations

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For Azure, we use the default instance type configurations provided by Azure which are unique to them. To make it easy to identify each instance type in Azure, a new common nomenclature is introduced.

For example, Instance ID / SKU: azure.es.datahot.ddv4

azure.*

Denotes the cloud provider, Azure in this case.

\*.es.datahot.*

Denotes that this configuration is an Elasticsearch (es) cluster component that serves as a data node for hot content. Other options may be datawarm, datacold, datafrozen for data nodes, and kibana, master, and so on for other components.

*.ddv4

Denotes that this configuration is running on the Azure Ddv4 VM series.

The new configuration naming convention aligns with the data tiers intended for each configuration type, replacing prior naming conventions of “highio”, “highcpu”, and so on. The following table details the new configurations for data nodes and compares them with prior naming conventions where applicable.

New config name Notes

azure.es.datahot.edsv4

This is a new configuration that replaces “azure.data.highio.l32sv2” or “azure.data.highio.e32sv3” config, but provides more disk space and similar RAM:CPU ratios.

azure.es.datahot.ddv4

This is a new configuration that replaces “azure.data.highcpu.d64sv3” config, but provides more disk space to allow for longer retention in ingest use cases, or larger catalog in search use cases.

azure.es.datahot.fsv2

This is a new configuration that provides double the CPU compared to “azure.es.datahot.ddv4” config. It is intended for high throughput ingest use cases or intensive search use cases.

azure.es.datahot.lsv3

This is a new configuration powered by Intel Ice lake processor which provides similar RAM:CPU ratios as that of edsv4 but provides lower disk space.

azure.es.datawarm.edsv4, azure.es.datacold.edsv4

This is a new configuration that replaces “azure.data.highstorage.e16sv3” config but provides more disk space.

azure.es.datafrozen.edsv4

This is a new configuration that replaces “azure.es.datafrozen.lsv2” or “azure.es.datafrozen.esv3” config but provides more disk space.

For a detailed price list, check the Elastic Cloud price list. For a detailed specification of the new configurations, check Elasticsearch Service default Azure instance configurations.

The benefits of the new configurations are multifold:

  • By providing a net new configuration of fsv2 VM series, there is a general boost of performance related to new chipsets and faster hardware.
  • The new instances provide more disk capacity as compared to existing VM series which translates to a more cost effective infrastructure which can save up to 80% when calculating cost by disk capacity.
  • There are now more instances to choose from in the hot tier. Rather than the traditional “highio” and “highcpu”, there are now three options to cover the hot data tier which allows to optimize cost/performance further.

In addition to data nodes for storage and search, Elasticsearch nodes also have machine learning nodes, master nodes, and coordinating nodes. These auxiliary node types along with application nodes such as APM servers, Kibana, and Enterprise search have also been upgraded to the new Fsv2 VM series. Both auxiliary node and application node configurations are based on Elasticsearch data node configuration types shown in the previous table.

New config name Notes

azure.es.master.fsv2

Master nodes now use 4x the CPU as they had when based on “azure.master.e32sv3” config. This will help boost the overall performance and stability of clusters, as master nodes have a critical role in maintaining cluster state and controlling workloads.

azure.es.ml.fsv2

ML nodes now use 2x the CPU as they had when based on “azure.ml.d64sv3” config.

azure.es.coordinating.fsv2

Coordinating nodes now use 2x the CPU as they had when based on “azure.coordinating.d64sv3” config.

azure.kibana.fsv2

Kibana nodes now use 4x the CPU as they had when based on “azure.kibana.e32sv3” config. This ensures a more performant Kibana and helps with some client side aggregation, as well as responsive UI.

azure.apm.fsv2

APM nodes now use 4x the CPU as they had when based on “azure.apm.e32sv3” config.

azure.integrationsserver.fsv2

Integrations Server nodes now use 4x the CPU as they had when based on “azure.integrationsserver.e32sv3” config.

azure.enterprisesearch.fsv2

Enterprisesearch Server nodes now use 2x the CPU as they had when based on “azure.enterprisesearch.d64sv3” config.