High-load environments

Tuning EVA ICS

To use EVA ICS in high-load environments, remember the following:

  • Always turn off debug mode. Debug mode significantly slows down all EVA ICS components.

  • Make sure no notifiers are subscribed to the frequently (more than ~10 times per second) updated item states. If you need to synchronize states of such items, reduce remote controller reload intervals instead but set them higher than 1 second.

  • Unsubscribe notifiers from INFO log messages and actions

  • Replace db-updates: instant in Universal Controller configurations with on_exit or manual.

  • If instant state database updates are strongly required, switch to MySQL or PostgreSQL (use option db instead of db-file in controller config).

  • If you don’t need action history, set keep-action-history in controllers’ configuration to zero to disable it.

  • Turn off logging (comment log-file property in configuration file) and reduce keep-logmem value.

  • Increase logging level to warning or error using logging-level config option in [server] section.

  • If you use passive updates, set polldelay to the minimal value (0.001 - 0.005 for 1-5ms)

  • Set retain_enabled to false for MQTT notifiers

  • For slow channels, set compress to true for controllers, connected via MQTT (unless CPU load is critical on clients)

  • Switch from MQTT to PSRT. Do not forget to tune “socket_buf_size” notifier option.

  • If HTTP API respond too slow, try increasing value of thread-pool option in [webapi] config section.

  • Modbus slave and some utility workers use twisted reactor thread pool. In case the software reacts or performs regular tasks slowly, but system load is still low, try increasing value of reactor-thread-pool option in [server] section.

  • If item states should be collected from the equipment which doesn’t send events (e.g. Ethernet/IP, Modbus slaves, SNMP without traps), it’s recommended to use data pullers.

  • To speed up event synchronization between controllers, switch to UDP notifiers (LURP).

  • The good idea is also to reduce event real-timing and use Bulk (buffered) notifications.


Thanks to EVA ICS architecture and optimization for modern multi-core CPUs, the platform can provide good results even on microcomputers. System components and CLI tools may require more time to launch on architectures different than Intel x86_64, but the regular performance should not be affected even on an embedded ARM-based systems.

According to tests, EVA ICS can show bad performance (slow startup/shutdown) on industrial and micro computers if they have:

  • small amount of RAM (minimum 512 MB is recommended)

  • slow SSD drive or SD card.

We strongly recommend using at least UHS-I SD cards which can show a speed up to 100 MB/s.


Benchmark tests for Universal Controller can be performed with tests/benchmark-uc-crt tool. Benchmark results may be different on a systems with different background load, so please stop all unnecessary processes before starting a test.

The primary parameter for UC which is benign benchmarked is a time, required for the controller to:

  • obtain item state from driver

  • perform a simple in-core event handling (convert item value to float and then compare with a float number) with self thread-locking

  • get action request from event handler and execute it using another driver

The time between a moment when the first driver gets new item value and a moment when the second driver is ready to call equipment action is named Core Reaction Time (CRT).

The benchmark tool for Universal Controller turns on internal controller benchmark, performs 1000 CRT tests with 30ms delays on a single sensor/unit pair and displays the average CRT value in milliseconds.

The benchmark is performed on virtual drivers, so the actual system reaction time may be higher than CRT, depending on the equipment connected.


It’s not recommended to perform a real benchmarking tests on SOHO and light industry relays due to their limited lifetime (~100-200k switches)

Below are benchmark results on a test systems (lower CRT is better):





CRT, ms

VMWare ESXi 5.5

Intel Xeon E5630 2.53GHz


3.1.1 2018101701


VMWare ESXi 5.5

Intel Xeon E5630 2.53GHz


3.1.1 2018101701


VMWare ESXi 5.5

Intel Xeon D-1528 1.90GHz


3.1.1 2018101701


VMWare ESXi 5.5

Intel Xeon D-1528 1.90GHz


3.1.1 2018101701


Supermicro X9SXX

Intel Xeon E3-1230 V2 3.30GHz


3.1.1 2018101701


Supermicro E100

Intel Atom E3940 1.60GHz


3.1.1 2018101701


Raspberry Pi 1A

ARMv6 rev 7 v6l


3.1.1 2018101701


Raspberry Pi 2B

ARMv7 rev 5 v7l


3.1.1 2018101701


Raspberry Pi 3B+

ARMv7 rev 4 v7l


3.1.1 2018101701


UniPi Axon S115

ARMv8 Cortex-A53


3.1.1 2018101701


According to tests, EVA ICS 3.2 is about 15% faster than 3.1.1