First, install an operating system on the Raspberry Pi by following the official `instructions <https://www.raspberrypi.com/documentation/computers/getting-started.html#install-an-operating-system>`
First, install an operating system on the Raspberry Pi by following the official `instructions <https://www.raspberrypi.com/documentation/computers/getting-started.html#install-an-operating-system>`_
Then connect to the Raspberry Pi either via ssh or using an external monitor.
Then connect to the Raspberry Pi either via ssh or using an external monitor.
For all questions related to Raspberry Pi operations, please refer to the official `ocumentation <https://www.raspberrypi.com/documentation/>`
For all questions related to Raspberry Pi operations, please refer to the official `ocumentation <https://www.raspberrypi.com/documentation/>`_
Loggers have been introduced in this release. They use the excellent logging python package.
Loggers have been introduced in this release. They use the excellent logging python package.
Specific handlers have been implemented for running with ohmpi.py (one for logging to an mqtt broker (see :ref:`IoT-interfaces` for more details) and one for creating zipped rotated logs on disk).
Specific handlers have been implemented for running with ohmpi.py (one for logging to an mqtt broker (see :ref:`IoT-interface` for more details) and one for creating zipped rotated logs on disk).
Two loggers have been defined. The first one is dedicated to log operations execution. It is named exec_logger. The second one, named data_logger, is dedicated to log data. A third one is planned to log the state of health (SOH) of the system in a future version.
Two loggers have been defined. The first one is dedicated to log operations execution. It is named exec_logger. The second one, named data_logger, is dedicated to log data. A third one is planned to log the state of health (SOH) of the system in a future version.
