# Understanding Units `pydase` integrates with the [`pint`](https://pint.readthedocs.io/en/stable/) package to allow you to work with physical quantities within your service. This enables you to define attributes with units, making your service more expressive and ensuring consistency in the handling of physical quantities. You can define quantities in your `pydase.DataService` subclass using the `pydase.units` module. Here's an example: ```python from typing import Any import pydase import pydase.units as u class ServiceClass(pydase.DataService): voltage = 1.0 * u.units.V _current: u.Quantity = 1.0 * u.units.mA @property def current(self) -> u.Quantity: return self._current @current.setter def current(self, value: u.Quantity) -> None: self._current = value if __name__ == "__main__": service = ServiceClass() service.voltage = 10.0 * u.units.V service.current = 1.5 * u.units.mA pydase.Server(service=service).run() ``` In the frontend, quantities are rendered as floats, with the unit displayed as additional text. This allows you to maintain a clear and consistent representation of physical quantities across both the backend and frontend of your service. ![Web interface with rendered units](../images/Units_App.png) Should you need to access the magnitude or the unit of a quantity, you can use the `.m` attribute or the `.u` attribute of the variable, respectively. For example, this could be necessary to set the periodicity of a task: ```python import asyncio import pydase import pydase.units as u class ServiceClass(pydase.DataService): readout_wait_time = 1.0 * u.units.ms async def read_sensor_data(self): while True: print("Reading out sensor ...") await asyncio.sleep(self.readout_wait_time.to("s").m) if __name__ == "__main__": service = ServiceClass() pydase.Server(service=service).run() ``` For more information about what you can do with the units, please consult the documentation of [`pint`](https://pint.readthedocs.io/en/stable/).