PyAnsys Units is a Python library designed for managing physical quantities, which are combinations of numerical values and corresponding units of measurement. This package facilitates arithmetic operations and conversions between various units.
With a modular design, PyAnsys Units offers the flexibility to extend or modify its extensive list of physical units and unit systems without altering the source code. It seamlessly integrates with NumPy mathematical operations.
PyAnsys Units comes bundled with a comprehensive set of physical units, prefixes, and constants and boasts complete test coverage.
Documentation for the latest stable release of PyAnsys Units is hosted at PyAnsys Units documentation.
In the upper right corner of the documentation's title bar, there is an option for switching from viewing the documentation for the latest stable release to viewing the documentation for the development version or previously released versions.
On the PyAnsys Units Issues page, you can create issues to report bugs, and request new features. On the PyAnsys Units Discussions page or the Discussions page on the Ansys Developer portal, you can post questions, share ideas, and get community feedback.
To reach the project support team, email pyansys.core@ansys.com.
The ansys.units package supports Python 3.10 through Python 3.13 on Windows
and Linux.
Install the latest release from PyPI with this command:
pip install ansys-unitsIf you plan on doing local development of PyAnsys Units with Git, install the latest release with these commands:
git clone https://github.com/ansys/pyansys-units.git
cd pyansys-units
pip install pip -U
pip install -e .PyAnsys Units supports flexible instantiation of Quantity objects:
import ansys.units as ansunits
# Using unit strings
volume = ansunits.Quantity(value=1, units="m^3")
volume.value # 1.0
volume.units.name # "m^3"
# Using Unit instances
ureg = ansunits.UnitRegistry()
mass = ansunits.Quantity(value=1, units=ureg.kg)
volume.value # 1.0
volume.units.name # "kg"
# Using base dimensions
dims = ansunits.BaseDimensions
dimensions = ansunits.Dimensions({dims.LENGTH: 1, dims.TIME: -2})
acceleration = ansunits.Quantity(value=3, dimensions=dimensions)
acceleration.value # 3.0
acceleration.units.name # "m s^-2"
# Using the quantity map
torque = ansunits.Quantity(5, quantity_map={"Torque": 1})
torque.value # 5.0
torque.units.name # "N m"
torque.si_units # "kg m^2 s^-2"With NumPy installed, you can instantiate a Quantity using either
a list of floats or a NumPy array:
from ansys.units import Quantity
import numpy as np
length_array_quantity = Quantity(value=[1.0, 6.0, 7.0], units="m")
length_array_quantity[1] # Quantity (6.0, "m")
time = Quantity(value=2, units="s")
speed = length_array_quantity / time
speed # Quantity ([0.5 3. 3.5], "m s^-1")You can instantiate unit systems with one of two methods:
# Use a pre-defined unit system
si = ansunits.UnitSystem(unit_sys="SI")
si.base_units # ['kg', 'm', 's', 'K', 'delta_K', 'radian', 'mol', 'cd', 'A', 'sr']
# Define a custom unit system from a dictionary of base units. Any unspecified
# unit will default to the SI equivalent.
ureg = ansunits.UnitRegistry()
dims = ansunits.BaseDimensions
sys = ansunits.UnitSystem(
base_units={
dims.MASS: ureg.slug,
dims.LENGTH: ureg.ft,
dims.TEMPERATURE: ureg.R,
dims.TEMPERATURE_DIFFERENCE: ureg.delta_R,
dims.CHEMICAL_AMOUNT: ureg.slugmol,
}
)
sys.base_units # ['slug', 'ft', 's', 'R', 'delta_R', 'radian', 'slugmol', 'cd', 'A', 'sr']Perform arithmetic operations:
import ansys.units as ansunits
deg = ansunits.Quantity(90, "degree")
math.sin(deg) # 1.0
v1 = ansunits.Quantity(10.0, "m s^-1")
v2 = ansunits.Quantity(5.0, "m s^-1")
v3 = v1 - v2
v3.value # 5.0
vpow = v1**2
vpow.value # 100.0
vpow.units # "m^2 s^-2"Directly convert values to another set of units:
import ansys.units as ansunits
flbs = ansunits.Quantity(1, "lb ft^-1 s^-1")
flbs.value # 1
pas = flbs.to("Pa s")
pas.value # 1.4881639435695542
pas.units.name # 'Pa s'Use a custom unit system to perform conversions:
import ansys.units as ansunits
ureg = ansunits.UnitRegistry()
dims = ansunits.BaseDimensions
sys = ansunits.UnitSystem(
base_units={
dims.MASS: ureg.slug,
dims.LENGTH: ureg.ft,
dims.TEMPERATURE: ureg.R,
dims.TEMPERATURE_DIFFERENCE: ureg.delta_R,
dims.CHEMICAL_AMOUNT: ureg.slugmol,
}
)
v = ansunits.Quantity(10, "kg m s^2")
v2 = sys.convert(v)
v2.value # 2.2480894309971045
v2.units.name # 'slug ft s^2'PyAnsys Units is licensed under the MIT license. For more information, see the LICENSE file.