Control and Measurement Toolkit
Providing generic instrument drivers, instrument emulators for testing and and utilities for instrumentation applications. Inspired by QCoDeS, Lantz, Slave, FluidLab.
Install from GitHub using pip
pip install git+https://github.com/hephy-dd/comet.git@v1.1.0Generic instrument drivers use a PyVISA compatible resource to communicate with.
import pyvisa
from comet.driver.keithley import K2470
rm = pyvisa.ResourceManager("@py")
with rm.open_resource("TCPIP::0.0.0.0::11001::SOCKET") as res:
smu = K2470(res)
print(smu.identify())
smu.reset()
smu.function = smu.FUNCTION_VOLTAGE
smu.current_compliance = 1e-6
smu.output = smu.OUTPUT_ON
smu.voltage_level = 5.0
reading = smu.measure_current()
print(reading)
smu.voltage_level = 0.0
smu.output = smu.OUTPUT_OFFSwitching between generic drivers.
from comet.driver.keithley import K2410
from comet.driver.keithley import K2470
from comet.driver.keithley import K2657A
smu_drivers = {
"Keithely2410": K2410,
"Keithely2470": K2470,
"Keitley2657A": K2657A,
}
driver_name = "Keithely2470"
rm = pyvisa.ResourceManager("@py")
with rm.open_resource("TCPIP::0.0.0.0::11001::SOCKET") as res:
smu = smu_drivers.get(driver_name)(res)See comet/driver for available instrument drivers.
Estimate remaining time for loop operations using class Estimate.
Call method advance to proceed to the next iteration and update average and
remaining time calculation.
from comet.estimate import Estimate
e = Estimate(42) # start stopwatch
for i in range(42 + 1):
...
e.advance() # stop time since last step
print("passed:", e.passed)
print("remaining time:", e.remaining)
print("elapsed time:", e.elapsed)
print("average time:", e.average)Test if standard deviation / mean < threshold using function std_mean_filter.
from comet.filters import std_mean_filter
if std_mean_filter(readings, threshold=0.005):
...Voltage ramps using LinearRange generator class.
from comet.functions import LinearRange
for voltage in LinearRange(-10, +10, 0.25):
...Bind typed and bounded parameters to classes inheriting from class
ParameterBase.
from comet.parameter import ParameterBase, Parameter
class Measurement(ParameterBase):
voltage_level = Parameter(unit="V", minimum=-1000, maximum=1000)
current_compliance = Parameter(default="25 uA", unit="A", minimum=0, maximum="10 mA")
terminal = Parameter(default="front", choice=["front", "rear"])
write_output = Parameter(default=True, type=bool)
measurement = Measurement({"voltage_level": "100 V"}) # supply required parameters
# Get dictionary of all parameter values.
print(measurement.parameters)
# {'voltage_level': 100.0, 'current_compliance': 2.5e-05, 'terminal': 'front', 'write_output': True}
# Update parameter values
measurement.update_parameters({"current_compliance": "50 uA", "terminal": "rear"})
# Access individual parameter
print(measurement.voltage_level)
# 100.0
print(measurement.current_compliance)
# 5e-05
print(measurement.terminal)
# 'rear'
measurement.write_output = False
# AttributeError: can't set parameter: 'write_output'Use pint unit registry to convert between units.
from comet.utils import ureg, to_unit
quantity = ureg("25 nA").to("A")
print(to_unit(quantity, "mA"))
# 2.5e-05
print(to_unit("1200 V", "kV"))
# 1.2
print(to_unit(2.5, "pA"))
# 2.5To emulate one or more instruments using TCP sockets create a emulators.yaml
configuration file in your project directory specifying emulator module and
port.
version: '1.0'
emulators:
smu:
module: keithley.k2470
port: 11001
lcr:
module: keysight.e4980a
port: 11002To spin up the emulator sockets execute the comet.emulator package.
python -m comet.emulatorUse command line argument -f to use a custom configuration file.
python -m comet.emulator -f custom_emulators.yamlSee comet/emulator for available instrument emulators.
COMET is licensed under the GNU General Public License Version 3.