Python 3 port (using 2to3) of PyRedPitaya library in the pyrp3 namespace.

Note: The following is a copy of the readme from the original repo and might not work with this version of the library.

This package provides a library to access the Red Pitaya registers. This library consist of a C library (libmonitor.c) and a ctypes interface on the Python side.

An object oriented interface to the different application (scope, generator, PID, AMS, ...) is provided. This interface is implemented using Python properties (see usage below) and can quickly be extended to your own application.

An rpyc server is used in order to communicate with your computer. The interface is the same on the computer as the one on the board.

To install pyrp3 on any machine, run the command:

pip3 install pyrp3

You need to have Python installed on you Red Pitaya.

Logging onto the redpitaya using ssh, one can start the ipython shell and run :

from pyrp3.board import RedPitaya

redpitaya = RedPitaya()

print(redpitaya.ams.temp) # Read property
redpitaya.hk.led = 0b10101010 # Write property

You need to install the pyrp3 package on your PC as well as Rpyc:

rpyc_server

On the computer (replace REDPITAYA_IP by the string containing the IP address) :

from rpyc import connect
from pyrp3.pc import RedPitaya

conn = connect(REDPITAYA_IP, port=18861)
redpitaya = RedPitaya(conn)

print(redpitaya.read(0x40000000)) # Direct access

print(redpitaya.ams.temp) # Read property
redpitaya.hk.led = 0b10101010 # Write property

from time import sleep
from pylab import *

redpitaya.scope.setup(frequency = 100, trigger_source=1)
sleep(100E-3)
plot(redpitaya.scope.times, redpitaya.scope.data_ch1)
show()