I need to generate a sine wave sound in Python, and I need to be able to control frequency, duration, and relative volume. By 'generate' I mean that I want it to play though the speakers immediately, not save to a file.

What is the easiest way to do this?

import pyaudio
import numpy as np

p = pyaudio.PyAudio()

volume = 0.5     # range [0.0, 1.0]
fs = 44100       # sampling rate, Hz, must be integer
duration = 1.0   # in seconds, may be float
f = 440.0        # sine frequency, Hz, may be float

# generate samples, note conversion to float32 array
samples = (np.sin(2*np.pi*np.arange(fs*duration)*f/fs)).astype(np.float32)

# for paFloat32 sample values must be in range [-1.0, 1.0]
stream = p.open(format=pyaudio.paFloat32,

# play. May repeat with different volume values (if done interactively) 


  • 1
    I found @yahweh contribution to be the case. It would be helpful to include in the code sample. – chris Feb 25 '18 at 22:21
  • This doesn't work on my Linux system, it cuts off before it has played all samples, e.g. with duration 2 it plays less than a second. I used the callback method to play all of the samples. Full example here: gist.github.com/FrankBuss/3c2f0d1eaf289ef9f659139b96e7a459 – Frank Buss Jun 14 '19 at 5:25
  • Doesn't sound like a sine wave to me! – user404153 Sep 7 '19 at 18:52
  • Looking for a version without numpy dependency. – Gringo Suave Feb 12 '20 at 18:05

ivan-onys gave an excellent answer, but there is a little addition to it: this script will produce 4 times shorter sound than expected because Pyaudio write method needs string data of float32, but when you pass numpy array to this method, it converts whole array as entity to a string, therefore you have to convert data in numpy array to the byte sequence yourself like this:

samples = (np.sin(2*np.pi*np.arange(fs*duration)*f/fs)).astype(np.float32).tobytes()

and you have to change this line as well:

  • Very interesting @yahweh. This solves another problem I had. Can you tell me why .tobytes() solves the problem? – mm_ Jul 23 '18 at 17:37

One of the more consistent andeasy to install ways to deal with sound in Python is the Pygame multimedia libraries.

I'd recomend using it - there is the pygame.sndarray submodule that allows you to manipulate numbers in a data vector that become a high-level sound object that can be playerd in the pygame.mixer module.

The documentation in the pygame.org site should be enough for using the sndarray module.


Today for Python 3.5+ the best way is to install the packages recommended by the developer.


For Debian do

sudo apt-get install python3-all-dev portaudio19-dev

before trying to install pyaudio


I the bregman lab toolbox you have a set of functions that does exactly what you want. This python module is a little bit buggy but you can adapt this code to get your own functions


The script from ivan_onys produces a signal that is four times shorter than intended. If a TypeError is returned when volume is a float, try adding .tobytes() to the following line instead.


@mm_ float32 = 32 bits, and 8 bits = 1 byte, so float32 = 4 bytes. When samples are passed to stream.write as float32, byte count (duration) is divided by 4. Writing samples back .tobytes() corrects for quartering the sample count when writing to float32.

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