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Disclaimer: I'm pretty terrible with multithreading, so it's entirely possible I'm doing something wrong.

I've written a very basic raytracer in Python, and I was looking for ways to possibly speed it up. Multithreading seemed like an option, so I decided to try it out. However, while the original script took ~85 seconds to process my sample scene, the multithreaded script ends up taking ~125 seconds, which seems pretty unintuitive.

Here's what the original looks like (I'm not going to copy the drawing logic and stuff in here. If someone thinks that would be needed to figure out the problem, I'll go ahead and put it back in):

def getPixelColor(x, y, scene):
    <some raytracing code>

def draw(outputFile, scene):
    <some file handling code>
    for y in range(scene.getHeight()):
        for x in range(scene.getWidth()):
            pixelColor = getPixelColor(x, y, scene)
            <write pixelColor to image file>

if __name__ == "__main__":
    scene = readScene()
    draw(scene)

And here's the multithreaded version:

import threading
import Queue

q = Queue.Queue()
pixelDict = dict()

class DrawThread(threading.Thread):
    def __init__(self, scene):
        self.scene = scene
        threading.Thread.__init__(self)

    def run(self):
        while True:
        try:
            n, x, y = q.get_nowait()
        except Queue.Empty:
            break
        pixelDict[n] = getPixelColor(x, y, self.scene)
        q.task_done()

    def getPixelColor(x, y, scene):
        <some raytracing code>

def draw(outputFile, scene):
    <some file handling code>
    n = 0
    work_threads = 4
    for y in range(scene.getHeight()):
        for x in range(scene.getWidth()):
            q.put_nowait((n, x, y))
            n += 1
    for i in range(work_threads):
        t = DrawThread(scene)
        t.start()
    q.join()
    for i in range(n)
        pixelColor = pixelDict[i]
        <write pixelColor to image file>

if __name__ == "__main__":
    scene = readScene()
    draw(scene)

Is there something obvious that I'm doing wrong? Or am I incorrect in assuming that multithreading would give a speed boost to a process like this?

share|improve this question
    
If you're doing tons of math ops and don't like languages that start with 'C', I'd try to use numpy or maybe Psyco. –  Nick T Aug 11 '10 at 20:32

3 Answers 3

up vote 7 down vote accepted

I suspect the Python Global Interpreter Lock is preventing your code from running in two threads at once.

http://stackoverflow.com/questions/1294382/what-is-a-global-interpreter-lock-gil

Clearly you want to take advantage of multiple CPUs. Can you split the ray tracing across processes instead of threads?

The multithreaded version obviously does more "work" so I would expect it to be slower on a single CPU.

I also dislike subclassing Thread, and just construct a new thread with t = Thread(target=myfunc); t.run()

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To directly answer your question, Python threading will not improve the performance and the GIL may actually make it worse.

In the larger scheme of things, I love python and ray tracing, but you should never combine them. A Python ray tracer would be at least 2 orders of magnitude slower than a C or even C++ version of the same.

So while your question is interesting from a Python programmers point of view, it is rather funny from a ray tracing point of view.

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I know Python isn't the right tool for this, it's more of a learning exercise. I've written a C++ one with virtually the same code, and it's ridiculous how much faster it is. This one is really just for fun. –  ctoneal Aug 12 '10 at 11:27

I suspect you may have one of two problems (or both really). First, I agree with Joe that the Global Interpreter Lock is likely causing problems.

Second, it looks like you write a file a lot during this process (particularly in the non-threaded version when you do it every iteration of the inner loop). Is it possible that you were time-bound on the disk not CPU? If so, then when you added the threading you added overhead to manage the threads without resolving the actual bottleneck. When optimizing make sure you identify you bottlenecks first, so you can at least guess about which are likely to give you the most bang for your buck when addressing them.

share|improve this answer
    
have my last +1 for the day –  aaronasterling Aug 11 '10 at 19:47
    
I buffered up the writing, and it did manage to shave a significant amount of time off. Thanks for pointing that out! –  ctoneal Aug 12 '10 at 11:42

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