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I'm programming a little multi-protocol image streaming server (in Python), and all protocols work well enough, except for the Multicast protocol that makes my CPU usage go up to 150% !

Here's the multicast code:

       delay = 1./self.flux.ips
    imgid = 0
    lastSent = 0

    while self.connected:

        #self.printLog("Getting ready to fragment {}".format(imgid))
        fragments = fragmentImage(self.flux.imageFiles[imgid], self.fragmentSize)
        #self.printLog("Fragmented {} ! ".format(imgid))

        # Checking if the delay has passed, to respected the framerate
        while (time.time() - lastSent) < delay:

        # Sending the fragments
        for fragmentid in range(len(fragments)):
            formatedFragment = formatFragment(fragments[fragmentid], fragmentid*self.fragmentSize, len(self.flux.imageFiles[imgid]), imgid)
            self.sendto(formatedFragment, (self.groupAddress, self.groupPort))

        lastSent = time.time()

        imgid = (imgid + 1) % len(self.flux.images)

The UDP protocol also sends images as fragments, and I don't have any CPU usage problems. Note that the client also have some latency to get those images.

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How do you get to 150% CPU? That seems rather improbable. –  Michael Aaron Safyan Dec 12 '12 at 8:34
150% CPU is plausible if the server is multi-threaded and the top program shows per-CPU usage of programs. –  user4815162342 Dec 12 '12 at 9:01

1 Answer 1

up vote 2 down vote accepted

Use time.sleep(delay) instead of the (heavy) busy waiting and you should be good (see this question Python: Pass or Sleep for long running processes?).

For an even better performance you should consider an I/O event reactor like PyUV, gevent, tornado or twisted.

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Thank you ! I was worrying about the CPU usage of an infinite loop that does nothing but pass but said it'd be "just fine". Well, it didn't ! FYI, instead of time.sleep(delay), I've done : time.sleep(delay - (time.time() - lastSent)) (if this value is positive) to only wait the difference between the delay and the elapsed time, as the fragmenting and sending can be time consuming. –  halflings Dec 12 '12 at 12:02

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