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What's the rationale behind making USB a polling mechanism rather than interrupt-driven? The answers I can come up with some reasoning are:

  • Leave control of processing efficiency and granularity to OS, rather than the device itself.
  • Prevent "interrupt storms" by faulty devices.

Some explanations on the net that I found say that it's mostly because of the nature of USB devices. They are mostly microcontroller-based systems which cannot queue larger transfers therefore require short interrupt intervals and such short interrupt intervals may not be the most efficient. Is that true?

Could there be other reasons?

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I'm considering giving you a -1 for an apparent false premise, do you mean the controllers or the bus itself? –  Hasturkun Aug 16 '11 at 13:35
    
@Hasturkun: I mean the part that makes host hardware to poll the USB device continuously. –  ssg Aug 16 '11 at 17:39
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That part would be the bus / protocol itself. There is no way for the host to tell if data is available from a device unless it polls the device for that data, so it has to poll continuously if there is an IN endpoint and an active request from a driver to receive data on that endpoint. –  David Grayson Aug 16 '11 at 19:01

3 Answers 3

up vote 9 down vote accepted

The overarching premise of the development of USB was, "cheap chips". This was done, through the use of polling, which reduces the need for a higher arbitration protocol.

Firewire, which did allow for interrupts from the devices and even DMA, was much more expensive. So USB won in the low-cost field, and firewire in low-latency/low-overhead/... field. Due to history USB more or less won.

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Cost! Yes, that makes perfect sense. –  ssg Aug 16 '11 at 17:21

What's the rationale behind making USB a polling mechanism rather than interrupt-driven?

This seems to be anti-USB FUD (as in Fear-Uncertainy-Doubt).

The reason is that this simplifies things on the harware level quite a bit - no more collisions for example. USB is half-duplex to reducex the amount of wires in the cable, so only one can talk anyway.

While USB uses polling on the wire, once you use it in software you will notice that you have interrupts in USB. The only issue is a slight increase in latency - neglible in most use cases. Since the polling is usually realized in hardware IIRC, software only gets notified if there is new data.

On the software level, there are so-called "interrupt endpoints" - and guess what, every HID device uses them: Mice, Keyboard and Josticks are HID.

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Is USB being half-duplex relevant to polling mechanism decision or is it one of the other aspects of USB design? –  ssg Aug 16 '11 at 17:19
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About anti-usb part: I just have that programmer itch about various inefficiencies of a polling system compared to interrupt driven, and I'm trying to find out the reasons behind these decisions. –  ssg Aug 16 '11 at 17:20
    
The polling increases the latency. Especially when several devices coexist on the same bus, because the PC has to poll the devices, in case they have something to deliver. Due to this, many audio devices prefer to use firewire. Everything has its pros and cons. –  Christopher Aug 17 '11 at 10:36
    
@Turbo J "This seems to be anti-USB FUD" -- Wow. How amazingly ironic. MS getting a small dose of their own medicine. –  Daniel Santos Apr 28 '13 at 0:07
    
@Daniel Santos Not to go too far off-topic, but if you pay attention, you'll actually find there is a lot of FUD going in every direction. MS has dealt with a ton of unfair criticism, although I don't know how USB actually has anything to do with Microsoft. –  John Chadwick Dec 24 '13 at 21:53

I see a big analogy between USB and the I2C protocol, which I'm much more familiar with. Conceptually, they are both master-slave architectures where multiple devices share a cheap, 1 bit bus (half duplex). The slave devices can't initiate a communication (e.g. generate an interrupt) or else there will be collisions. Therefore, the master (USB host) has to talk 1st (poll) and the slave responds only when addressed.

But is USB really a huge 1bit bus shared by up to 127 devices? Wouldn't the load of driving 127 devices make it incredibly slow? I'm a bit confused because according to some sources, USB isn't 1 bus, but a switched network with a star topology, therefore eliminating the loading problem of a large bus. But if it's switched, then collisions won't happen right? (just buffer the packets and send them when the output port is free), so why do they still use a master-slave architecture?

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That's more like a comment than an answer. –  ssg Sep 2 '13 at 9:55
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This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. –  the Tin Man Dec 11 '14 at 20:11

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