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What is the difference between vectored and non vectored interrupts?

I thought all interrupts had to be vectored interrupts... After all don't all interrupts have a vector number and thus a vector with a specific ISR [interrupt service routine]

(ISR address would in the page table, at 4 * the vector # in device that generated interrupt; assuming a 32 bit address architecture)....

Thanks!

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2 Answers 2

up vote 5 down vote accepted

See here:

  • Vectored interrupts: Device tells the CPU that it needs attention
  • Polled interrupts: CPU polls the device to see if it needs attention
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Whenever an interrupt occurs, the CPU needs to execute a Handler, which is basically a subroutine that handles the interrupt. Now how the CPU accesses this handler depends on the type of interrupt.

In case of Vectored interrupt, the vector number specifies the address of the Handler, hence the CPU jumps to the address and executes the handler.

On the other hand, non vectored interrupts are generally raised by I/O (slow) devices. In this case there is always a specific handler that needs to be executed, hence no need to pass a vector for the address of the handler

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You say "on the other hand non vectored interrupts are raised by I/O devices" -- BUT Aren't ALL interrupts (vectored and non vectored) raised by I/O devices? Can you please clarify? Otherwise +1 for a clear first 2 paragraphs! =) –  rrazd Jun 29 '11 at 13:37
    
A call to a subprogram is also an interrupt. e.g. If you would have programmed in any High Level Language and you call a function then that is also a kind of interrupt and it is a type of vectored interrupt where you know the address of the function to be invoked. –  AmanMohla Jul 12 '11 at 4:41

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