1

A processor has

  • 24 bit address bus
  • 16 bit data bus
  • word contains 2 bytes
  • byte addressable
    Peripherals and memory units will be connected and the entire memory space most likely will be used.

There are quite a few questions and I only ever use the fact that there is a 24 bit address bus.

What is the total number of addressable locations for the system? 2^24
1/4 of the address space is to be used for the peripherals, what is the total number of addresses for peripherals? 2^24/2^2
12/16 of the addresses are to be used for disk addressing, how many? (12/16)2^22
3/4 of the address space are to be used for memorey requirements of RAM and ROM, what is the total number of addresses avaliable? (3/4)2^24
This seems to easy

2
  • So what is your question? (BTW, that sounds like an 8086).
    – DarkDust
    Commented Jan 29, 2012 at 9:25
  • My question is am I doing it right? Is it just a red haring to give us the data bus, the word size and the fact that it is byte addressable?
    – user796388
    Commented Jan 29, 2012 at 20:05

1 Answer 1

1

Except for one answer (which might be a typo), your math is correct.

  1. What is the total number of addressable locations for the system? 2^24 = 16,777,216
  2. 1/4 of the address space is to be used for the peripherals, what is the total number of addresses for peripherals? 2^24/2^2(?) = (1/4)2^24 = 4,194,304
  3. 12/16 of the addresses are to be used for disk addressing, how many? (12/16)2^22 (12/16)2^24 = (3/4)2^24 = 12,582,912
  4. 3/4 of the address space are to be used for memorey requirements of RAM and ROM, what is the total number of addresses avaliable? (3/4)2^24 = 12,582,912 (same as 3.)

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