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In a 80486 computer, what is the worst case (include the fetch) number of memory accesses of this instruction:

add dword [x],0x123FA4

It is known that an opcode with no operands is two bytes in length.

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probably you should try reading the Intel manuals and try to solve your problems yourself rather than posting random questions awaiting explanation of some weird thing. –  Mehrdad Afshari Jul 25 '09 at 8:46
the answer is 8 but i dont know why –  nisnis84 Jul 25 '09 at 8:47
it is not homework i am learning for a test!!!!! –  nisnis84 Jul 25 '09 at 9:01
If you opened your book and figured this out yourself, you would gain a much higher understanding of what is going on, rather than just have someone tell you the answer to a test. How about you sign the test 'StackOverflow' when you hand it in instead of your own name. –  Zuu Jul 25 '09 at 12:08
@Pax: would you really call this a basic question? Considering it depends on the alignment of the instruction bytes? –  John Saunders Jul 26 '09 at 17:49

1 Answer 1

up vote 4 down vote accepted

From memory, the instruction has an opcode byte ("add"), an address mode byte, an offset for x (4 bytes) and the constant (4 bytes) ==> 10 bytes. I assume the 486 fetches 4 bytes at a time from memory with a bus address aligned to 4 byte DWORD boundaries. So 10 bytes arguably takes 3 memory reads (= 10/4 rounded up) no matter where you place them. Howevever, if the opcode byte is place in the last byte of a DWORD, the remaining 9 bytes span 3 more DWORDS to the total number of reads can actually be 4.

To do the add, the location X must be fetched. Assume X is split across a DWORD boundary -> 2 reads. Adding the constant happens inside the CPU, and the sum is written back across that same DWORD boundary split --> 2 writes.

So, the worst case should be 8 memory operations.

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