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I know that consecutive R-Type instructions can cause a hazard, for example:

add $2, $2, $1
add $2, $2, $3

but can consecutive I-Type instructions? For example:

addi $2, $0, 10
addi $2, $0, 5
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1 Answer 1

up vote 1 down vote accepted

given your case of:

addi $2, $0, 10 
addi $2, $0, 5

you will never encounter a data hazard because you are never reading a value after it is being written (read after write)

maybe think of it like this:

$2 = $0 + 10
$2 = $0 + 5

you can see that $2 is not being used in the second calculation and $0 is not being changed, so there is no data hazard.

if you were to do this:

addi $2, $0, 10 # $2 = $0 + 10
addi $3, $2, 5  # $3 = $2 + 5

pipelining will not guarantee that $2 is the expected value when it is read during the second calculation.

consider that lw and sw are also I-type instructions;

    A Read After Write hazard occurs when, in the code as written, one instruction
    reads a location after an earlier instruction writes new data to it, but in the
     pipeline the write occurs after the read (so the instruction doing the read gets stale data).
    A Write After Read hazard is the reverse of a RAW: in the code a write occurs after a read,
     but the pipeline causes write to happen first.
    A Write After Write hazard is a situation in which two writes occur out of order. We normally
    only consider it a WAW hazard when there is no read in between; if there is, then we have a RAW
    and/or WAR hazard to resolve, and by the time we've gotten that straightened out the WAW has 
    likely taken care of itself.


given that the operations for reading and writing data are I-type instructions and given the definition of these potential data hazards, yes, I-type instructions can still have a hazard.

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Are you sure addi is not an i-type instruction? addi $2, $0, 10 has two registers, $2 and $0 and a 16-bit immediate, 10. –  Jason Pather Oct 27 '12 at 10:12
@user1687682 oh yes sorry i misread. i will edit. –  Alex Lynch Oct 27 '12 at 10:18
Ok that makes sense, thanks! –  Jason Pather Oct 27 '12 at 22:23

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