In the Patterson & Hennessy Book:
But can't this be handled as a EX hazard:
Why is forwarding done in the MEM stage? And how? With 1 stall (for the 2nd add, I will need result from EX in next EX)?
I'll rewrite EX and MEM hazard condition (dropping !=0 part for simplicity), before we will take in account "double data hazard" (original rules):
I'll call conditions EX_h_Rs and EX_h_Rt to keep formulas shorter
MEM Hazard (original condition)
And our example with two types of hazard at once, between (1st and 3rd) & (2nd and 3rd) at same time:
or (promlem cycle is marked with
According to my link, after taking into account double EX + MEM hazard: (without !=0 and reordered boolean terms), Updated rules of MEM Hazard:
Or the same using short record of EX_h_*
Try to forward from MEM/WB to EX; if there is no forward into same input operand from EX/MEM pipeline registers.
Or the same
Don't even try to forward from MEM/WB to EX; if there is already forwarding of more recent result from EX/MEM.
I'll try to illustrate:
so, for third instruction original rules will say that Both
So; your drawing is right, there will be 2 EX Hazards forwarding; But MEM hazard forwarding should not be tried if there is already active EX Hazard forwarding.
This is clearly an error in the book's 4th edition (the parenthesis are unbalanced, for one). Curiously the book's most recent edition (4th Edition Revised) adds a missing closing ')' but... ends up with an incorrect condition still:
I think this would be the correct version of the conditions: