# MIPS Pipeline Forwarding (double data hazard)

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)?

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PS, my final link, cs.cornell.edu/courses/cs3410/2011sp/faq/faq_pa1.html says something about typos in the book: "Note that the forward condition for MEM hazard in textbook on page 369 is WRONG!" and I think it can be about your image. –  osgx Nov 17 '11 at 3:48
This is clearly an error in the book (the parenthesis are unbalanced, for one). Curiously the book's most recent edition (4th Edition Revised) adds a missing closing ' –  Ilya Jan 8 '12 at 23:18

I'll rewrite EX and MEM hazard condition (dropping !=0 part for simplicity), before we will take in account "double data hazard" (original rules):

EX Hazard

`````` if (EX/MEM.RegWrite and (EX/MEM.RegisterRd == ID/EX.RegisterRs)  # =EX_h_Rs
) ForwardA = 10
if (EX/MEM.RegWrite and (EX/MEM.RegisterRd == ID/EX.RegisterRt)  # =EX_h_Rt
) ForwardB = 10
``````

I'll call conditions EX_h_Rs and EX_h_Rt to keep formulas shorter

MEM Hazard (original condition)

`````` if (MEM/WB.RegWrite and (MEM/WB.RegisterRd == ID/EX.RegisterRs)) ForwardA = 01
if (MEM/WB.RegWrite and (MEM/WB.RegisterRd == ID/EX.RegisterRt)) ForwardB = 01
``````

====

And our example with two types of hazard at once, between (1st and 3rd) & (2nd and 3rd) at same time:

``````add \$1, \$1, \$2
add \$1, \$1, \$3
add \$1, \$1, \$4
``````

or (promlem cycle is marked with `**` on top and bottom)

``````                **
add C+A -> A ... A
v     ?
add B+A -> A
v
add C+ A -> A
**
``````

According to my link, after taking into account double EX + MEM hazard: (without !=0 and reordered boolean terms), Updated rules of MEM Hazard:

Let's revise the forwarding conditions for MEM hazard to take care of 'double' data hazards

`````` if (MEM/WB.RegWrite and (MEM/WB.RegisterRd = ID/EX.RegisterRs) and
not (EX/MEM.RegWrite and (EX/MEM.RegisterRd == ID/EX.RegisterRs))
)
ForwardA = 01
if (MEM/WB.RegWrite and (MEM/WB.RegisterRd = ID/EX.RegisterRt) and
not (EX/MEM.RegWrite and (EX/MEM.RegisterRd == ID/EX.RegisterRt))
)
ForwardB = 01
``````

Or the same using short record of EX_h_*

`````` if (MEM/WB.RegWrite and (MEM/WB.RegisterRd = ID/EX.RegisterRs) and
not ( EX_h_Rs )
)
ForwardA = 01
if (MEM/WB.RegWrite and (MEM/WB.RegisterRd = ID/EX.RegisterRt) and
not ( EX_h_Rt )
)
ForwardB = 01
``````

which means:

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:

``````add C+A -> A     A'
v?  (forwarding to 3rd instruction)
A -> A''
v?
add C+A -> A
``````

so, for third instruction original rules will say that Both `A'` from first instruction and `A''` from second instruction should be forwarded (but mux can't be fed from two sources at single moment of time). And modifying of MEM hazard condition says that `A'` should not be tryed to forward if there is active forwarding of `A''` which is more recent.

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.

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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:

``````if (MEM/WB.RegWrite
and (MEM/WB.RegisterRd ≠ 0)
and not(EX/MEM.RegWrite and (EX/MEM.RegisterRd ≠ 0)
and (EX/MEM.RegisterRd = ID/EX.RegisterRs))
and (MEM/WB.RegisterRd = ID/EX.RegisterRs)) Forward = 01

if (MEM/WB.RegWrite
and (MEM/WB.RegisterRd ≠ 0)
and not(EX/MEM.RegWrite and (EX/MEM.RegisterRd ≠ 0)
and (EX/MEM.RegisterRd = ID/EX.RegisterRt))
and (MEM/WB.RegisterRd = ID/EX.RegisterRt)) Forward = 01
``````
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