# Dynamic branch prediction miss count - incorrect

I was looking over internet for some exaples about dbp and I found this one. Source: http://faculty.cse.tamu.edu/djimenez/614-spring14/bpexample.html (including solution)

Code:

``````main:
leal    4(%esp), %ecx       ; function overhead
andl    \$-16, %esp
pushl   -4(%ecx)
pushl   %ecx         ; gcc stack alignment at the top of main

xorl    %ecx, %ecx      ; i = 0 (%ecx)
.L2:                                       ; top of outer loop
xorl    %edx, %edx      ; j = 0 (%edx)
.L3:                                             ; top of inner loop
movl    c, %eax             ; %eax = c
addl    \$1, %edx            ; j++
addl    \$1, %eax            ; %eax++
movl    %eax, c             ; c = %eax
cmpl    \$4, %edx            ; if j < 4 then goto L3
jne     .L3                 ; INNER LOOP BRANCH

addl    \$1, %ecx         ; i++
cmpl    \$1000, %ecx      ; if i < 1000 then goto L2
jne     .L2              ; OUTER LOOP BRANCH

movl    c, %eax          ; return c

popl    %ecx             ; function overhead
leal    -4(%ecx), %esp
ret
``````

For a 1-bit predictor starting at zero, the result should be 2002. In my logic, there will be 1 miss at the inner loop (as it returns from the outer loop with prediction T), 1000x in total, and 1 miss at the outer loop 999x (because the loop will be predicted as NT from the inner loop end). That makes 1999, + 1 miss at the beginning. That makes 2000 in total. I noticed, almost every time I'm about 1 loop off the real solution (in other examples too). I also tried to develop miss counter that checks every condition every loop, but it only confirmed my result (2000 or 1999 if predictor is set to T), so either I don't understand it properly or there is something wrong with my counting logic.

Could you please explain to me what am I doing wrong?

The asm was compiled from this C.

``````int c;
int main ()
{
int i, j;
for (i=0; i<1000; i++) {
for (j=0; j<4; j++) {
c++;
}
}
return c;
}
``````
• How are you measuring this? Which platform? What's the 'miss counter' you've developed? :) – emmrk Apr 15 at 11:58
• I like this question. As I understand the linked doc, I think there is a miss entering the loop and after leaving the loop. So `1000*2` for the inner loop and `2` for the outer loop. Hence the answer `2002`. – Koshinae Apr 15 at 11:59
• I have predictor variable. I trandformed it into do/while loops and at the and of every loop i check the while condition, if it's not as predicted, I raise misscount by 1 and every time change the predictor value. It's in simple c – Ecto Apr 15 at 12:02
• @emmrk: They're simulating it in their head. Only a couple real CPUs actually have dynamic prediction with only 1 bit of history, danluu.com/branch-prediction says DEC EV4 (1992) and MIPS R8000 (1994). Normally better to spend your BTB bits on 2-bit entries for fewer branches, if you're limited to a fixed size. 2-bit history gives you only 1 mispredict on the loop-exit branch for simple loops, not also on the first iteration like here.lists several real CPUs with 2-bit prediction, e.g. P5 Pentium, PPC604, and CDC Cyber. – Peter Cordes Apr 15 at 12:02
• @Koshinae but where is that miss coming from? It returns from the outer loop as T – Ecto Apr 15 at 12:06

## 1 Answer

You seem to be analyzing for a 1-bit global predictor, with the state shared between both loop branches. (Or assuming both branches alias each other in the BHT.) But your assignment says to assume that the branches don't alias in the BHT.

You're talking about prediction for the inner loop depending on what the outer loop branch did. A 1-bit predictor uses 1 bit per entry, not globally! That would be a bit too trivial. https://danluu.com/branch-prediction/

More advanced real predictors do consider global vs. per-branch history, but usually with things like recording whether global prediction or local prediction did better for a specific branch, and selecting which prediction to use based on that.

Your analysis unfortunately has mistakes even the 1-bit global state you assumed.

In the first iteration, the inner loop branch is the first branch in the function, because the C is compiled to a `do{}while(--i)` asm loop (with some level of gcc optimization, but apparently not enough to turn it into `add \$4000, c`).

Your analysis doesn't mention the first inner iteration of the first outer iteration depending on the initial state. (And with separate state for both branches, also that the first outer loop branch accuracy depends on the initial prediction).

There will be 1 miss at the inner loop (as it returns from the outer loop with prediction T),

The first 3 times the inner loop-branch executes, it is taken, so a `T` prediction is correct. Perhaps your analysis was looking at the C abstract machine where there's an `if (!i<1000) goto loop_bottom` conditional branch at the top of the loop, before the first iteration? Like you might get in un-optimized compiler output?

The final iteration of the inner loop mispredicts every time, predicting as taken when the loop branch falls through. (1000 mispredicts).

With global state, then the outer loop branch mispredicts on all but the last iteration, so I think 1999 mispredicts would be correct for a machine with 1 bit of global state.

For independent 1-bit predictors for each branch

2000 mispredicts on the inner loop branch (1 each on first and last iteration of each inner loop = outer loop body).

2 mispredicts on the outer loop branch (1 each on first and last iterations of the outer loop).

The initial prediction=0 is not-taken, so we do indeed get a mispredict on the first iteration.

• Yes that would be it, thanks – Ecto Apr 15 at 13:05