Hi!
On Tue, Aug 24, 2021 at 07:54:22AM +0200, Christophe Leroy wrote:
> Le 23/08/2021 à 20:46, Segher Boessenkool a écrit :
> >On Mon, Aug 23, 2021 at 03:29:12PM +0000, Christophe Leroy wrote:
> >>Instructions lmw/stmw are interesting for functions that are rarely
> >>used and not in the cache, because only one instruction is to be
> >>copied into the instruction cache instead of 19. However those
> >>instruction are less performant than 19x raw lwz/stw as they require
> >>synchronisation plus one additional cycle.
> >
> >lmw takes N+2 cycles for loading N words on 603/604/750/7400, and N+3 on
> >7450. stmw takes N+1 cycles for storing N words on 603, N+2 on 604/750/
> >7400, and N+3 on 7450 (load latency is 3 instead of 2 on 7450).
> >
> >There is no synchronisation needed, although there is some serialisation,
> >which of course doesn't mean much since there can be only 6 or 8 or so
> >insns executing at once anyway.
>
> Yes I meant serialisation, isn't it the same as synchronisation ?
Ha no, synchronisation are insns like sync and eieio :-) Synchronisation
is architectural, serialisation is (mostly) not, it is a feature of the
specific core.
> >So, these insns are almost never slower, they can easily win cycles back
> >because of the smaller code, too.
> >
> >What 32-bit core do you see where load/store multiple are more than a
> >fraction of a cycle (per memory access) slower?
> >
> >>SAVE_NVGPRS / REST_NVGPRS are used in only a few places which are
> >>mostly in interrupts entries/exits and in task switch so they are
> >>likely already in the cache.
> >
> >Nothing is likely in the cache on the older cores (except in
> >microbenchmarks), the caches are not big enough for that!
>
> Even syscall entries/exit pathes and/or most frequent interrupts entries
> and interrupt exit ?
It has to be measured. You are probably right for programs that use a
lot of system calls, and (unmeasurably :-) ) wrong for those that don't.
So that is a good argument: it speeds up some scenarios, and does not
make any real impact on anything else.
This also does not replace all {l,st}mw in the kernel, only those on
interrupt paths. So it is not necessarily bad :-)
> >>Using standard lwz improves null_syscall selftest by:
> >>- 10 cycles on mpc832x.
> >>- 2 cycles on mpc8xx.
> >
> >And in real benchmarks?
>
> Don't know, what benchmark should I use to evaluate syscall entry/exit if
> 'null_syscall' selftest is not relevant ?
Some real workload (something that uses memory and computational insns a
lot, in addition to many syscalls).
> >On mpccore both lmw and stmw are only N+1 btw. But the serialization
> >might cost another cycle here?
>
> That coherent on MPC8xx, that's only 2 cycles.
> But on the mpc832x which has a e300c2 core, it looks like I have 10 cycles
> difference. Is anything wrong ?
I don't know that core very well, I'll have a look.
Segher
