Re: [PATCH RFC net-next 3/3] mm: make zone->free_area[order] access faster

From: Jesper Dangaard Brouer
Date: Fri Feb 26 2021 - 09:37:13 EST


On Thu, 25 Feb 2021 15:38:15 +0000
Mel Gorman <mgorman@xxxxxxxxxxxxxxxxxxx> wrote:

> On Thu, Feb 25, 2021 at 04:16:33PM +0100, Jesper Dangaard Brouer wrote:
> > > On Wed, Feb 24, 2021 at 07:56:51PM +0100, Jesper Dangaard Brouer wrote:
> > > > Avoid multiplication (imul) operations when accessing:
> > > > zone->free_area[order].nr_free
> > > >
> > > > This was really tricky to find. I was puzzled why perf reported that
> > > > rmqueue_bulk was using 44% of the time in an imul operation:
> > > >
> > > > ??? del_page_from_free_list():
> > > > 44,54 ??? e2: imul $0x58,%rax,%rax
> > > >
> > > > This operation was generated (by compiler) because the struct free_area have
> > > > size 88 bytes or 0x58 hex. The compiler cannot find a shift operation to use
> > > > and instead choose to use a more expensive imul, to find the offset into the
> > > > array free_area[].
> > > >
> > > > The patch align struct free_area to a cache-line, which cause the
> > > > compiler avoid the imul operation. The imul operation is very fast on
> > > > modern Intel CPUs. To help fast-path that decrement 'nr_free' move the
> > > > member 'nr_free' to be first element, which saves one 'add' operation.
> > > >
> > > > Looking up instruction latency this exchange a 3-cycle imul with a
> > > > 1-cycle shl, saving 2-cycles. It does trade some space to do this.
> > > >
> > > > Used: gcc (GCC) 9.3.1 20200408 (Red Hat 9.3.1-2)
> > > >
> > >
> > > I'm having some trouble parsing this and matching it to the patch itself.
> > >
> > > First off, on my system (x86-64), the size of struct free area is 72,
> > > not 88 bytes. For either size, cache-aligning the structure is a big
> > > increase in the struct size.
> >
> > Yes, the increase in size is big. For the struct free_area 40 bytes for
> > my case and 56 bytes for your case. The real problem is that this is
> > multiplied by 11 (MAX_ORDER) and multiplied by number of zone structs
> > (is it 5?). Thus, 56*11*5 = 3080 bytes.
> >
> > Thus, I'm not sure it is worth it! As I'm only saving 2-cycles, for
> > something that depends on the compiler generating specific code. And
> > the compiler can easily change, and "fix" this on-its-own in a later
> > release, and then we are just wasting memory.
> >
> > I did notice this imul happens 45 times in mm/page_alloc.o, with this
> > offset 0x58, but still this is likely not on hot-path.
> >
>
> Yeah, I'm not convinced it's worth it. The benefit of 2 cycles is small and
> it's config-dependant. While some configurations will benefit, others do
> not but the increased consumption is universal. I think there are better
> ways to save 2 cycles in the page allocator and this seems like a costly
> micro-optimisation.
>
> > > <SNIP>
> > >
> > > With gcc-9, I'm also not seeing the imul instruction outputted like you
> > > described in rmqueue_pcplist which inlines rmqueue_bulk. At the point
> > > where it calls get_page_from_free_area, it's using shl for the page list
> > > operation. This might be a compiler glitch but given that free_area is a
> > > different size, I'm less certain and wonder if something else is going on.
> >
> > I think it is the size variation.
> >
>
> Yes.
>
> > > Finally, moving nr_free to the end and cache aligning it will make the
> > > started of each free_list cache-aligned because of its location in the
> > > struct zone so what purpose does __pad_to_align_free_list serve?
> >
> > The purpose of purpose of __pad_to_align_free_list is because struct
> > list_head is 16 bytes, thus I wanted to align free_list to 16, given we
> > already have wasted the space.
> >
>
> Ok, that's fair enough but it's also somewhat of a micro-optimisation as
> whether it helps or not depends on the architecture.
>
> I don't think I'll pick this up, certainly in the context of the bulk
> allocator but it's worth keeping in mind. It's an interesting corner case
> at least.

I fully agree. Lets drop this patch.

--
Best regards,
Jesper Dangaard Brouer
MSc.CS, Principal Kernel Engineer at Red Hat
LinkedIn: http://www.linkedin.com/in/brouer