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SubjectRe: [PATCH 03/11] readahead: bump up the default readahead size
This is related to our discussion from October 09 e.g. 
http://lkml.indiana.edu/hypermail/linux/kernel/0910.1/01468.html

I work for s390 where - as mainframe - we only have environments that
benefit from 512k readahead, but I still expect some embedded devices won't.
While my idea of making it configurable was not liked in the past, it
may be still useful when introducing this default change to let some
small devices choose without patching the src (a number field defaulting
to 512 and explaining the past of that value would be really nice).

For the discussion of 512 vs. 128 I can add from my measurements that I
have seen the following:
- 512 is by far superior to 128 for sequential reads
- improvements with iozone sequential read scaling from 1 to 64 parallel
processes up to +35%
- readahead sizes larger than 512 reevealed to not be "more useful" but
increasing the chance of trashing in low mem systems

So I appreciate this change with a little note that I would prefer a
config option.
-> tested & acked-by Christian Ehrhardt <ehrhardt@linux.vnet.ibm.com>

Wu Fengguang wrote:
>
> Use 512kb max readahead size, and 32kb min readahead size.
>
> The former helps io performance for common workloads.
> The latter will be used in the thrashing safe context readahead.
>
> -- Rationals on the 512kb size --
>
> I believe it yields more I/O throughput without noticeably increasing
> I/O latency for today's HDD.
>
> For example, for a 100MB/s and 8ms access time HDD, its random IO or
> highly concurrent sequential IO would in theory be:
>
> io_size KB access_time transfer_time io_latency util%
throughput KB/s
> 4 8 0.04 8.04 0.49% 497.57
> 8 8 0.08 8.08 0.97% 990.33
> 16 8 0.16 8.16 1.92% 1961.69
> 32 8 0.31 8.31 3.76% 3849.62
> 64 8 0.62 8.62 7.25% 7420.29
> 128 8 1.25 9.25 13.51% 13837.84
> 256 8 2.50 10.50 23.81% 24380.95
> 512 8 5.00 13.00 38.46% 39384.62
> 1024 8 10.00 18.00 55.56% 56888.89
> 2048 8 20.00 28.00 71.43% 73142.86
> 4096 8 40.00 48.00 83.33% 85333.33
>
> The 128KB => 512KB readahead size boosts IO throughput from ~13MB/s to
> ~39MB/s, while merely increases (minimal) IO latency from 9.25ms to 13ms.
>
> As for SSD, I find that Intel X25-M SSD desires large readahead size
> even for sequential reads:
>
> rasize 1st run 2nd run
> ----------------------------------
> 4k 123 MB/s 122 MB/s
> 16k 153 MB/s 153 MB/s
> 32k 161 MB/s 162 MB/s
> 64k 167 MB/s 168 MB/s
> 128k 197 MB/s 197 MB/s
> 256k 217 MB/s 217 MB/s
> 512k 238 MB/s 234 MB/s
> 1M 251 MB/s 248 MB/s
> 2M 259 MB/s 257 MB/s
> 4M 269 MB/s 264 MB/s
> 8M 266 MB/s 266 MB/s
>
> The two other impacts of an enlarged readahead size are
>
> - memory footprint (caused by readahead miss)
> Sequential readahead hit ratio is pretty high regardless of max
> readahead size; the extra memory footprint is mainly caused by
> enlarged mmap read-around.
> I measured my desktop:
> - under Xwindow:
> 128KB readahead hit ratio = 143MB/230MB = 62%
> 512KB readahead hit ratio = 138MB/248MB = 55%
> 1MB readahead hit ratio = 130MB/253MB = 51%
> - under console: (seems more stable than the Xwindow data)
> 128KB readahead hit ratio = 30MB/56MB = 53%
> 1MB readahead hit ratio = 30MB/59MB = 51%
> So the impact to memory footprint looks acceptable.
>
> - readahead thrashing
> It will now cost 1MB readahead buffer per stream. Memory tight
> systems typically do not run multiple streams; but if they do
> so, it should help I/O performance as long as we can avoid
> thrashing, which can be achieved with the following patches.
>
> -- Benchmarks by Vivek Goyal --
>
> I have got two paths to the HP EVA and got multipath device setup(dm-3).
> I run increasing number of sequential readers. File system is ext3 and
> filesize is 1G.
> I have run the tests 3 times (3sets) and taken the average of it.
>
> Workload=bsr iosched=cfq Filesz=1G bs=32K
> ======================================================================
> 2.6.33-rc5 2.6.33-rc5-readahead
> job Set NR ReadBW(KB/s) MaxClat(us) ReadBW(KB/s) MaxClat(us)
> --- --- -- ------------ ----------- ------------ -----------
> bsr 3 1 141768 130965 190302 97937.3
> bsr 3 2 131979 135402 185636 223286
> bsr 3 4 132351 420733 185986 363658
> bsr 3 8 133152 455434 184352 428478
> bsr 3 16 130316 674499 185646 594311
>
> I ran same test on a different piece of hardware. There are few SATA
disks
> (5-6) in striped configuration behind a hardware RAID controller.
>
> Workload=bsr iosched=cfq Filesz=1G bs=32K
> ======================================================================
> 2.6.33-rc5 2.6.33-rc5-readahead
> job Set NR ReadBW(KB/s) MaxClat(us) ReadBW(KB/s)
MaxClat(us)
> --- --- -- ------------ ----------- ------------
-----------
> bsr 3 1 147569 14369.7 160191
22752
> bsr 3 2 124716 243932 149343
184698
> bsr 3 4 123451 327665 147183
430875
> bsr 3 8 122486 455102 144568
484045
> bsr 3 16 117645 1.03957e+06 137485
1.06257e+06
>
> Tested-by: Vivek Goyal <vgoyal@redhat.com>
> CC: Jens Axboe <jens.axboe@oracle.com>
> CC: Chris Mason <chris.mason@oracle.com>
> CC: Peter Zijlstra <a.p.zijlstra@chello.nl>
> CC: Martin Schwidefsky <schwidefsky@de.ibm.com>
> CC: Christian Ehrhardt <ehrhardt@linux.vnet.ibm.com>
> Signed-off-by: Wu Fengguang <fengguang.wu@intel.com>
> ---
> include/linux/mm.h | 4 ++--
> 1 file changed, 2 insertions(+), 2 deletions(-)
>
> --- linux.orig/include/linux/mm.h 2010-01-30 17:38:49.000000000 +0800
> +++ linux/include/linux/mm.h 2010-01-30 18:09:58.000000000 +0800
> @@ -1184,8 +1184,8 @@ int write_one_page(struct page *page, in
> void task_dirty_inc(struct task_struct *tsk);
>
> /* readahead.c */
> -#define VM_MAX_READAHEAD 128 /* kbytes */
> -#define VM_MIN_READAHEAD 16 /* kbytes (includes current page) */
> +#define VM_MAX_READAHEAD 512 /* kbytes */
> +#define VM_MIN_READAHEAD 32 /* kbytes (includes current page) */

> int force_page_cache_readahead(struct address_space *mapping, struct
file *filp,
> pgoff_t offset, unsigned long nr_to_read);
>
>

--

Grüsse / regards, Christian Ehrhardt
IBM Linux Technology Center, Open Virtualization

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