Re: [f2fs-dev] [PATCH] f2fs: change virtual mapping way for compression pages

From: Chao Yu
Date: Tue Aug 11 2020 - 21:51:12 EST


On 2020/8/11 19:31, Daeho Jeong wrote:
Plus, differently from your testbed, in my pixel device, there seems
to be much more contention in vmap() operation.
If it's not there, I agree that there might not be a big difference
between vmap() and vm_map_ram().

2020년 8월 11일 (화) 오후 8:29, Gao Xiang <hsiangkao@xxxxxxxxxx>님이 작성:

On Tue, Aug 11, 2020 at 08:21:23PM +0900, Daeho Jeong wrote:
Sure, I'll update the test condition as you said in the commit message.
FYI, the test is done with 16kb chunk and Pixel 3 (arm64) device.

Yeah, anyway, it'd better to lock the freq and offline the little
cores in your test as well (it'd make more sense). e.g. if 16k cluster

I'm not against this commit, but could you please try to adjust cpufreq to
fixed value and offline little or big core, so that we can supply fair test
environment during test, I just wonder that in such environment, how much we
can improve the performance with vm_map_ram().

is applied, even all data is zeroed, the count of vmap/vm_map_ram
isn't hugeous (and as you said, "sometimes, it has a very long delay",
it's much like another scheduling concern as well).

Anyway, I'm not against your commit but the commit message is a bit
of unclear. At least, if you think that is really the case, I'm ok
with that.

Thanks,
Gao Xiang


Thanks,

2020년 8월 11� (화) 오후 7:18, Gao Xiang <hsiangkao@xxxxxxxxxx>님� 작성:

On Tue, Aug 11, 2020 at 06:33:26PM +0900, Daeho Jeong wrote:
Plus, when we use vmap(), vmap() normally executes in a short time
like vm_map_ram().
But, sometimes, it has a very long delay.

2020년 8� 11� (�) 오후 6:28, Daeho Jeong <daeho43@xxxxxxxxx>님� 작성:

Actually, as you can see, I use the whole zero data blocks in the test file.
It can maximize the effect of changing virtual mapping.
When I use normal files which can be compressed about 70% from the
original file,
The vm_map_ram() version is about 2x faster than vmap() version.

What f2fs does is much similar to btrfs compression. Even if these
blocks are all zeroed. In principle, the maximum compression ratio
is determined (cluster sized blocks into one compressed block, e.g
16k cluster into one compressed block).

So it'd be better to describe your configured cluster size (16k or
128k) and your hardware information in the commit message as well.

Actually, I also tried with this patch as well on my x86 laptop just
now with FIO (I didn't use zeroed block though), and I didn't notice
much difference with turbo boost off and maxfreq.

I'm not arguing this commit, just a note about this commit message.
1048576000 bytes (0.9 G) copied, 9.146217 s, 109 M/s
1048576000 bytes (0.9 G) copied, 9.997542 s, 100 M/s
1048576000 bytes (0.9 G) copied, 10.109727 s, 99 M/s

IMHO, the above number is much like decompressing in the arm64 little cores.

Thanks,
Gao Xiang



2020년 8� 11� (�) 오후 4:55, Chao Yu <yuchao0@xxxxxxxxxx>님� 작성:

On 2020/8/11 15:15, Gao Xiang wrote:
On Tue, Aug 11, 2020 at 12:37:53PM +0900, Daeho Jeong wrote:
From: Daeho Jeong <daehojeong@xxxxxxxxxx>

By profiling f2fs compression works, I've found vmap() callings are
bottlenecks of f2fs decompression path. Changing these with
vm_map_ram(), we can enhance f2fs decompression speed pretty much.

[Verification]
dd if=/dev/zero of=dummy bs=1m count=1000
echo 3 > /proc/sys/vm/drop_caches
dd if=dummy of=/dev/zero bs=512k

- w/o compression -
1048576000 bytes (0.9 G) copied, 1.999384 s, 500 M/s
1048576000 bytes (0.9 G) copied, 2.035988 s, 491 M/s
1048576000 bytes (0.9 G) copied, 2.039457 s, 490 M/s

- before patch -
1048576000 bytes (0.9 G) copied, 9.146217 s, 109 M/s
1048576000 bytes (0.9 G) copied, 9.997542 s, 100 M/s
1048576000 bytes (0.9 G) copied, 10.109727 s, 99 M/s

- after patch -
1048576000 bytes (0.9 G) copied, 2.253441 s, 444 M/s
1048576000 bytes (0.9 G) copied, 2.739764 s, 365 M/s
1048576000 bytes (0.9 G) copied, 2.185649 s, 458 M/s

Indeed, vmap() approach has some impact on the whole
workflow. But I don't think the gap is such significant,
maybe it relates to unlocked cpufreq (and big little
core difference if it's on some arm64 board).

Agreed,

I guess there should be other reason causing the large performance
gap, scheduling, frequency, or something else.




_______________________________________________
Linux-f2fs-devel mailing list
Linux-f2fs-devel@xxxxxxxxxxxxxxxxxxxxx
https://lists.sourceforge.net/lists/listinfo/linux-f2fs-devel
.





.