Message ID | 20231123133036.68540-1-gang.li@linux.dev (mailing list archive) |
---|---|
Headers | show |
Series | hugetlb: parallelize hugetlb page allocation on boot | expand |
> Inspired by these patches [1][2], this series aims to speed up the [1] https://lore.kernel.org/all/20200527173608.2885243-1-daniel.m.jordan@oracle.com/ [2] https://lore.kernel.org/all/20230906112605.2286994-1-usama.arif@bytedance.com/ > initialization of hugetlb during the boot process through > parallelization. >
On 23.11.23 14:30, Gang Li wrote: > From: Gang Li <ligang.bdlg@bytedance.com> > > Inspired by these patches [1][2], this series aims to speed up the > initialization of hugetlb during the boot process through > parallelization. > > It is particularly effective in large systems. On a machine equipped > with 1TB of memory and two NUMA nodes, the time for hugetlb > initialization was reduced from 2 seconds to 1 second. Sorry to say, but why is that a scenario worth adding complexity for / optimizing for? You don't cover that, so there is a clear lack in the motivation. 2 vs. 1 second on a 1 TiB system is usually really just noise.
On Thu, 23 Nov 2023, David Hildenbrand wrote: > On 23.11.23 14:30, Gang Li wrote: > > From: Gang Li <ligang.bdlg@bytedance.com> > > > > Inspired by these patches [1][2], this series aims to speed up the > > initialization of hugetlb during the boot process through > > parallelization. > > > > It is particularly effective in large systems. On a machine equipped > > with 1TB of memory and two NUMA nodes, the time for hugetlb > > initialization was reduced from 2 seconds to 1 second. > > Sorry to say, but why is that a scenario worth adding complexity for / > optimizing for? You don't cover that, so there is a clear lack in the > motivation. > > 2 vs. 1 second on a 1 TiB system is usually really just noise. > The cost will continue to grow over time, so I presume that Gang is trying to get out in front of the issue even though it may not be a large savings today. Running single boot tests, with the latest upstream kernel, allocating 1,440 1GB hugetlb pages on a 1.5TB AMD host appears to take 1.47s. But allocating 11,776 1GB hugetlb pages on a 12TB Intel host takes 65.2s today with the current implementation. So it's likely something worth optimizing. Gang, I'm curious about this in the cover letter: """ This series currently focuses on optimizing 2MB hugetlb. Since gigantic pages are few in number, their optimization effects are not as pronounced. We may explore optimizations for gigantic pages in the future. """ For >1TB hosts, why the emphasis on 2MB hugetlb? :) I would have expected 1GB pages. Are you really allocating ~500k 2MB hugetlb pages? So if the patchset optimizes for the more likely scenario on these large hosts, which would be 1GB pages, that would be great.
On 24.11.23 20:44, David Rientjes wrote: > On Thu, 23 Nov 2023, David Hildenbrand wrote: > >> On 23.11.23 14:30, Gang Li wrote: >>> From: Gang Li <ligang.bdlg@bytedance.com> >>> >>> Inspired by these patches [1][2], this series aims to speed up the >>> initialization of hugetlb during the boot process through >>> parallelization. >>> >>> It is particularly effective in large systems. On a machine equipped >>> with 1TB of memory and two NUMA nodes, the time for hugetlb >>> initialization was reduced from 2 seconds to 1 second. >> >> Sorry to say, but why is that a scenario worth adding complexity for / >> optimizing for? You don't cover that, so there is a clear lack in the >> motivation. >> >> 2 vs. 1 second on a 1 TiB system is usually really just noise. >> > > The cost will continue to grow over time, so I presume that Gang is trying > to get out in front of the issue even though it may not be a large savings > today. > > Running single boot tests, with the latest upstream kernel, allocating > 1,440 1GB hugetlb pages on a 1.5TB AMD host appears to take 1.47s. > > But allocating 11,776 1GB hugetlb pages on a 12TB Intel host takes 65.2s > today with the current implementation. And there, the 65.2s won't be noise because that 12TB system is up by a snap of a finger? :)
On Fri, 24 Nov 2023, David Hildenbrand wrote: > On 24.11.23 20:44, David Rientjes wrote: > > On Thu, 23 Nov 2023, David Hildenbrand wrote: > > > > > On 23.11.23 14:30, Gang Li wrote: > > > > From: Gang Li <ligang.bdlg@bytedance.com> > > > > > > > > Inspired by these patches [1][2], this series aims to speed up the > > > > initialization of hugetlb during the boot process through > > > > parallelization. > > > > > > > > It is particularly effective in large systems. On a machine equipped > > > > with 1TB of memory and two NUMA nodes, the time for hugetlb > > > > initialization was reduced from 2 seconds to 1 second. > > > > > > Sorry to say, but why is that a scenario worth adding complexity for / > > > optimizing for? You don't cover that, so there is a clear lack in the > > > motivation. > > > > > > 2 vs. 1 second on a 1 TiB system is usually really just noise. > > > > > > > The cost will continue to grow over time, so I presume that Gang is trying > > to get out in front of the issue even though it may not be a large savings > > today. > > > > Running single boot tests, with the latest upstream kernel, allocating > > 1,440 1GB hugetlb pages on a 1.5TB AMD host appears to take 1.47s. > > > > But allocating 11,776 1GB hugetlb pages on a 12TB Intel host takes 65.2s > > today with the current implementation. > > And there, the 65.2s won't be noise because that 12TB system is up by a snap > of a finger? :) > In this single boot test, total boot time was 373.78s, so 1GB hugetlb allocation is 17.4% of that. Would love to see what the numbers would look like if 1GB pages were supported.
On 2023/11/25 04:00, David Rientjes wrote: > On Fri, 24 Nov 2023, David Hildenbrand wrote: > >> And there, the 65.2s won't be noise because that 12TB system is up by a snap >> of a finger? :) >> > > In this single boot test, total boot time was 373.78s, so 1GB hugetlb > allocation is 17.4% of that. Thank you for sharing these data. Currently, I don't have access to a machine of such large capacity, so the benefits in my tests are not as pronounced. I believe testing on a system of this scale would yield significant benefits. > > Would love to see what the numbers would look like if 1GB pages were > supported. > Support for 1GB hugetlb is not yet perfect, so it wasn't included in v1. But I'm happy to refine and introduce 1GB hugetlb support in future versions.
Hi David Hildenbrand :), On 2023/11/23 22:10, David Hildenbrand wrote: > Sorry to say, but why is that a scenario worth adding complexity for / > optimizing for? You don't cover that, so there is a clear lack in the > motivation. Regarding your concern about complexity, this is indeed something to consider. There is a precedent of parallelization in pgdata[1] which might be reused (or other methods) to reduce the complexity of this series. [1] https://lore.kernel.org/all/20200527173608.2885243-1-daniel.m.jordan@oracle.com/
On 28.11.23 07:52, Gang Li wrote: > Hi David Hildenbrand :), > > On 2023/11/23 22:10, David Hildenbrand wrote: >> Sorry to say, but why is that a scenario worth adding complexity for / >> optimizing for? You don't cover that, so there is a clear lack in the >> motivation. > > Regarding your concern about complexity, this is indeed something to > consider. There is a precedent of parallelization in pgdata[1] which > might be reused (or other methods) to reduce the complexity of this > series. Yes, please!
On Tue, 28 Nov 2023, Gang Li wrote: > > > > > And there, the 65.2s won't be noise because that 12TB system is up by a > > > snap > > > of a finger? :) > > > > > > > In this single boot test, total boot time was 373.78s, so 1GB hugetlb > > allocation is 17.4% of that. > > Thank you for sharing these data. Currently, I don't have access to a machine > of such large capacity, so the benefits in my tests are not as pronounced. > > I believe testing on a system of this scale would yield significant benefits. > > > > > Would love to see what the numbers would look like if 1GB pages were > > supported. > > > > Support for 1GB hugetlb is not yet perfect, so it wasn't included in v1. But > I'm happy to refine and introduce 1GB hugetlb support in future versions. > That would be very appreciated, thank you! I'm happy to test and collect data for any proposed patch series on 12TB systems booted with a lot of 1GB hugetlb pages on the kernel command line.
From: Gang Li <ligang.bdlg@bytedance.com> Inspired by these patches [1][2], this series aims to speed up the initialization of hugetlb during the boot process through parallelization. It is particularly effective in large systems. On a machine equipped with 1TB of memory and two NUMA nodes, the time for hugetlb initialization was reduced from 2 seconds to 1 second. In the future, as memory continues to grow, more and more time can be saved. This series currently focuses on optimizing 2MB hugetlb. Since gigantic pages are few in number, their optimization effects are not as pronounced. We may explore optimizations for gigantic pages in the future. Thanks, Gang Li Gang Li (4): hugetlb: code clean for hugetlb_hstate_alloc_pages hugetlb: split hugetlb_hstate_alloc_pages hugetlb: add timing to hugetlb allocations on boot hugetlb: parallelize hugetlb page allocation mm/hugetlb.c | 191 ++++++++++++++++++++++++++++++++++++--------------- 1 file changed, 134 insertions(+), 57 deletions(-)