Yu Zhao <yuzhao@xxxxxxxxxx> writes: > On Wed, Feb 23, 2022 at 1:28 AM Huang, Ying <ying.huang@xxxxxxxxx> wrote: >> >> Hi, Yu, >> >> Yu Zhao <yuzhao@xxxxxxxxxx> writes: >> >> > To avoid confusions, the terms "promotion" and "demotion" will be >> > applied to the multigenerational LRU, as a new convention; the terms >> > "activation" and "deactivation" will be applied to the active/inactive >> > LRU, as usual. >> >> In the memory tiering related commits and patchset, for example as follows, >> >> commit 668e4147d8850df32ca41e28f52c146025ca45c6 >> Author: Yang Shi <yang.shi@xxxxxxxxxxxxxxxxx> >> Date: Thu Sep 2 14:59:19 2021 -0700 >> >> mm/vmscan: add page demotion counter >> >> https://lore.kernel.org/linux-mm/20220221084529.1052339-1-ying.huang@xxxxxxxxx/ >> >> "demote" and "promote" is used for migrating pages between different >> types of memory. Is it better for us to avoid overloading these words >> too much to avoid the possible confusion? > > Given that LRU and migration are usually different contexts, I think > we'd be fine, unless we want a third pair of terms. This is true before memory tiering is introduced. In systems with multiple types memory (called memory tiering), LRU is used to identify pages to be migrated to the slow memory node. Please take a look at can_demote(), which is called in shrink_page_list(). >> > +static int get_swappiness(struct mem_cgroup *memcg) >> > +{ >> > + return mem_cgroup_get_nr_swap_pages(memcg) >= MIN_LRU_BATCH ? >> > + mem_cgroup_swappiness(memcg) : 0; >> > +} >> >> After we introduced demotion support in Linux kernel. The anonymous >> pages in the fast memory node could be demoted to the slow memory node >> via the page reclaiming mechanism as in the following commit. Can you >> consider that too? > > Sure. How do I check whether there is still space on the slow node? You can always check the watermark of the slow node. But now, we actually don't check that (as in demote_page_list()), instead we will wake up kswapd of the slow node. The intended behavior is something like, DRAM -> PMEM -> disk Best Regards, Huang, Ying