On Tue, Apr 14, 2020 at 06:18:29PM +0300, Dmitry Osipenko wrote: > 14.04.2020 17:34, Thierry Reding пишет: > > On Thu, Apr 09, 2020 at 09:24:31PM +0300, Dmitry Osipenko wrote: > >> 09.04.2020 20:52, Thierry Reding пишет: > >> ... > >>> +static long tegra210_clk_emc_round_rate(struct clk_hw *hw, unsigned long rate, > >>> + unsigned long *prate) > >>> +{ > >>> + struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw); > >>> + struct tegra210_clk_emc_provider *provider = emc->provider; > >>> + unsigned int i; > >>> + > >>> + if (!provider || !provider->configs || provider->num_configs == 0) > >>> + return clk_hw_get_rate(hw); > >> > >> This still looks wrong to me. Nobody should be able to get EMC clock > >> until provider is registered. > > > > The EMC clock is mostly orthogonal to the provider. The provider really > > only allows you to actually change the frequency. The clock will still > > remain even if the provider goes away, it just will loose the ability to > > change rate. > > It's not only about changing the clock rate, but also about rounding the > rate and etc. The code will currently just return the configured rate when no provider is available. It's going to always round to that one rate and it will refuse to set another one. The EMC clock is basically going to function as a fixed clock while no provider is attached. > Besides, you won't be able to change the rate until provider is > registered, which might be a quite big problem by itself. Until the provider is registered, there's just no way to change the rate. You always need to write MC and EMC registers in order to change the rate, so trying to change it when the MC/EMC drivers aren't available isn't going to work. > >> This is troublesome, especially given that you're allowing the EMC > >> driver to be compiled as a loadable module. For example, this won't work > >> with the current ACTMON driver because it builds OPP table based on the > >> clk-rate rounding during the driver's probe, so it won't be able to do > >> it properly if provider is "temporarily" missing. > >> > >> ... I think that in a longer run we should stop manually building the > >> ACTMON's OPP table and instead define a proper OPP table (per-HW Speedo > >> ID, with voltages) in a device-tree. But this is just a vague plans for > >> the future for now. > > > > This code only applies to Tegra210 and we don't currently support ACTMON > > on Tegra210. I'm also not sure we'll ever do because using interconnects > > to describe paths to system memory and then using ICC requests for each > > driver to submit memory bandwidth requests seems like a better way of > > dealing with this problem than using ACTMON to monitor activity because > > that only allows you to react, whereas we really want to be able to > > allocate memory bandwidth upfront. > > You absolutely have to have the ACTMON support if you want to provide a > good user experience because interconnect won't take into account the > dynamic CPU memory traffic. Without ACTMON support CPU will turn into a > "turtle" if memory runs on a lowest freq, while CPU needs the highest. Can we not guess a bandwidth based on the CPU frequency? Yes, that's perhaps going to be an overestimation if the CPU doesn't actually access memory, but that's better than nothing at all. Also, at this point I'm less worried about power consumption rather than making Tegra210 devices perform useful tasks. Yes, eventually we'll want to fine-tune power consumption, but it's going to take a bit of work to get there. In the meantime, giving people a way to set an EMC frequency other than that set on boot is going to make them very happy. > Secondly, the interconnect could underestimate the memory BW requirement > because memory performance depends quite a lot on the memory-accessing > patterns and it's not possible to predict it properly. Otherwise you may > need to always overestimate the BW, which perhaps is not what anyone > would really want to have. Overestimating might be a good starting point, though. At this point I'm mostly concerned about being able to change the memory frequency at all because many systems are mostly unusable at the boot EMC frequency. Like I said, if ACTMON really does prove to be useful I'm all for adding support on Tegra210, but I don't think trying to do everything all at once is a very good plan. So I'm trying to get there in incremental steps. > I'm not sure why you're resisting to do it all properly from the start, > it looks to me that it will take you just a few lines of code (like in a > case of the T20/30 EMC). I'm not trying to resist anything. I'm just saying that all of the issues that you're bringing up aren't an immediate concern. My main concerns right now are to: a) allow people to change the EMC frequency (and hopefully soon also allow the EMC frequency to be changed based on bandwidth demands by memory client drivers) and b) not bloat the kernel more than it has to (while my configuration isn't tweaked, it's pretty standard and the resulting image is roughly 20 MiB; adding the Tegra210 EMC driver adds another 64 KiB). And if we really do want to add ACTMON support later on, you already suggested a better way of moving forward, so it sounds to me like that would be a nice incremental improvement, certainly much better than bloating the kernel even further by requiring this to be built-in and preventing it from being unloaded. Thierry
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