On 06/18/2014 04:19 PM, Stéphane Marchesin wrote:
> On Wed, Jun 18, 2014 at 3:00 PM, Thierry Reding
> <thierry.reding@xxxxxxxxx> wrote:
>> On Wed, Jun 18, 2014 at 07:23:47PM +0200, Tomeu Vizoso wrote:
>>> On 06/17/2014 06:15 PM, Stephen Warren wrote:
>>>> On 06/17/2014 06:16 AM, Tomeu Vizoso wrote:
>>>>> On 06/16/2014 10:02 PM, Stephen Warren wrote:
>>>>>> On 06/16/2014 07:35 AM, Tomeu Vizoso wrote:
>>>>>>> +#ifdef CONFIG_TEGRA124_EMC
>>>>>>> +int tegra124_emc_reserve_bandwidth(unsigned int consumer, unsigned
>>>>>>> long rate);
>>>>>>> +void tegra124_emc_set_floor(unsigned long freq);
>>>>>>> +void tegra124_emc_set_ceiling(unsigned long freq);
>>>>>>> +#else
>>>>>>> +int tegra124_emc_reserve_bandwidth(unsigned int consumer, unsigned
>>>>>>> long rate)
>>>>>>> +{ return -ENODEV; }
>>>>>>> +void tegra124_emc_set_floor(unsigned long freq)
>>>>>>> +{ return; }
>>>>>>> +void tegra124_emc_set_ceiling(unsigned long freq)
>>>>>>> +{ return; }
>>>>>>> +#endif
>>>>>>
>>>>>> I'll repeat what I said off-list so that we can have the whole
>>>>>> conversation on the list:
>>>>>>
>>>>>> That looks like a custom Tegra-specific API. I think it'd be much better
>>>>>> to integrate this into the common clock framework as a standard clock
>>>>>> constraints API. There are other use-cases for clock constraints besides
>>>>>> EMC scaling (e.g. some in audio on Tegra, and I'm sure many on other
>>>>>> SoCs too).
>>>>>
>>>>> Yes, I wrote a bit in the cover letter about our requirements and how
>>>>> they map to the CCF. Could you please comment on that?
>>>>
>>>> My comments remain the same. I believe this is something that belongs in
>>>> the clock driver, or at the least, some API that takes a struct clock as
>>>> its parameter, so that drivers can use the existing DT clock lookup
>>>> mechanism.
>>>
>>> Ok, let me put this strawman here to see if I have gotten close to what you
>>> have in mind:
>>>
>>> * add per-client accounting (Rabin's patches referenced before)
>>>
>>> * add clk_set_floor, to be used by cpufreq, load stats, etc.
>>>
>>> * add clk_set_ceiling, to be used by battery drivers, thermal, etc.
>>>
>>> * an EMC driver would collect bandwidth and latency requests from consumers
>>> and call clk_set_floor on the EMC clock.
>>>
>>> * the EMC driver would also register for rate change notifications in the
>>> EMC clock and would update the latency allowance registers at that point.
>>
>> Latency allowance registers are part of the MC rather than the EMC. So I
>> think we have two options: a) have a unified driver for MC and EMC or b)
>> provide two parts of the API in two drivers.
>>
>> Or perhaps c), create a generic framework that both MC and EMC can
>> register with (bandwidth for EMC, latency for MC).
>
> Is there any motivation for keeping MC and EMC separate? In my mind,
> the solution was always to handle those together.
Well, they are documented as being separate HW modules in the TRM.
I know there's an interlock in HW so that when the EMC clock is changed,
the EMC registers can flip atomically to a new configuration.
I'm not aware of any similar HW interlock between MC and EMC registers.
That would imply that very tight co-ordination shouldn't be required.
Do the MC latency allowance registers /really/ need to be *very tightly*
managed whenever the EMC clock is changed, or is it just a matter of it
being a good idea to update EMC clock and MC latency allowance registers
at roughly the same time? Even if there's some co-ordination required,
maybe it can be handled rather like cpufreq notifications; use clock
pre-rate change notifications to set MC up in a way that'll work at both
old/new EMC clocks, and then clock post-rate notifications to the final
MC configuration?
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