From: Prashant Gaikwad <pgaikwad@nvidia.com>
To: linux-arm-kernel@lists.infradead.org
Subject: Re: Device tree binding for DVFS table
Date: Thu, 12 Jul 2012 04:20:48 +0000 [thread overview]
Message-ID: <4FFE4DD0.7020407@nvidia.com> (raw)
In-Reply-To: <4FFD87BD.2030206@gmail.com>
On Wednesday 11 July 2012 07:33 PM, Rob Herring wrote:
> On 07/11/2012 07:56 AM, Prashant Gaikwad wrote:
>> Hi,
>>
>> I am working on DT binding for Tegra DVFS.
>>
>> For Tegra, DVFS node mainly consists of frequency and voltage pairs.
>> Frequency in the pair may change for different process. E.g. for process
>> 1 CPU clock frequency could be 900MHz at 1V while for process 2 it could
>> be 1GHz at 1V.
>> Tegra uses vendor specific ids to identify the correct frequency table.
>>
>> Following is the proposed binding for voltage and frequency tables used
>> in DVFS. Looking for comments/suggestions to make it generic.
>>
>> ====DVFS table node=========>> This node defines the voltage configuration for the DVFS which includes
>> the regulator and voltage array.
>>
>> Required properties:
>>
>> reg_id :<regulator phandle>;
>> voltage-table :<voltage array, values in mV>;
>>
>> #address-cells and #size-cells : To identify correct frequency table
>> using process id (or some other vendor specific way).
>>
>> ====Frequency table node=======>>
>> This node defines frequency configuration for the device DVFS.
>>
>> Required properties:
>>
>> In device node need a reference to the DVFS table node.
>>
>> dvfs : the phandle for the DVFS table node
>>
>> frequency-table@n
>> reg =<n>; dependent on address-cells and size-cells in DVFS
>> table node.
>> frequencies =<frequency array, values in MHz>;
> You are storing u32 values, why limit the resolution to MHz.
>
> Put the unit in the property names.
>
Unit can be changed, will do it.
>> }
>>
>> Example:
>> -------------------------------------------------------------------------
>>
>> cpu-dvfs-table : dvfs-table {
> This should be located with the node that the frequencies correspond to.
>
With CAR node?
>> compatible = "nvidia,tegra30-dvfs-table";
>> reg_id =<&sm0>;
>> #address-cells =<1>;
>> #size-cells =<0>;
>> voltage-array =<750 775 800 825 850 875 900 925 950 975
>> 1000 1025 1050 1100 1125>;
> The SOC is really characterized at all these voltages?
Not really, but different processes of single SoC are characterized for
different voltages and this array covers all those voltages.
>> };
>>
>> device {
>> dvfs =<&cpu-dvfs-table>;
>> frequency-table@102 {
>> reg =<0x102>;
>> frequencies =<314 314 314 456 456 456 608 608 608
>> 760 817 817 912 1000>;
> I don't see the point of repeating frequencies.
>> };
>> frequency-table@002 {
>> reg =<0x002>;
>> frequencies =<598 598 750 750 893 893 1000>;
>> };
> How do you determine the voltage for a frequency on table 2?
>
> I'd expect a single property with freq/volt pairs or 2 properties for
> freq and voltage where there is a 1:1 relationship (freq N uses voltage N).
How this will work:
voltage-array =<750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1100 1125>
frequencies-1 =<314 314 314 456 456 456 608 608 608 760 817 817 912 1000>;
frequencies-2 =<598 598 750 750 893 893 1000>;
Freq and voltage has 1:1 relationship but as single voltage table is
used for different processes we have more entries in voltage table than
freq table.
Frequency table 1 is mapped till 1100mV while frequency table 2 is
mapped till 900mV only, it maintains 1:1 relationship.
About repeating frequencies, operating voltage for a frequency would be
the highest one mapped in the table.
For example, in frequency table 2 operating voltage for 750MHz would be
825mV while for 893MHz it would be 875mV. Unmapped entries could be
replaced with 0 to make reading better.
Advantage it provides is single voltage table used for multiple
frequency tables, as can be observed from above tables, operating
voltage for 314MHz in freq table 1 is 800mV while there is no frequency
in table 2 at that voltage.
I know this makes reading difficult but it provides flexibility,
I hope it explains the implementation.
> Rob
>
>> };
>>
>> Thanks& Regards,
>> Prashant G
>>
>> _______________________________________________
>> linux-arm-kernel mailing list
>> linux-arm-kernel@lists.infradead.org
>> http://lists.infradead.org/mailman/listinfo/linux-arm-kernel
>
WARNING: multiple messages have this Message-ID (diff)
From: pgaikwad@nvidia.com (Prashant Gaikwad)
To: linux-arm-kernel@lists.infradead.org
Subject: Device tree binding for DVFS table
Date: Thu, 12 Jul 2012 09:38:48 +0530 [thread overview]
Message-ID: <4FFE4DD0.7020407@nvidia.com> (raw)
In-Reply-To: <4FFD87BD.2030206@gmail.com>
On Wednesday 11 July 2012 07:33 PM, Rob Herring wrote:
> On 07/11/2012 07:56 AM, Prashant Gaikwad wrote:
>> Hi,
>>
>> I am working on DT binding for Tegra DVFS.
>>
>> For Tegra, DVFS node mainly consists of frequency and voltage pairs.
>> Frequency in the pair may change for different process. E.g. for process
>> 1 CPU clock frequency could be 900MHz at 1V while for process 2 it could
>> be 1GHz at 1V.
>> Tegra uses vendor specific ids to identify the correct frequency table.
>>
>> Following is the proposed binding for voltage and frequency tables used
>> in DVFS. Looking for comments/suggestions to make it generic.
>>
>> =======DVFS table node===================
>> This node defines the voltage configuration for the DVFS which includes
>> the regulator and voltage array.
>>
>> Required properties:
>>
>> reg_id :<regulator phandle>;
>> voltage-table :<voltage array, values in mV>;
>>
>> #address-cells and #size-cells : To identify correct frequency table
>> using process id (or some other vendor specific way).
>>
>> ========Frequency table node===============
>>
>> This node defines frequency configuration for the device DVFS.
>>
>> Required properties:
>>
>> In device node need a reference to the DVFS table node.
>>
>> dvfs : the phandle for the DVFS table node
>>
>> frequency-table at n
>> reg =<n>; dependent on address-cells and size-cells in DVFS
>> table node.
>> frequencies =<frequency array, values in MHz>;
> You are storing u32 values, why limit the resolution to MHz.
>
> Put the unit in the property names.
>
Unit can be changed, will do it.
>> }
>>
>> Example:
>> -------------------------------------------------------------------------
>>
>> cpu-dvfs-table : dvfs-table {
> This should be located with the node that the frequencies correspond to.
>
With CAR node?
>> compatible = "nvidia,tegra30-dvfs-table";
>> reg_id =<&sm0>;
>> #address-cells =<1>;
>> #size-cells =<0>;
>> voltage-array =<750 775 800 825 850 875 900 925 950 975
>> 1000 1025 1050 1100 1125>;
> The SOC is really characterized at all these voltages?
Not really, but different processes of single SoC are characterized for
different voltages and this array covers all those voltages.
>> };
>>
>> device {
>> dvfs =<&cpu-dvfs-table>;
>> frequency-table at 102 {
>> reg =<0x102>;
>> frequencies =<314 314 314 456 456 456 608 608 608
>> 760 817 817 912 1000>;
> I don't see the point of repeating frequencies.
>> };
>> frequency-table at 002 {
>> reg =<0x002>;
>> frequencies =<598 598 750 750 893 893 1000>;
>> };
> How do you determine the voltage for a frequency on table 2?
>
> I'd expect a single property with freq/volt pairs or 2 properties for
> freq and voltage where there is a 1:1 relationship (freq N uses voltage N).
How this will work:
voltage-array =<750 775 800 825 850 875 900 925 950 975 1000 1025 1050 1100 1125>
frequencies-1 =<314 314 314 456 456 456 608 608 608 760 817 817 912 1000>;
frequencies-2 =<598 598 750 750 893 893 1000>;
Freq and voltage has 1:1 relationship but as single voltage table is
used for different processes we have more entries in voltage table than
freq table.
Frequency table 1 is mapped till 1100mV while frequency table 2 is
mapped till 900mV only, it maintains 1:1 relationship.
About repeating frequencies, operating voltage for a frequency would be
the highest one mapped in the table.
For example, in frequency table 2 operating voltage for 750MHz would be
825mV while for 893MHz it would be 875mV. Unmapped entries could be
replaced with 0 to make reading better.
Advantage it provides is single voltage table used for multiple
frequency tables, as can be observed from above tables, operating
voltage for 314MHz in freq table 1 is 800mV while there is no frequency
in table 2 at that voltage.
I know this makes reading difficult but it provides flexibility,
I hope it explains the implementation.
> Rob
>
>> };
>>
>> Thanks& Regards,
>> Prashant G
>>
>> _______________________________________________
>> linux-arm-kernel mailing list
>> linux-arm-kernel at lists.infradead.org
>> http://lists.infradead.org/mailman/listinfo/linux-arm-kernel
>
next prev parent reply other threads:[~2012-07-12 4:20 UTC|newest]
Thread overview: 60+ messages / expand[flat|nested] mbox.gz Atom feed top
2012-07-11 12:56 Device tree binding for DVFS table Prashant Gaikwad
2012-07-11 13:08 ` Prashant Gaikwad
2012-07-11 14:03 ` Rob Herring
2012-07-11 14:03 ` Rob Herring
2012-07-11 14:44 ` Mark Brown
2012-07-11 14:44 ` Mark Brown
2012-07-11 20:04 ` Mike Turquette
2012-07-11 20:04 ` Mike Turquette
2012-07-12 4:14 ` Prashant Gaikwad
2012-07-12 4:26 ` Prashant Gaikwad
2012-07-12 14:10 ` Peter De Schrijver
2012-07-12 14:10 ` Peter De Schrijver
2012-07-12 17:10 ` Mike Turquette
2012-07-12 17:10 ` Mike Turquette
2012-07-12 17:15 ` Mark Brown
2012-07-12 17:15 ` Mark Brown
2012-07-13 10:34 ` Peter De Schrijver
2012-07-13 10:34 ` Peter De Schrijver
2012-07-13 17:25 ` Mike Turquette
2012-07-13 17:25 ` Mike Turquette
2012-07-12 4:17 ` Prashant Gaikwad
2012-07-12 4:29 ` Prashant Gaikwad
2012-07-12 15:23 ` Mark Brown
2012-07-12 15:23 ` Mark Brown
2012-07-12 17:01 ` Mike Turquette
2012-07-12 17:01 ` Mike Turquette
2012-07-12 8:19 ` Peter De Schrijver
2012-07-12 8:19 ` Peter De Schrijver
2012-07-12 4:08 ` Prashant Gaikwad [this message]
2012-07-12 4:20 ` Prashant Gaikwad
2012-07-13 18:30 ` Prashant Gaikwad
2012-07-13 18:42 ` Prashant Gaikwad
2012-07-15 21:40 ` Mark Brown
2012-07-15 21:40 ` Mark Brown
2012-07-15 23:42 ` Rob Herring
2012-07-15 23:42 ` Rob Herring
2012-07-16 18:36 ` Turquette, Mike
2012-07-16 18:36 ` Turquette, Mike
2012-07-17 12:37 ` Prashant Gaikwad
2012-07-17 12:49 ` Prashant Gaikwad
2012-07-17 13:20 ` Mark Brown
2012-07-17 13:20 ` Mark Brown
2012-07-17 14:22 ` Prashant Gaikwad
2012-07-17 14:34 ` Prashant Gaikwad
2012-07-17 14:37 ` Mark Brown
2012-07-17 14:37 ` Mark Brown
2012-07-18 12:46 ` Prashant Gaikwad
2012-07-18 12:58 ` Prashant Gaikwad
2012-07-18 21:19 ` Mark Brown
2012-07-18 21:19 ` Mark Brown
2012-07-18 17:08 ` Shawn Guo
2012-07-18 17:08 ` Shawn Guo
2012-07-11 13:08 함명주
2012-07-11 13:08 ` 함명주
2012-07-11 13:49 ` Peter De Schrijver
2012-07-11 13:49 ` Peter De Schrijver
2012-07-11 13:49 ` Peter De Schrijver
2012-07-11 13:49 ` Peter De Schrijver
2012-07-12 4:22 ` Prashant Gaikwad
2012-07-12 4:34 ` Prashant Gaikwad
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