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    SubjectRe: [PATCH V2 0/6] PM / Domains: Implement domain performance states
    On 17-02-17, 15:22, Kevin Hilman wrote:
    > Viresh Kumar <viresh.kumar@linaro.org> writes:
    >
    > > An earlier series[1] tried to implement bindings for PM domain
    > > performance states. Rob Herring suggested that we can actually merge the
    > > supporting code first instead of bindings, as that will make things
    > > easier to understand for all. The bindings can be decided and merged
    > > later.
    > >
    > > The bindings [1] aren't discarded yet and this series is based on a
    > > version of those only. The bindings are only used by the last patch,
    > > which should not be applied and is only sent for completeness.
    > >
    > > IOW, this series doesn't have any dependencies and can be merged
    > > straight away without waiting for the DT bindings.
    > >
    > > A brief summary of the problem this series is trying to solve:
    > >
    > > Some platforms have the capability to configure the performance state of
    > > their Power Domains. The performance levels are represented by positive
    > > integer values, a lower value represents lower performance state.
    >
    > And what about domains where the performance levels are represented by
    > someting other than positive integer values?

    The V2 bindings were modified to take that into account:

    https://marc.info/?l=linux-kernel&m=148154021427727&w=2

    Copying an example from it:

    + domain_perf_state1: pstate@1 {
    + performance-level = <1>;
    + domain-microvolt = <970000 975000 985000>;
    + };

    The above node describes one performance state for the power domain.
    This node can have any number of configurables depending on the
    individual platforms. The performance-level is the integer number we
    have been talking about in this series, which can be used in all the
    calculations to differentiate between different levels.

    The final code in the generic PM layer will end up calling
    set_performance_state(performance-level); Now the drivers can go find
    a corresponding node to find different configurables like
    domain-microvolt, etc and configure the hardware. Or in simple cases,
    like Qcom, the performance-level can be used directly without
    referring to the node.

    Consider the 'performance-level' field as the 'opp-hz' field in the
    OPP tables which is used to distinguish lower/higher OPPs. Just that
    we will not always have a frequency here and so an integer value.

    > IMO, this implementation should start with a more generic approach
    > (e.g. OPPs) that would be useful on more SoCs that just qcom.

    I agree with that opinion. Perhaps things became a bit confusing as
    the bindings were sent separately earlier and the code followed
    separately. Also not everything was finished here to follow proper
    bindings. Like the generic helpers weren't introduced yet to parse the
    nodes like domain_perf_state1.

    > For SoCs
    > like QCOM, you could use dummy/simplfied OPPs that represent the integer
    > values passed to the qcom firmware.

    I am not sure if reusing OPPs here would be a good choice. I would
    rather have separate nodes like what I defined earlier.

    In the next version I will try to send all things together and try to
    close all the open ends..

    --
    viresh

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