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Elixir Cross Referencer

Qualcomm RPM/RPMh Power domains

For RPM/RPMh Power domains, we communicate a performance state to RPM/RPMh
which then translates it into a corresponding voltage on a rail

Required Properties:
 - compatible: Should be one of the following
	* qcom,msm8996-rpmpd: RPM Power domain for the msm8996 family of SoC
	* qcom,msm8998-rpmpd: RPM Power domain for the msm8998 family of SoC
	* qcom,qcs404-rpmpd: RPM Power domain for the qcs404 family of SoC
	* qcom,sdm845-rpmhpd: RPMh Power domain for the sdm845 family of SoC
 - #power-domain-cells: number of cells in Power domain specifier
	must be 1.
 - operating-points-v2: Phandle to the OPP table for the Power domain.
	Refer to Documentation/devicetree/bindings/power/power_domain.txt
	and Documentation/devicetree/bindings/opp/opp.txt for more details

Refer to <dt-bindings/power/qcom-rpmpd.h> for the level values for
various OPPs for different platforms as well as Power domain indexes

Example: rpmh power domain controller and OPP table

#include <dt-bindings/power/qcom-rpmhpd.h>

opp-level values specified in the OPP tables for RPMh power domains
should use the RPMH_REGULATOR_LEVEL_* constants from
<dt-bindings/power/qcom-rpmhpd.h>

	rpmhpd: power-controller {
		compatible = "qcom,sdm845-rpmhpd";
		#power-domain-cells = <1>;
		operating-points-v2 = <&rpmhpd_opp_table>;

		rpmhpd_opp_table: opp-table {
			compatible = "operating-points-v2";

			rpmhpd_opp_ret: opp1 {
				opp-level = <RPMH_REGULATOR_LEVEL_RETENTION>;
			};

			rpmhpd_opp_min_svs: opp2 {
				opp-level = <RPMH_REGULATOR_LEVEL_MIN_SVS>;
			};

			rpmhpd_opp_low_svs: opp3 {
				opp-level = <RPMH_REGULATOR_LEVEL_LOW_SVS>;
			};

			rpmhpd_opp_svs: opp4 {
				opp-level = <RPMH_REGULATOR_LEVEL_SVS>;
			};

			rpmhpd_opp_svs_l1: opp5 {
				opp-level = <RPMH_REGULATOR_LEVEL_SVS_L1>;
			};

			rpmhpd_opp_nom: opp6 {
				opp-level = <RPMH_REGULATOR_LEVEL_NOM>;
			};

			rpmhpd_opp_nom_l1: opp7 {
				opp-level = <RPMH_REGULATOR_LEVEL_NOM_L1>;
			};

			rpmhpd_opp_nom_l2: opp8 {
				opp-level = <RPMH_REGULATOR_LEVEL_NOM_L2>;
			};

			rpmhpd_opp_turbo: opp9 {
				opp-level = <RPMH_REGULATOR_LEVEL_TURBO>;
			};

			rpmhpd_opp_turbo_l1: opp10 {
				opp-level = <RPMH_REGULATOR_LEVEL_TURBO_L1>;
			};
		};
	};

Example: rpm power domain controller and OPP table

	rpmpd: power-controller {
		compatible = "qcom,msm8996-rpmpd";
		#power-domain-cells = <1>;
		operating-points-v2 = <&rpmpd_opp_table>;

		rpmpd_opp_table: opp-table {
			compatible = "operating-points-v2";

			rpmpd_opp_low: opp1 {
				opp-level = <1>;
			};

			rpmpd_opp_ret: opp2 {
				opp-level = <2>;
			};

			rpmpd_opp_svs: opp3 {
				opp-level = <3>;
			};

			rpmpd_opp_normal: opp4 {
				opp-level = <4>;
			};

			rpmpd_opp_high: opp5 {
				opp-level = <5>;
			};

			rpmpd_opp_turbo: opp6 {
				opp-level = <6>;
			};
		};
	};

Example: Client/Consumer device using OPP table

	leaky-device0@12350000 {
		compatible = "foo,i-leak-current";
		reg = <0x12350000 0x1000>;
		power-domains = <&rpmhpd SDM845_MX>;
		operating-points-v2 = <&leaky_opp_table>;
	};


	leaky_opp_table: opp-table {
		compatible = "operating-points-v2";

		opp1 {
			opp-hz = /bits/ 64 <144000>;
			required-opps = <&rpmhpd_opp_low>;
		};

		opp2 {
			opp-hz = /bits/ 64 <400000>;
			required-opps = <&rpmhpd_opp_ret>;
		};

		opp3 {
			opp-hz = /bits/ 64 <20000000>;
			required-opps = <&rpmpd_opp_svs>;
		};

		opp4 {
			opp-hz = /bits/ 64 <25000000>;
			required-opps = <&rpmpd_opp_normal>;
		};
	};