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Qualcomm Technologies, Inc. CPUFREQ Bindings
CPUFREQ HW is a hardware engine used by some Qualcomm Technologies, Inc. (QTI)
SoCs to manage frequency in hardware. It is capable of controlling frequency
for multiple clusters.
Properties:
- compatible
Usage: required
Value type: <string>
Definition: must be "qcom,cpufreq-hw" or "qcom,cpufreq-epss".
- clocks
Usage: required
Value type: <phandle> From common clock binding.
Definition: clock handle for XO clock and GPLL0 clock.
- clock-names
Usage: required
Value type: <string> From common clock binding.
Definition: must be "xo", "alternate".
- reg
Usage: required
Value type: <prop-encoded-array>
Definition: Addresses and sizes for the memory of the HW bases in
each frequency domain.
- reg-names
Usage: Optional
Value type: <string>
Definition: Frequency domain name i.e.
"freq-domain0", "freq-domain1".
- #freq-domain-cells:
Usage: required.
Definition: Number of cells in a freqency domain specifier.
* Property qcom,freq-domain
Devices supporting freq-domain must set their "qcom,freq-domain" property with
phandle to a cpufreq_hw followed by the Domain ID(0/1) in the CPU DT node.
Example:
Example 1: Dual-cluster, Quad-core per cluster. CPUs within a cluster switch
DCVS state together.
/ {
cpus {
#address-cells = <2>;
#size-cells = <0>;
CPU0: cpu@0 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x0>;
enable-method = "psci";
next-level-cache = <&L2_0>;
qcom,freq-domain = <&cpufreq_hw 0>;
L2_0: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
L3_0: l3-cache {
compatible = "cache";
};
};
};
CPU1: cpu@100 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x100>;
enable-method = "psci";
next-level-cache = <&L2_100>;
qcom,freq-domain = <&cpufreq_hw 0>;
L2_100: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU2: cpu@200 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x200>;
enable-method = "psci";
next-level-cache = <&L2_200>;
qcom,freq-domain = <&cpufreq_hw 0>;
L2_200: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU3: cpu@300 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x300>;
enable-method = "psci";
next-level-cache = <&L2_300>;
qcom,freq-domain = <&cpufreq_hw 0>;
L2_300: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU4: cpu@400 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x400>;
enable-method = "psci";
next-level-cache = <&L2_400>;
qcom,freq-domain = <&cpufreq_hw 1>;
L2_400: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU5: cpu@500 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x500>;
enable-method = "psci";
next-level-cache = <&L2_500>;
qcom,freq-domain = <&cpufreq_hw 1>;
L2_500: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU6: cpu@600 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x600>;
enable-method = "psci";
next-level-cache = <&L2_600>;
qcom,freq-domain = <&cpufreq_hw 1>;
L2_600: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
CPU7: cpu@700 {
device_type = "cpu";
compatible = "qcom,kryo385";
reg = <0x0 0x700>;
enable-method = "psci";
next-level-cache = <&L2_700>;
qcom,freq-domain = <&cpufreq_hw 1>;
L2_700: l2-cache {
compatible = "cache";
next-level-cache = <&L3_0>;
};
};
};
soc {
cpufreq_hw: cpufreq@17d43000 {
compatible = "qcom,cpufreq-hw";
reg = <0x17d43000 0x1400>, <0x17d45800 0x1400>;
reg-names = "freq-domain0", "freq-domain1";
clocks = <&rpmhcc RPMH_CXO_CLK>, <&gcc GPLL0>;
clock-names = "xo", "alternate";
#freq-domain-cells = <1>;
};
}
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