Documentation/devicetree/bindings/arm/cpus.txt - pub/scm/linux/kernel/git/jejb/binfmt_misc - Git at Google

 =================
 ARM CPUs bindings
 =================

 The device tree allows to describe the layout of CPUs in a system through
 the "cpus" node, which in turn contains a number of subnodes (ie "cpu")
 defining properties for every cpu.

 Bindings for CPU nodes follow the ePAPR v1.1 standard, available from:

 https://www.power.org/documentation/epapr-version-1-1/

 with updates for 32-bit and 64-bit ARM systems provided in this document.

 ================================
 Convention used in this document
 ================================

 This document follows the conventions described in the ePAPR v1.1, with
 the addition:

 - square brackets define bitfields, eg reg[7:0] value of the bitfield in
   the reg property contained in bits 7 down to 0

 =====================================
 cpus and cpu node bindings definition
 =====================================

 The ARM architecture, in accordance with the ePAPR, requires the cpus and cpu
 nodes to be present and contain the properties described below.

 - cpus node

 	Description: Container of cpu nodes

 	The node name must be "cpus".

 	A cpus node must define the following properties:

 	- #address-cells
 		Usage: required
 		Value type: <u32>

 		Definition depends on ARM architecture version and
 		configuration:

 			# On uniprocessor ARM architectures previous to v7
 			  value must be 1, to enable a simple enumeration
 			  scheme for processors that do not have a HW CPU
 			  identification register.
 			# On 32-bit ARM 11 MPcore, ARM v7 or later systems
 			  value must be 1, that corresponds to CPUID/MPIDR
 			  registers sizes.
 			# On ARM v8 64-bit systems value should be set to 2,
 			  that corresponds to the MPIDR_EL1 register size.
 			  If MPIDR_EL1[63:32] value is equal to 0 on all CPUs
 			  in the system, #address-cells can be set to 1, since
 			  MPIDR_EL1[63:32] bits are not used for CPUs
 			  identification.
 	- #size-cells
 		Usage: required
 		Value type: <u32>
 		Definition: must be set to 0

 - cpu node

 	Description: Describes a CPU in an ARM based system

 	PROPERTIES

 	- device_type
 		Usage: required
 		Value type: <string>
 		Definition: must be "cpu"
 	- reg
 		Usage and definition depend on ARM architecture version and
 		configuration:

 			# On uniprocessor ARM architectures previous to v7
 			  this property is required and must be set to 0.

 			# On ARM 11 MPcore based systems this property is
 			  required and matches the CPUID[11:0] register bits.

 			  Bits [11:0] in the reg cell must be set to
 			  bits [11:0] in CPU ID register.

 			  All other bits in the reg cell must be set to 0.

 			# On 32-bit ARM v7 or later systems this property is
 			  required and matches the CPU MPIDR[23:0] register
 			  bits.

 			  Bits [23:0] in the reg cell must be set to
 			  bits [23:0] in MPIDR.

 			  All other bits in the reg cell must be set to 0.

 			# On ARM v8 64-bit systems this property is required
 			  and matches the MPIDR_EL1 register affinity bits.

 			  * If cpus node's #address-cells property is set to 2

 			    The first reg cell bits [7:0] must be set to
 			    bits [39:32] of MPIDR_EL1.

 			    The second reg cell bits [23:0] must be set to
 			    bits [23:0] of MPIDR_EL1.

 			  * If cpus node's #address-cells property is set to 1

 			    The reg cell bits [23:0] must be set to bits [23:0]
 			    of MPIDR_EL1.

 			  All other bits in the reg cells must be set to 0.

 	- compatible:
 		Usage: required
 		Value type: <string>
 		Definition: should be one of:
 			    "arm,arm710t"
 			    "arm,arm720t"
 			    "arm,arm740t"
 			    "arm,arm7ej-s"
 			    "arm,arm7tdmi"
 			    "arm,arm7tdmi-s"
 			    "arm,arm9es"
 			    "arm,arm9ej-s"
 			    "arm,arm920t"
 			    "arm,arm922t"
 			    "arm,arm925"
 			    "arm,arm926e-s"
 			    "arm,arm926ej-s"
 			    "arm,arm940t"
 			    "arm,arm946e-s"
 			    "arm,arm966e-s"
 			    "arm,arm968e-s"
 			    "arm,arm9tdmi"
 			    "arm,arm1020e"
 			    "arm,arm1020t"
 			    "arm,arm1022e"
 			    "arm,arm1026ej-s"
 			    "arm,arm1136j-s"
 			    "arm,arm1136jf-s"
 			    "arm,arm1156t2-s"
 			    "arm,arm1156t2f-s"
 			    "arm,arm1176jzf"
 			    "arm,arm1176jz-s"
 			    "arm,arm1176jzf-s"
 			    "arm,arm11mpcore"
 			    "arm,cortex-a5"
 			    "arm,cortex-a7"
 			    "arm,cortex-a8"
 			    "arm,cortex-a9"
 			    "arm,cortex-a12"
 			    "arm,cortex-a15"
 			    "arm,cortex-a17"
 			    "arm,cortex-a53"
 			    "arm,cortex-a57"
 			    "arm,cortex-a72"
 			    "arm,cortex-m0"
 			    "arm,cortex-m0+"
 			    "arm,cortex-m1"
 			    "arm,cortex-m3"
 			    "arm,cortex-m4"
 			    "arm,cortex-r4"
 			    "arm,cortex-r5"
 			    "arm,cortex-r7"
 			    "brcm,brahma-b15"
 			    "brcm,vulcan"
 			    "cavium,thunder"
 			    "faraday,fa526"
 			    "intel,sa110"
 			    "intel,sa1100"
 			    "marvell,feroceon"
 			    "marvell,mohawk"
 			    "marvell,pj4a"
 			    "marvell,pj4b"
 			    "marvell,sheeva-v5"
 			    "nvidia,tegra132-denver"
 			    "qcom,krait"
 			    "qcom,kryo"
 			    "qcom,scorpion"
 	- enable-method
 		Value type: <stringlist>
 		Usage and definition depend on ARM architecture version.
 			# On ARM v8 64-bit this property is required and must
 			  be one of:
 			     "psci"
 			     "spin-table"
 			# On ARM 32-bit systems this property is optional and
 			  can be one of:
 			    "allwinner,sun6i-a31"
 			    "allwinner,sun8i-a23"
 			    "arm,psci"
 			    "arm,realview-smp"
 			    "brcm,bcm-nsp-smp"
 			    "brcm,brahma-b15"
 			    "marvell,armada-375-smp"
 			    "marvell,armada-380-smp"
 			    "marvell,armada-390-smp"
 			    "marvell,armada-xp-smp"
 			    "mediatek,mt6589-smp"
 			    "mediatek,mt81xx-tz-smp"
 			    "qcom,gcc-msm8660"
 			    "qcom,kpss-acc-v1"
 			    "qcom,kpss-acc-v2"
 			    "rockchip,rk3036-smp"
 			    "rockchip,rk3066-smp"
 			    "ste,dbx500-smp"

 	- cpu-release-addr
 		Usage: required for systems that have an "enable-method"
 		       property value of "spin-table".
 		Value type: <prop-encoded-array>
 		Definition:
 			# On ARM v8 64-bit systems must be a two cell
 			  property identifying a 64-bit zero-initialised
 			  memory location.

 	- qcom,saw
 		Usage: required for systems that have an "enable-method"
 		       property value of "qcom,kpss-acc-v1" or
 		       "qcom,kpss-acc-v2"
 		Value type: <phandle>
 		Definition: Specifies the SAW[1] node associated with this CPU.

 	- qcom,acc
 		Usage: required for systems that have an "enable-method"
 		       property value of "qcom,kpss-acc-v1" or
 		       "qcom,kpss-acc-v2"
 		Value type: <phandle>
 		Definition: Specifies the ACC[2] node associated with this CPU.

 	- cpu-idle-states
 		Usage: Optional
 		Value type: <prop-encoded-array>
 		Definition:
 			# List of phandles to idle state nodes supported
 			  by this cpu [3].

 	- rockchip,pmu
 		Usage: optional for systems that have an "enable-method"
 		       property value of "rockchip,rk3066-smp"
 		       While optional, it is the preferred way to get access to
 		       the cpu-core power-domains.
 		Value type: <phandle>
 		Definition: Specifies the syscon node controlling the cpu core
 			    power domains.

 	- dynamic-power-coefficient
 		Usage: optional
 		Value type: <prop-encoded-array>
 		Definition: A u32 value that represents the running time dynamic
 			    power coefficient in units of mW/MHz/uV^2. The
 			    coefficient can either be calculated from power
 			    measurements or derived by analysis.

 			    The dynamic power consumption of the CPU  is
 			    proportional to the square of the Voltage (V) and
 			    the clock frequency (f). The coefficient is used to
 			    calculate the dynamic power as below -

 			    Pdyn = dynamic-power-coefficient * V^2 * f

 			    where voltage is in uV, frequency is in MHz.

 Example 1 (dual-cluster big.LITTLE system 32-bit):

 	cpus {
 		#size-cells = <0>;
 		#address-cells = <1>;

 		cpu@0 {
 			device_type = "cpu";
 			compatible = "arm,cortex-a15";
 			reg = <0x0>;
 		};

 		cpu@1 {
 			device_type = "cpu";
 			compatible = "arm,cortex-a15";
 			reg = <0x1>;
 		};

 		cpu@100 {
 			device_type = "cpu";
 			compatible = "arm,cortex-a7";
 			reg = <0x100>;
 		};

 		cpu@101 {
 			device_type = "cpu";
 			compatible = "arm,cortex-a7";
 			reg = <0x101>;
 		};
 	};

 Example 2 (Cortex-A8 uniprocessor 32-bit system):

 	cpus {
 		#size-cells = <0>;
 		#address-cells = <1>;

 		cpu@0 {
 			device_type = "cpu";
 			compatible = "arm,cortex-a8";
 			reg = <0x0>;
 		};
 	};

 Example 3 (ARM 926EJ-S uniprocessor 32-bit system):

 	cpus {
 		#size-cells = <0>;
 		#address-cells = <1>;

 		cpu@0 {
 			device_type = "cpu";
 			compatible = "arm,arm926ej-s";
 			reg = <0x0>;
 		};
 	};

 Example 4 (ARM Cortex-A57 64-bit system):

 cpus {
 	#size-cells = <0>;
 	#address-cells = <2>;

 	cpu@0 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x0>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@1 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x1>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x100>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@101 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x101>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@10000 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x10000>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@10001 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x10001>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@10100 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x10100>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@10101 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x0 0x10101>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100000000 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x0>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100000001 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x1>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100000100 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x100>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100000101 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x101>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100010000 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x10000>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100010001 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x10001>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100010100 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x10100>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};

 	cpu@100010101 {
 		device_type = "cpu";
 		compatible = "arm,cortex-a57";
 		reg = <0x1 0x10101>;
 		enable-method = "spin-table";
 		cpu-release-addr = <0 0x20000000>;
 	};
 };

 --
 [1] arm/msm/qcom,saw2.txt
 [2] arm/msm/qcom,kpss-acc.txt
 [3] ARM Linux kernel documentation - idle states bindings
     Documentation/devicetree/bindings/arm/idle-states.txt
	=================
	ARM CPUs bindings
	=================

	The device tree allows to describe the layout of CPUs in a system through
	the "cpus" node, which in turn contains a number of subnodes (ie "cpu")
	defining properties for every cpu.

	Bindings for CPU nodes follow the ePAPR v1.1 standard, available from:

	https://www.power.org/documentation/epapr-version-1-1/

	with updates for 32-bit and 64-bit ARM systems provided in this document.

	================================
	Convention used in this document
	================================

	This document follows the conventions described in the ePAPR v1.1, with
	the addition:

	- square brackets define bitfields, eg reg[7:0] value of the bitfield in
	the reg property contained in bits 7 down to 0

	=====================================
	cpus and cpu node bindings definition
	=====================================

	The ARM architecture, in accordance with the ePAPR, requires the cpus and cpu
	nodes to be present and contain the properties described below.

	- cpus node

	Description: Container of cpu nodes

	The node name must be "cpus".

	A cpus node must define the following properties:

	- #address-cells
	Usage: required
	Value type: <u32>

	Definition depends on ARM architecture version and
	configuration:

	# On uniprocessor ARM architectures previous to v7
	value must be 1, to enable a simple enumeration
	scheme for processors that do not have a HW CPU
	identification register.
	# On 32-bit ARM 11 MPcore, ARM v7 or later systems
	value must be 1, that corresponds to CPUID/MPIDR
	registers sizes.
	# On ARM v8 64-bit systems value should be set to 2,
	that corresponds to the MPIDR_EL1 register size.
	If MPIDR_EL1[63:32] value is equal to 0 on all CPUs
	in the system, #address-cells can be set to 1, since
	MPIDR_EL1[63:32] bits are not used for CPUs
	identification.
	- #size-cells
	Usage: required
	Value type: <u32>
	Definition: must be set to 0

	- cpu node

	Description: Describes a CPU in an ARM based system

	PROPERTIES

	- device_type
	Usage: required
	Value type: <string>
	Definition: must be "cpu"
	- reg
	Usage and definition depend on ARM architecture version and
	configuration:

	# On uniprocessor ARM architectures previous to v7
	this property is required and must be set to 0.

	# On ARM 11 MPcore based systems this property is
	required and matches the CPUID[11:0] register bits.

	Bits [11:0] in the reg cell must be set to
	bits [11:0] in CPU ID register.

	All other bits in the reg cell must be set to 0.

	# On 32-bit ARM v7 or later systems this property is
	required and matches the CPU MPIDR[23:0] register
	bits.

	Bits [23:0] in the reg cell must be set to
	bits [23:0] in MPIDR.

	All other bits in the reg cell must be set to 0.

	# On ARM v8 64-bit systems this property is required
	and matches the MPIDR_EL1 register affinity bits.

	* If cpus node's #address-cells property is set to 2

	The first reg cell bits [7:0] must be set to
	bits [39:32] of MPIDR_EL1.

	The second reg cell bits [23:0] must be set to
	bits [23:0] of MPIDR_EL1.

	* If cpus node's #address-cells property is set to 1

	The reg cell bits [23:0] must be set to bits [23:0]
	of MPIDR_EL1.

	All other bits in the reg cells must be set to 0.

	- compatible:
	Usage: required
	Value type: <string>
	Definition: should be one of:
	"arm,arm710t"
	"arm,arm720t"
	"arm,arm740t"
	"arm,arm7ej-s"
	"arm,arm7tdmi"
	"arm,arm7tdmi-s"
	"arm,arm9es"
	"arm,arm9ej-s"
	"arm,arm920t"
	"arm,arm922t"
	"arm,arm925"
	"arm,arm926e-s"
	"arm,arm926ej-s"
	"arm,arm940t"
	"arm,arm946e-s"
	"arm,arm966e-s"
	"arm,arm968e-s"
	"arm,arm9tdmi"
	"arm,arm1020e"
	"arm,arm1020t"
	"arm,arm1022e"
	"arm,arm1026ej-s"
	"arm,arm1136j-s"
	"arm,arm1136jf-s"
	"arm,arm1156t2-s"
	"arm,arm1156t2f-s"
	"arm,arm1176jzf"
	"arm,arm1176jz-s"
	"arm,arm1176jzf-s"
	"arm,arm11mpcore"
	"arm,cortex-a5"
	"arm,cortex-a7"
	"arm,cortex-a8"
	"arm,cortex-a9"
	"arm,cortex-a12"
	"arm,cortex-a15"
	"arm,cortex-a17"
	"arm,cortex-a53"
	"arm,cortex-a57"
	"arm,cortex-a72"
	"arm,cortex-m0"
	"arm,cortex-m0+"
	"arm,cortex-m1"
	"arm,cortex-m3"
	"arm,cortex-m4"
	"arm,cortex-r4"
	"arm,cortex-r5"
	"arm,cortex-r7"
	"brcm,brahma-b15"
	"brcm,vulcan"
	"cavium,thunder"
	"faraday,fa526"
	"intel,sa110"
	"intel,sa1100"
	"marvell,feroceon"
	"marvell,mohawk"
	"marvell,pj4a"
	"marvell,pj4b"
	"marvell,sheeva-v5"
	"nvidia,tegra132-denver"
	"qcom,krait"
	"qcom,kryo"
	"qcom,scorpion"
	- enable-method
	Value type: <stringlist>
	Usage and definition depend on ARM architecture version.
	# On ARM v8 64-bit this property is required and must
	be one of:
	"psci"
	"spin-table"
	# On ARM 32-bit systems this property is optional and
	can be one of:
	"allwinner,sun6i-a31"
	"allwinner,sun8i-a23"
	"arm,psci"
	"arm,realview-smp"
	"brcm,bcm-nsp-smp"
	"brcm,brahma-b15"
	"marvell,armada-375-smp"
	"marvell,armada-380-smp"
	"marvell,armada-390-smp"
	"marvell,armada-xp-smp"
	"mediatek,mt6589-smp"
	"mediatek,mt81xx-tz-smp"
	"qcom,gcc-msm8660"
	"qcom,kpss-acc-v1"
	"qcom,kpss-acc-v2"
	"rockchip,rk3036-smp"
	"rockchip,rk3066-smp"
	"ste,dbx500-smp"

	- cpu-release-addr
	Usage: required for systems that have an "enable-method"
	property value of "spin-table".
	Value type: <prop-encoded-array>
	Definition:
	# On ARM v8 64-bit systems must be a two cell
	property identifying a 64-bit zero-initialised
	memory location.

	- qcom,saw
	Usage: required for systems that have an "enable-method"
	property value of "qcom,kpss-acc-v1" or
	"qcom,kpss-acc-v2"
	Value type: <phandle>
	Definition: Specifies the SAW[1] node associated with this CPU.

	- qcom,acc
	Usage: required for systems that have an "enable-method"
	property value of "qcom,kpss-acc-v1" or
	"qcom,kpss-acc-v2"
	Value type: <phandle>
	Definition: Specifies the ACC[2] node associated with this CPU.

	- cpu-idle-states
	Usage: Optional
	Value type: <prop-encoded-array>
	Definition:
	# List of phandles to idle state nodes supported
	by this cpu [3].

	- rockchip,pmu
	Usage: optional for systems that have an "enable-method"
	property value of "rockchip,rk3066-smp"
	While optional, it is the preferred way to get access to
	the cpu-core power-domains.
	Value type: <phandle>
	Definition: Specifies the syscon node controlling the cpu core
	power domains.

	- dynamic-power-coefficient
	Usage: optional
	Value type: <prop-encoded-array>
	Definition: A u32 value that represents the running time dynamic
	power coefficient in units of mW/MHz/uV^2. The
	coefficient can either be calculated from power
	measurements or derived by analysis.

	The dynamic power consumption of the CPU is
	proportional to the square of the Voltage (V) and
	the clock frequency (f). The coefficient is used to
	calculate the dynamic power as below -

	Pdyn = dynamic-power-coefficient * V^2 * f

	where voltage is in uV, frequency is in MHz.

	Example 1 (dual-cluster big.LITTLE system 32-bit):

	cpus {
	#size-cells = <0>;
	#address-cells = <1>;

	cpu@0 {
	device_type = "cpu";
	compatible = "arm,cortex-a15";
	reg = <0x0>;
	};

	cpu@1 {
	device_type = "cpu";
	compatible = "arm,cortex-a15";
	reg = <0x1>;
	};

	cpu@100 {
	device_type = "cpu";
	compatible = "arm,cortex-a7";
	reg = <0x100>;
	};

	cpu@101 {
	device_type = "cpu";
	compatible = "arm,cortex-a7";
	reg = <0x101>;
	};
	};

	Example 2 (Cortex-A8 uniprocessor 32-bit system):

	cpus {
	#size-cells = <0>;
	#address-cells = <1>;

	cpu@0 {
	device_type = "cpu";
	compatible = "arm,cortex-a8";
	reg = <0x0>;
	};
	};

	Example 3 (ARM 926EJ-S uniprocessor 32-bit system):

	cpus {
	#size-cells = <0>;
	#address-cells = <1>;

	cpu@0 {
	device_type = "cpu";
	compatible = "arm,arm926ej-s";
	reg = <0x0>;
	};
	};

	Example 4 (ARM Cortex-A57 64-bit system):

	cpus {
	#size-cells = <0>;
	#address-cells = <2>;

	cpu@0 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x0>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@1 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x1>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x100>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@101 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x101>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@10000 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x10000>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@10001 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x10001>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@10100 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x10100>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@10101 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x0 0x10101>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100000000 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x0>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100000001 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x1>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100000100 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x100>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100000101 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x101>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100010000 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x10000>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100010001 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x10001>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100010100 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x10100>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};

	cpu@100010101 {
	device_type = "cpu";
	compatible = "arm,cortex-a57";
	reg = <0x1 0x10101>;
	enable-method = "spin-table";
	cpu-release-addr = <0 0x20000000>;
	};
	};

	--
	[1] arm/msm/qcom,saw2.txt
	[2] arm/msm/qcom,kpss-acc.txt
	[3] ARM Linux kernel documentation - idle states bindings
	Documentation/devicetree/bindings/arm/idle-states.txt