# SPDX-License-Identifier: GPL-2.0 %YAML 1.2 --- $id: http://devicetree.org/schemas/interconnect/samsung,exynos-bus.yaml# $schema: http://devicetree.org/meta-schemas/core.yaml# title: Samsung Exynos SoC Bus and Interconnect maintainers: - Chanwoo Choi <cw00.choi@samsung.com> - Krzysztof Kozlowski <krzk@kernel.org> description: | The Samsung Exynos SoC has many buses for data transfer between DRAM and sub-blocks in SoC. Most Exynos SoCs share the common architecture for buses. Generally, each bus of Exynos SoC includes a source clock and a power line, which are able to change the clock frequency of the bus in runtime. To monitor the usage of each bus in runtime, the driver uses the PPMU (Platform Performance Monitoring Unit), which is able to measure the current load of sub-blocks. The Exynos SoC includes the various sub-blocks which have the each AXI bus. The each AXI bus has the owned source clock but, has not the only owned power line. The power line might be shared among one more sub-blocks. So, we can divide into two type of device as the role of each sub-block. There are two type of bus devices as following:: - parent bus device - passive bus device Basically, parent and passive bus device share the same power line. The parent bus device can only change the voltage of shared power line and the rest bus devices (passive bus device) depend on the decision of the parent bus device. If there are three blocks which share the VDD_xxx power line, Only one block should be parent device and then the rest blocks should depend on the parent device as passive device. VDD_xxx |--- A block (parent) |--- B block (passive) |--- C block (passive) There are a little different composition among Exynos SoC because each Exynos SoC has different sub-blocks. Therefore, such difference should be specified in devicetree file instead of each device driver. In result, this driver is able to support the bus frequency for all Exynos SoCs. Detailed correlation between sub-blocks and power line according to Exynos SoC:: - In case of Exynos3250, there are two power line as following:: VDD_MIF |--- DMC (Dynamic Memory Controller) VDD_INT |--- LEFTBUS (parent device) |--- PERIL |--- MFC |--- G3D |--- RIGHTBUS |--- PERIR |--- FSYS |--- LCD0 |--- PERIR |--- ISP |--- CAM - MIF bus's frequency/voltage table ----------------------- |Lv| Freq | Voltage | ----------------------- |L1| 50000 |800000 | |L2| 100000 |800000 | |L3| 134000 |800000 | |L4| 200000 |825000 | |L5| 400000 |875000 | ----------------------- - INT bus's frequency/voltage table ---------------------------------------------------------- |Block|LEFTBUS|RIGHTBUS|MCUISP |ISP |PERIL ||VDD_INT | | name| |LCD0 | | | || | | | |FSYS | | | || | | | |MFC | | | || | ---------------------------------------------------------- |Mode |*parent|passive |passive|passive|passive|| | ---------------------------------------------------------- |Lv |Frequency ||Voltage | ---------------------------------------------------------- |L1 |50000 |50000 |50000 |50000 |50000 ||900000 | |L2 |80000 |80000 |80000 |80000 |80000 ||900000 | |L3 |100000 |100000 |100000 |100000 |100000 ||1000000 | |L4 |134000 |134000 |200000 |200000 | ||1000000 | |L5 |200000 |200000 |400000 |300000 | ||1000000 | ---------------------------------------------------------- - In case of Exynos4210, there is one power line as following:: VDD_INT |--- DMC (parent device, Dynamic Memory Controller) |--- LEFTBUS |--- PERIL |--- MFC(L) |--- G3D |--- TV |--- LCD0 |--- RIGHTBUS |--- PERIR |--- MFC(R) |--- CAM |--- FSYS |--- GPS |--- LCD0 |--- LCD1 - In case of Exynos4x12, there are two power line as following:: VDD_MIF |--- DMC (Dynamic Memory Controller) VDD_INT |--- LEFTBUS (parent device) |--- PERIL |--- MFC(L) |--- G3D |--- TV |--- IMAGE |--- RIGHTBUS |--- PERIR |--- MFC(R) |--- CAM |--- FSYS |--- GPS |--- LCD0 |--- ISP - In case of Exynos5422, there are two power line as following:: VDD_MIF |--- DREX 0 (parent device, DRAM EXpress controller) |--- DREX 1 VDD_INT |--- NoC_Core (parent device) |--- G2D |--- G3D |--- DISP1 |--- NoC_WCORE |--- GSCL |--- MSCL |--- ISP |--- MFC |--- GEN |--- PERIS |--- PERIC |--- FSYS |--- FSYS2 - In case of Exynos5433, there is VDD_INT power line as following:: VDD_INT |--- G2D (parent device) |--- MSCL |--- GSCL |--- JPEG |--- MFC |--- HEVC |--- BUS0 |--- BUS1 |--- BUS2 |--- PERIS (Fixed clock rate) |--- PERIC (Fixed clock rate) |--- FSYS (Fixed clock rate) properties: compatible: enum: - samsung,exynos-bus clocks: maxItems: 1 clock-names: items: - const: bus devfreq: $ref: /schemas/types.yaml#/definitions/phandle description: Parent bus device. Valid and required only for the passive bus devices. devfreq-events: $ref: /schemas/types.yaml#/definitions/phandle-array minItems: 1 maxItems: 4 description: Devfreq-event device to monitor the current utilization of buses. Valid and required only for the parent bus devices. exynos,saturation-ratio: $ref: /schemas/types.yaml#/definitions/uint32 description: Percentage value which is used to calibrate the performance count against total cycle count. Valid only for the parent bus devices. '#interconnect-cells': const: 0 interconnects: minItems: 1 maxItems: 2 operating-points-v2: true opp-table: type: object samsung,data-clock-ratio: $ref: /schemas/types.yaml#/definitions/uint32 default: 8 description: Ratio of the data throughput in B/s to minimum data clock frequency in Hz. vdd-supply: description: Main bus power rail. Valid and required only for the parent bus devices. required: - compatible - clocks - clock-names - operating-points-v2 additionalProperties: false examples: - | #include <dt-bindings/clock/exynos3250.h> bus-dmc { compatible = "samsung,exynos-bus"; clocks = <&cmu_dmc CLK_DIV_DMC>; clock-names = "bus"; operating-points-v2 = <&bus_dmc_opp_table>; devfreq-events = <&ppmu_dmc0_3>, <&ppmu_dmc1_3>; vdd-supply = <&buck1_reg>; bus_dmc_opp_table: opp-table { compatible = "operating-points-v2"; opp-50000000 { opp-hz = /bits/ 64 <50000000>; opp-microvolt = <800000>; }; opp-100000000 { opp-hz = /bits/ 64 <100000000>; opp-microvolt = <800000>; }; opp-134000000 { opp-hz = /bits/ 64 <134000000>; opp-microvolt = <800000>; }; opp-200000000 { opp-hz = /bits/ 64 <200000000>; opp-microvolt = <825000>; }; opp-400000000 { opp-hz = /bits/ 64 <400000000>; opp-microvolt = <875000>; }; }; }; ppmu_dmc0: ppmu@106a0000 { compatible = "samsung,exynos-ppmu"; reg = <0x106a0000 0x2000>; events { ppmu_dmc0_3: ppmu-event3-dmc0 { event-name = "ppmu-event3-dmc0"; }; }; }; bus_leftbus: bus-leftbus { compatible = "samsung,exynos-bus"; clocks = <&cmu CLK_DIV_GDL>; clock-names = "bus"; operating-points-v2 = <&bus_leftbus_opp_table>; devfreq-events = <&ppmu_leftbus_3>, <&ppmu_rightbus_3>; vdd-supply = <&buck3_reg>; }; bus-rightbus { compatible = "samsung,exynos-bus"; clocks = <&cmu CLK_DIV_GDR>; clock-names = "bus"; operating-points-v2 = <&bus_leftbus_opp_table>; devfreq = <&bus_leftbus>; }; - | dmc: bus-dmc { compatible = "samsung,exynos-bus"; clocks = <&clock CLK_DIV_DMC>; clock-names = "bus"; operating-points-v2 = <&bus_dmc_opp_table>; samsung,data-clock-ratio = <4>; #interconnect-cells = <0>; devfreq-events = <&ppmu_dmc0_3>, <&ppmu_dmc1_3>; vdd-supply = <&buck1_reg>; }; leftbus: bus-leftbus { compatible = "samsung,exynos-bus"; clocks = <&clock CLK_DIV_GDL>; clock-names = "bus"; operating-points-v2 = <&bus_leftbus_opp_table>; interconnects = <&dmc>; #interconnect-cells = <0>; devfreq-events = <&ppmu_leftbus_3>, <&ppmu_rightbus_3>; vdd-supply = <&buck3_reg>; }; display: bus-display { compatible = "samsung,exynos-bus"; clocks = <&clock CLK_DIV_ACLK_266>; clock-names = "bus"; operating-points-v2 = <&bus_display_opp_table>; interconnects = <&leftbus &dmc>; #interconnect-cells = <0>; devfreq = <&leftbus>; };