1 # SPDX-License-Identifier: (GPL-2.0-only OR BS 1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 2 # Copyright (C) 2020 BAIKAL ELECTRONICS, JSC 2 # Copyright (C) 2020 BAIKAL ELECTRONICS, JSC 3 %YAML 1.2 3 %YAML 1.2 4 --- 4 --- 5 $id: http://devicetree.org/schemas/clock/baika 5 $id: http://devicetree.org/schemas/clock/baikal,bt1-ccu-pll.yaml# 6 $schema: http://devicetree.org/meta-schemas/co 6 $schema: http://devicetree.org/meta-schemas/core.yaml# 7 7 8 title: Baikal-T1 Clock Control Unit PLL 8 title: Baikal-T1 Clock Control Unit PLL 9 9 10 maintainers: 10 maintainers: 11 - Serge Semin <fancer.lancer@gmail.com> 11 - Serge Semin <fancer.lancer@gmail.com> 12 12 13 description: | 13 description: | 14 Clocks Control Unit is the core of Baikal-T1 14 Clocks Control Unit is the core of Baikal-T1 SoC System Controller 15 responsible for the chip subsystems clocking 15 responsible for the chip subsystems clocking and resetting. The CCU is 16 connected with an external fixed rate oscill 16 connected with an external fixed rate oscillator, which signal is transformed 17 into clocks of various frequencies and then 17 into clocks of various frequencies and then propagated to either individual 18 IP-blocks or to groups of blocks (clock doma 18 IP-blocks or to groups of blocks (clock domains). The transformation is done 19 by means of PLLs and gateable/non-gateable d 19 by means of PLLs and gateable/non-gateable dividers embedded into the CCU. 20 It's logically divided into the next compone 20 It's logically divided into the next components: 21 1) External oscillator (normally XTAL's 25 M 21 1) External oscillator (normally XTAL's 25 MHz crystal oscillator, but 22 in general can provide any frequency supp 22 in general can provide any frequency supported by the CCU PLLs). 23 2) PLLs clocks generators (PLLs) - described 23 2) PLLs clocks generators (PLLs) - described in this binding file. 24 3) AXI-bus clock dividers (AXI). 24 3) AXI-bus clock dividers (AXI). 25 4) System devices reference clock dividers ( 25 4) System devices reference clock dividers (SYS). 26 which are connected with each other as shown 26 which are connected with each other as shown on the next figure: 27 27 28 +---------------+ 28 +---------------+ 29 | Baikal-T1 CCU | 29 | Baikal-T1 CCU | 30 | +----+------|- MIPS P5600 cores 30 | +----+------|- MIPS P5600 cores 31 | +-|PLLs|------|- DDR controller 31 | +-|PLLs|------|- DDR controller 32 | | +----+ | 32 | | +----+ | 33 +----+ | | | | | 33 +----+ | | | | | 34 |XTAL|--|-+ | | +---+-| 34 |XTAL|--|-+ | | +---+-| 35 +----+ | | | +-|AXI|-|- AXI-bus 35 +----+ | | | +-|AXI|-|- AXI-bus 36 | | | +---+-| 36 | | | +---+-| 37 | | | | 37 | | | | 38 | | +----+---+-|- APB-bus 38 | | +----+---+-|- APB-bus 39 | +-------|SYS|-|- Low-speed Devices 39 | +-------|SYS|-|- Low-speed Devices 40 | +---+-|- High-speed Device 40 | +---+-|- High-speed Devices 41 +---------------+ 41 +---------------+ 42 42 43 Each CCU sub-block is represented as a separ 43 Each CCU sub-block is represented as a separate dts-node and has an 44 individual driver to be bound with. 44 individual driver to be bound with. 45 45 46 In order to create signals of wide range fre 46 In order to create signals of wide range frequencies the external oscillator 47 output is primarily connected to a set of CC 47 output is primarily connected to a set of CCU PLLs. There are five PLLs 48 to create a clock for the MIPS P5600 cores, 48 to create a clock for the MIPS P5600 cores, the embedded DDR controller, 49 SATA, Ethernet and PCIe domains. The last th 49 SATA, Ethernet and PCIe domains. The last three domains though named by the 50 biggest system interfaces in fact include ne 50 biggest system interfaces in fact include nearly all of the rest SoC 51 peripherals. Each of the PLLs is based on Tr 51 peripherals. Each of the PLLs is based on True Circuits TSMC CLN28HPM core 52 with an interface wrapper (so called safe PL 52 with an interface wrapper (so called safe PLL' clocks switcher) to simplify 53 the PLL configuration procedure. The PLLs wo 53 the PLL configuration procedure. The PLLs work as depicted on the next 54 diagram: 54 diagram: 55 55 56 +--------------------------+ 56 +--------------------------+ 57 | | 57 | | 58 +-->+---+ +---+ +---+ | +---+ 0| 58 +-->+---+ +---+ +---+ | +---+ 0|\ 59 CLKF--->|/NF|--->|PFD|...|VCO|-+->|/OD|--->| 59 CLKF--->|/NF|--->|PFD|...|VCO|-+->|/OD|--->| | 60 +---+ +->+---+ +---+ /->+---+ | 60 +---+ +->+---+ +---+ /->+---+ | |--->CLKOUT 61 CLKOD---------C----------------+ 1| 61 CLKOD---------C----------------+ 1| | 62 +--------C--------------------------->| 62 +--------C--------------------------->|/ 63 | | 63 | | ^ 64 Rclk-+->+---+ | 64 Rclk-+->+---+ | | 65 CLKR--->|/NR|-+ 65 CLKR--->|/NR|-+ | 66 +---+ 66 +---+ | 67 BYPASS-------------------------------------- 67 BYPASS--------------------------------------+ 68 BWADJ---> 68 BWADJ---> 69 69 70 where Rclk is the reference clock coming fr 70 where Rclk is the reference clock coming from XTAL, NR - reference clock 71 divider, NF - PLL clock multiplier, OD - VCO 71 divider, NF - PLL clock multiplier, OD - VCO output clock divider, CLKOUT - 72 output clock, BWADJ is the PLL bandwidth adj 72 output clock, BWADJ is the PLL bandwidth adjustment parameter. At this moment 73 the binding supports the PLL dividers config 73 the binding supports the PLL dividers configuration in accordance with a 74 requested rate, while bypassing and bandwidt 74 requested rate, while bypassing and bandwidth adjustment settings can be 75 added in future if it gets to be necessary. 75 added in future if it gets to be necessary. 76 76 77 The PLLs CLKOUT is then either directly conn 77 The PLLs CLKOUT is then either directly connected with the corresponding 78 clocks consumer (like P5600 cores or DDR con 78 clocks consumer (like P5600 cores or DDR controller) or passed over a CCU 79 divider to create a signal required for the 79 divider to create a signal required for the clock domain. 80 80 81 The CCU PLL dts-node uses the common clock b 81 The CCU PLL dts-node uses the common clock bindings with no custom 82 parameters. The list of exported clocks can 82 parameters. The list of exported clocks can be found in 83 'include/dt-bindings/clock/bt1-ccu.h'. Since 83 'include/dt-bindings/clock/bt1-ccu.h'. Since CCU PLL is a part of the 84 Baikal-T1 SoC System Controller its DT node 84 Baikal-T1 SoC System Controller its DT node is supposed to be a child of 85 later one. 85 later one. 86 86 87 properties: 87 properties: 88 compatible: 88 compatible: 89 const: baikal,bt1-ccu-pll 89 const: baikal,bt1-ccu-pll 90 90 91 reg: 91 reg: 92 maxItems: 1 92 maxItems: 1 93 93 94 "#clock-cells": 94 "#clock-cells": 95 const: 1 95 const: 1 96 96 97 clocks: 97 clocks: 98 description: External reference clock 98 description: External reference clock 99 maxItems: 1 99 maxItems: 1 100 100 101 clock-names: 101 clock-names: 102 const: ref_clk 102 const: ref_clk 103 103 104 additionalProperties: false 104 additionalProperties: false 105 105 106 required: 106 required: 107 - compatible 107 - compatible 108 - "#clock-cells" 108 - "#clock-cells" 109 - clocks 109 - clocks 110 - clock-names 110 - clock-names 111 111 112 examples: 112 examples: 113 # Clock Control Unit PLL node: 113 # Clock Control Unit PLL node: 114 - | 114 - | 115 clock-controller@1f04d000 { 115 clock-controller@1f04d000 { 116 compatible = "baikal,bt1-ccu-pll"; 116 compatible = "baikal,bt1-ccu-pll"; 117 reg = <0x1f04d000 0x028>; 117 reg = <0x1f04d000 0x028>; 118 #clock-cells = <1>; 118 #clock-cells = <1>; 119 119 120 clocks = <&clk25m>; 120 clocks = <&clk25m>; 121 clock-names = "ref_clk"; 121 clock-names = "ref_clk"; 122 }; 122 }; 123 # Required external oscillator: 123 # Required external oscillator: 124 - | 124 - | 125 clk25m: clock-oscillator-25m { 125 clk25m: clock-oscillator-25m { 126 compatible = "fixed-clock"; 126 compatible = "fixed-clock"; 127 #clock-cells = <0>; 127 #clock-cells = <0>; 128 clock-frequency = <25000000>; !! 128 clock-frequency = <25000000>; 129 clock-output-names = "clk25m"; 129 clock-output-names = "clk25m"; 130 }; 130 }; 131 ... 131 ...
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