dts/riscv/riscv32-litex-vexriscv.dtsi - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2018 - 2020 Antmicro <www.antmicro.com>
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 / {
 	#address-cells = <1>;
 	#size-cells = <1>;
 	compatible = "litex,vexriscv", "litex-dev";
 	model = "litex,vexriscv";


 	chosen {
 		zephyr,entropy = &prbs0;
 	};

 	cpus {
 		#address-cells = <1>;
 		#size-cells = <0>;
 		cpu@0 {
 			clock-frequency = <100000000>;
 			compatible = "riscv";
 			device_type = "cpu";
 			reg = <0>;
 			riscv,isa = "rv32imac";
 			status = "okay";
 			timebase-frequency = <32768>;
 		};
 	};
 	soc {
 		#address-cells = <1>;
 		#size-cells = <1>;
 		compatible = "litex,vexriscv";
 		ranges;
 		intc0: interrupt-controller@bc0 {
 			compatible = "vexriscv-intc0";
 			#address-cells = <0>;
 			#interrupt-cells = <2>;
 			interrupt-controller;
 			reg = <0xbc0 0x4 0xfc0 0x4>;
 			reg-names = "irq_mask", "irq_pending";
 			riscv,max-priority = <7>;
 		};
 		uart0: serial@e0001800 {
 			compatible = "litex,uart0";
 			interrupt-parent = <&intc0>;
 			interrupts = <2 10>;
 			reg = <0xe0001800 0x4
 				0xe0001804 0x4
 				0xe0001808 0x4
 				0xe000180c 0x4
 				0xe0001810 0x4
 				0xe0001814 0x4
 				0xe0001818 0x4
 				0xe000181c 0x4>;
 			reg-names =
 				"rxtx",
 				"txfull",
 				"rxempty",
 				"ev_status",
 				"ev_pending",
 				"ev_enable",
 				"txempty",
 				"rxfull";
 			status = "disabled";
 		};
 		spi0: spi@e0002000 {
 			compatible = "litex,spi";
 			reg = <0xe0002000 0x4
 				0xe0002004 0x4
 				0xe0002008 0x4
 				0xe000200c 0x4
 				0xe0002010 0x4
 				0xe0002014 0x4>;
 			reg-names = "control",
 				"status",
 				"mosi",
 				"miso",
 				"cs",
 				"loopback";
 			status = "disabled";
 			#address-cells = <1>;
 			#size-cells = <0>;
 		};
 		timer0: timer@e0002800 {
 			compatible = "litex,timer0";
 			interrupt-parent = <&intc0>;
 			interrupts = <1 0>;
 			reg = <0xe0002800 0x4
 				0xe0002804 0x4
 				0xe0002808 0x4
 				0xe000280c 0x4
 				0xe0002810 0x4
 				0xe0002814 0x4
 				0xe0002818 0x4
 				0xe000281c 0x4
 				0xe0002820 0x4
 				0xe0002824 0x8>;
 			reg-names =
 				"load",
 				"reload",
 				"en",
 				"update_value",
 				"value",
 				"ev_status",
 				"ev_pending",
 				"ev_enable",
 				"uptime_latch",
 				"uptime_cycles";
 			status = "disabled";
 		};
 		eth0: ethernet@e0009800 {
 			compatible = "litex,eth0";
 			interrupt-parent = <&intc0>;
 			interrupts = <3 0>;
 			reg = <0xe0009800 0x4
 				0xe0009804 0x4
 				0xe0009808 0x4
 				0xe000980c 0x4
 				0xe0009810 0x4
 				0xe0009814 0x4
 				0xe0009818 0x4
 				0xe000981c 0x4
 				0xe0009820 0x4
 				0xe0009824 0x4
 				0xe0009828 0x4
 				0xe000982c 0x4
 				0xe0009830 0x4
 				0xe0009834 0x4
 				0xb0000000 0x2000>;
 			local-mac-address = [10 e2 d5 00 00 02];
 			reg-names = "rx_slot",
 				"rx_length",
 				"rx_errors",
 				"rx_ev_status",
 				"rx_ev_pending",
 				"rx_ev_enable",
 				"tx_start",
 				"tx_ready",
 				"tx_level",
 				"tx_slot",
 				"tx_length",
 				"tx_ev_status",
 				"tx_ev_pending",
 				"tx_ev_enable",
 				"buffers";
 			status = "disabled";
 		};
 		dna0: dna@e0003800 {
 			compatible = "litex,dna0";
 			/* DNA data is 57-bits long,
 			so it requires 8 bytes.
 			In LiteX each 32-bit register holds
 			only a single byte of meaningful data,
 			hence 8 registers. */
 			reg = <0xe0003800 0x20>;
 			reg-names = "mem";
 			status = "disabled";
 		};
 		i2c0: i2c@e0005000 {
 			compatible = "litex,i2c";
 			reg = <0xe0005000 0x4 0xe0005004 0x4>;
 			reg-names = "write", "read";
 			#address-cells = <1>;
 			#size-cells = <0>;
 			status = "disabled";
 		};
 		gpio_out: gpio@e0005800 {
 			compatible = "litex,gpio";
 			reg = <0xe0005800 0x4>;
 			reg-names = "control";
 			ngpios = <4>;
 			port-is-output;
 			status = "disabled";
 			gpio-controller;
 			#gpio-cells = <2>;
 		};
 		gpio_in: gpio@e0006000 {
 			compatible = "litex,gpio";
 			reg = <0xe0006000 0x4
 				0xe0006004 0x4
 				0xe0006008 0x4
 				0xe0006010 0x4
 				0xe0006014 0x4>;
 			interrupt-parent = <&intc0>;
 			interrupts = <4 2>;
 			reg-names = "base",
 				"irq_mode",
 				"irq_edge",
 				"irq_pend",
 				"irq_en";
 			ngpios = <4>;
 			status = "disabled";
 			gpio-controller;
 			#gpio-cells = <2>;
 		};
 		prbs0: prbs@e0006800 {
 			compatible = "litex,prbs";
 			reg = <0xe0006800 0x4>;
 			reg-names = "status";
 			status = "disabled";
 		};
 		pwm0: pwm@e0007000 {
 			compatible = "litex,pwm";
 			reg = <0xe0007000 0x4 0xe0007004 0x10 0xe0007014 0x10>;
 			reg-names = "enable", "width", "period";
 			status = "disabled";
 			#pwm-cells = <2>;
 		};
 		i2s_rx: i2s_rx@e000a800 {
 			compatible = "litex,i2s";
 			reg = <0xe000a800 0x4
 				0xe000a804 0x4
 				0xe000a808 0x4
 				0xe000a80c 0x4
 				0xe000a810 0x4
 				0xe000a814 0x4
 				0xb1000000 0x40000>;
 			interrupt-parent = <&intc0>;
 			interrupts = <6 2>;
 			#address-cells = <1>;
 			#size-cells = <0>;
 			reg-names = "ev_status",
 				"ev_pending",
 				"ev_enable",
 				"rx_ctl",
 				"rx_stat",
 				"rx_conf",
 				"fifo";
 			fifo_depth = <256>;
 			status = "disabled";
 		};
 		i2s_tx: i2s_tx@e000b000 {
 			compatible = "litex,i2s";
 			reg = <0xe000b000 0x4
 				0xe000b004 0x4
 				0xe000b008 0x4
 				0xe000b00c 0x4
 				0xe000b010 0x4
 				0xe000b014 0x4
 				0xb2000000 0x40000>;
 			interrupt-parent = <&intc0>;
 			interrupts = <7 2>;
 			#address-cells = <1>;
 			#size-cells = <0>;
 			reg-names = "ev_status",
 				"ev_pending",
 				"ev_enable",
 				"tx_ctl",
 				"tx_stat",
 				"tx_conf",
 				"fifo";
 			fifo_depth = <256>;
 			status = "disabled";
 		};
 		clock-outputs {
 			#address-cells = <1>;
 			#size-cells = <0>;
 			clk0: clock-controller@0 {
 				#clock-cells = <1>;
 				reg = <0>;
 				compatible = "litex,clkout";
 				clock-output-names = "CLK_0";
 				litex,clock-frequency = <11289600>;
 				litex,clock-phase = <0>;
 				litex,clock-duty-num = <1>;
 				litex,clock-duty-den = <2>;
 				litex,clock-margin = <1>;
 				litex,clock-margin-exp = <2>;
 				status = "disabled";
 			};
 			clk1: clock-controller@1 {
 				#clock-cells = <1>;
 				reg = <1>;
 				compatible = "litex,clkout";
 				clock-output-names = "CLK_1";
 				litex,clock-frequency = <22579200>;
 				litex,clock-phase = <0>;
 				litex,clock-duty-num = <1>;
 				litex,clock-duty-den = <2>;
 				litex,clock-margin = <1>;
 				litex,clock-margin-exp = <2>;
 				status = "disabled";
 			};
 		};
 		clock0: clock@e0004800 {
 			compatible = "litex,clk";
 			reg = <0xe0004800 0x4
 				0xe0004804 0x4
 				0xe0004808 0x4
 				0xe000480c 0x4
 				0xe0004810 0x4
 				0xe0004814 0x4
 				0xe0004818 0x4
 				0xe000481c 0x4>;
 			reg-names = "drp_reset",
 				"drp_locked",
 				"drp_read",
 				"drp_write",
 				"drp_drdy",
 				"drp_adr",
 				"drp_dat_w",
 				"drp_dat_r";
 			#clock-cells = <1>;
 			clocks = <&clk0 0>, <&clk1 1>;
 			clock-output-names = "CLK_0", "CLK_1";
 			litex,lock-timeout = <10>;
 			litex,drdy-timeout = <10>;
 			litex,sys-clock-frequency = <100000000>;
 			litex,divclk-divide-min = <1>;
 			litex,divclk-divide-max = <107>;
 			litex,clkfbout-mult-min = <2>;
 			litex,clkfbout-mult-max = <65>;
 			litex,vco-freq-min = <600000000>;
 			litex,vco-freq-max = <1200000000>;
 			litex,clkout-divide-min = <1>;
 			litex,clkout-divide-max = <126>;
 			litex,vco-margin = <0>;
 			status = "disabled";
 		};
 	};
 };
	/*
	* Copyright (c) 2018 - 2020 Antmicro <www.antmicro.com>
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/ {
	#address-cells = <1>;
	#size-cells = <1>;
	compatible = "litex,vexriscv", "litex-dev";
	model = "litex,vexriscv";


	chosen {
	zephyr,entropy = &prbs0;
	};

	cpus {
	#address-cells = <1>;
	#size-cells = <0>;
	cpu@0 {
	clock-frequency = <100000000>;
	compatible = "riscv";
	device_type = "cpu";
	reg = <0>;
	riscv,isa = "rv32imac";
	status = "okay";
	timebase-frequency = <32768>;
	};
	};
	soc {
	#address-cells = <1>;
	#size-cells = <1>;
	compatible = "litex,vexriscv";
	ranges;
	intc0: interrupt-controller@bc0 {
	compatible = "vexriscv-intc0";
	#address-cells = <0>;
	#interrupt-cells = <2>;
	interrupt-controller;
	reg = <0xbc0 0x4 0xfc0 0x4>;
	reg-names = "irq_mask", "irq_pending";
	riscv,max-priority = <7>;
	};
	uart0: serial@e0001800 {
	compatible = "litex,uart0";
	interrupt-parent = <&intc0>;
	interrupts = <2 10>;
	reg = <0xe0001800 0x4
	0xe0001804 0x4
	0xe0001808 0x4
	0xe000180c 0x4
	0xe0001810 0x4
	0xe0001814 0x4
	0xe0001818 0x4
	0xe000181c 0x4>;
	reg-names =
	"rxtx",
	"txfull",
	"rxempty",
	"ev_status",
	"ev_pending",
	"ev_enable",
	"txempty",
	"rxfull";
	status = "disabled";
	};
	spi0: spi@e0002000 {
	compatible = "litex,spi";
	reg = <0xe0002000 0x4
	0xe0002004 0x4
	0xe0002008 0x4
	0xe000200c 0x4
	0xe0002010 0x4
	0xe0002014 0x4>;
	reg-names = "control",
	"status",
	"mosi",
	"miso",
	"cs",
	"loopback";
	status = "disabled";
	#address-cells = <1>;
	#size-cells = <0>;
	};
	timer0: timer@e0002800 {
	compatible = "litex,timer0";
	interrupt-parent = <&intc0>;
	interrupts = <1 0>;
	reg = <0xe0002800 0x4
	0xe0002804 0x4
	0xe0002808 0x4
	0xe000280c 0x4
	0xe0002810 0x4
	0xe0002814 0x4
	0xe0002818 0x4
	0xe000281c 0x4
	0xe0002820 0x4
	0xe0002824 0x8>;
	reg-names =
	"load",
	"reload",
	"en",
	"update_value",
	"value",
	"ev_status",
	"ev_pending",
	"ev_enable",
	"uptime_latch",
	"uptime_cycles";
	status = "disabled";
	};
	eth0: ethernet@e0009800 {
	compatible = "litex,eth0";
	interrupt-parent = <&intc0>;
	interrupts = <3 0>;
	reg = <0xe0009800 0x4
	0xe0009804 0x4
	0xe0009808 0x4
	0xe000980c 0x4
	0xe0009810 0x4
	0xe0009814 0x4
	0xe0009818 0x4
	0xe000981c 0x4
	0xe0009820 0x4
	0xe0009824 0x4
	0xe0009828 0x4
	0xe000982c 0x4
	0xe0009830 0x4
	0xe0009834 0x4
	0xb0000000 0x2000>;
	local-mac-address = [10 e2 d5 00 00 02];
	reg-names = "rx_slot",
	"rx_length",
	"rx_errors",
	"rx_ev_status",
	"rx_ev_pending",
	"rx_ev_enable",
	"tx_start",
	"tx_ready",
	"tx_level",
	"tx_slot",
	"tx_length",
	"tx_ev_status",
	"tx_ev_pending",
	"tx_ev_enable",
	"buffers";
	status = "disabled";
	};
	dna0: dna@e0003800 {
	compatible = "litex,dna0";
	/* DNA data is 57-bits long,
	so it requires 8 bytes.
	In LiteX each 32-bit register holds
	only a single byte of meaningful data,
	hence 8 registers. */
	reg = <0xe0003800 0x20>;
	reg-names = "mem";
	status = "disabled";
	};
	i2c0: i2c@e0005000 {
	compatible = "litex,i2c";
	reg = <0xe0005000 0x4 0xe0005004 0x4>;
	reg-names = "write", "read";
	#address-cells = <1>;
	#size-cells = <0>;
	status = "disabled";
	};
	gpio_out: gpio@e0005800 {
	compatible = "litex,gpio";
	reg = <0xe0005800 0x4>;
	reg-names = "control";
	ngpios = <4>;
	port-is-output;
	status = "disabled";
	gpio-controller;
	#gpio-cells = <2>;
	};
	gpio_in: gpio@e0006000 {
	compatible = "litex,gpio";
	reg = <0xe0006000 0x4
	0xe0006004 0x4
	0xe0006008 0x4
	0xe0006010 0x4
	0xe0006014 0x4>;
	interrupt-parent = <&intc0>;
	interrupts = <4 2>;
	reg-names = "base",
	"irq_mode",
	"irq_edge",
	"irq_pend",
	"irq_en";
	ngpios = <4>;
	status = "disabled";
	gpio-controller;
	#gpio-cells = <2>;
	};
	prbs0: prbs@e0006800 {
	compatible = "litex,prbs";
	reg = <0xe0006800 0x4>;
	reg-names = "status";
	status = "disabled";
	};
	pwm0: pwm@e0007000 {
	compatible = "litex,pwm";
	reg = <0xe0007000 0x4 0xe0007004 0x10 0xe0007014 0x10>;
	reg-names = "enable", "width", "period";
	status = "disabled";
	#pwm-cells = <2>;
	};
	i2s_rx: i2s_rx@e000a800 {
	compatible = "litex,i2s";
	reg = <0xe000a800 0x4
	0xe000a804 0x4
	0xe000a808 0x4
	0xe000a80c 0x4
	0xe000a810 0x4
	0xe000a814 0x4
	0xb1000000 0x40000>;
	interrupt-parent = <&intc0>;
	interrupts = <6 2>;
	#address-cells = <1>;
	#size-cells = <0>;
	reg-names = "ev_status",
	"ev_pending",
	"ev_enable",
	"rx_ctl",
	"rx_stat",
	"rx_conf",
	"fifo";
	fifo_depth = <256>;
	status = "disabled";
	};
	i2s_tx: i2s_tx@e000b000 {
	compatible = "litex,i2s";
	reg = <0xe000b000 0x4
	0xe000b004 0x4
	0xe000b008 0x4
	0xe000b00c 0x4
	0xe000b010 0x4
	0xe000b014 0x4
	0xb2000000 0x40000>;
	interrupt-parent = <&intc0>;
	interrupts = <7 2>;
	#address-cells = <1>;
	#size-cells = <0>;
	reg-names = "ev_status",
	"ev_pending",
	"ev_enable",
	"tx_ctl",
	"tx_stat",
	"tx_conf",
	"fifo";
	fifo_depth = <256>;
	status = "disabled";
	};
	clock-outputs {
	#address-cells = <1>;
	#size-cells = <0>;
	clk0: clock-controller@0 {
	#clock-cells = <1>;
	reg = <0>;
	compatible = "litex,clkout";
	clock-output-names = "CLK_0";
	litex,clock-frequency = <11289600>;
	litex,clock-phase = <0>;
	litex,clock-duty-num = <1>;
	litex,clock-duty-den = <2>;
	litex,clock-margin = <1>;
	litex,clock-margin-exp = <2>;
	status = "disabled";
	};
	clk1: clock-controller@1 {
	#clock-cells = <1>;
	reg = <1>;
	compatible = "litex,clkout";
	clock-output-names = "CLK_1";
	litex,clock-frequency = <22579200>;
	litex,clock-phase = <0>;
	litex,clock-duty-num = <1>;
	litex,clock-duty-den = <2>;
	litex,clock-margin = <1>;
	litex,clock-margin-exp = <2>;
	status = "disabled";
	};
	};
	clock0: clock@e0004800 {
	compatible = "litex,clk";
	reg = <0xe0004800 0x4
	0xe0004804 0x4
	0xe0004808 0x4
	0xe000480c 0x4
	0xe0004810 0x4
	0xe0004814 0x4
	0xe0004818 0x4
	0xe000481c 0x4>;
	reg-names = "drp_reset",
	"drp_locked",
	"drp_read",
	"drp_write",
	"drp_drdy",
	"drp_adr",
	"drp_dat_w",
	"drp_dat_r";
	#clock-cells = <1>;
	clocks = <&clk0 0>, <&clk1 1>;
	clock-output-names = "CLK_0", "CLK_1";
	litex,lock-timeout = <10>;
	litex,drdy-timeout = <10>;
	litex,sys-clock-frequency = <100000000>;
	litex,divclk-divide-min = <1>;
	litex,divclk-divide-max = <107>;
	litex,clkfbout-mult-min = <2>;
	litex,clkfbout-mult-max = <65>;
	litex,vco-freq-min = <600000000>;
	litex,vco-freq-max = <1200000000>;
	litex,clkout-divide-min = <1>;
	litex,clkout-divide-max = <126>;
	litex,vco-margin = <0>;
	status = "disabled";
	};
	};
	};