TI Keystone DSP devices ======================= The TI Keystone 2 family of SoCs usually have one or more (upto 8) TI DSP Core sub-systems that are used to offload some of the processor-intensive tasks or algorithms, for achieving various system level goals. These processor sub-systems usually contain additional sub-modules like L1 and/or L2 caches/SRAMs, an Interrupt Controller, an external memory controller, a dedicated local power/sleep controller etc. The DSP processor core in Keystone 2 SoCs is usually a TMS320C66x CorePac processor. DSP Device Node: ================ Each DSP Core sub-system is represented as a single DT node, and should also have an alias with the stem 'rproc' defined. Each node has a number of required or optional properties that enable the OS running on the host processor (ARM CorePac) to perform the device management of the remote processor and to communicate with the remote processor. Required properties: -------------------- The following are the mandatory properties: - compatible: Should be one of the following, "ti,k2hk-dsp" for DSPs on Keystone 2 66AK2H/K SoCs "ti,k2l-dsp" for DSPs on Keystone 2 66AK2L SoCs "ti,k2e-dsp" for DSPs on Keystone 2 66AK2E SoCs "ti,k2g-dsp" for DSPs on Keystone 2 66AK2G SoCs - reg: Should contain an entry for each value in 'reg-names'. Each entry should have the memory region's start address and the size of the region, the representation matching the parent node's '#address-cells' and '#size-cells' values. - reg-names: Should contain strings with the following names, each representing a specific internal memory region, and should be defined in this order, "l2sram", "l1pram", "l1dram" - ti,syscon-dev: Should be a pair of the phandle to the Keystone Device State Control node, and the register offset of the DSP boot address register within that node's address space. - resets: Should contain the phandle to the reset controller node managing the resets for this device, and a reset specifier. Please refer to either of the following reset bindings for the reset argument specifier as per SoC, Documentation/devicetree/bindings/reset/ti-syscon-reset.txt for 66AK2HK/66AK2L/66AK2E SoCs or, Documentation/devicetree/bindings/reset/ti,sci-reset.txt for 66AK2G SoCs - interrupts: Should contain an entry for each value in 'interrupt-names'. Each entry should have the interrupt source number used by the remote processor to the host processor. The values should follow the interrupt-specifier format as dictated by the 'interrupt-parent' node. The purpose of each is as per the description in the 'interrupt-names' property. - interrupt-names: Should contain strings with the following names, each representing a specific interrupt, "vring" - interrupt for virtio based IPC "exception" - interrupt for exception notification - kick-gpios: Should specify the gpio device needed for the virtio IPC stack. This will be used to interrupt the remote processor. The gpio device to be used is as per the bindings in, Documentation/devicetree/bindings/gpio/gpio-dsp-keystone.txt SoC-specific Required properties: --------------------------------- The following are mandatory properties for Keystone 2 66AK2HK, 66AK2L and 66AK2E SoCs only: - clocks: Should contain the device's input clock, and should be defined as per the bindings in, Documentation/devicetree/bindings/clock/keystone-gate.txt The following are mandatory properties for Keystone 2 66AK2G SoCs only: - power-domains: Should contain a phandle to a PM domain provider node and an args specifier containing the DSP device id value. This property is as per the binding, Documentation/devicetree/bindings/soc/ti/sci-pm-domain.txt Optional properties: -------------------- - memory-region: phandle to the reserved memory node to be associated with the remoteproc device. The reserved memory node can be a CMA memory node, and should be defined as per the bindings in Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt Examples: --------- 1. /* 66AK2H/K DSP aliases */ aliases { rproc0 = &dsp0; rproc1 = &dsp1; rproc2 = &dsp2; rproc3 = &dsp3; rproc4 = &dsp4; rproc5 = &dsp5; rproc6 = &dsp6; rproc7 = &dsp7; }; /* 66AK2H/K DSP memory node */ reserved-memory { #address-cells = <2>; #size-cells = <2>; ranges; dsp_common_memory: dsp-common-memory@81f800000 { compatible = "shared-dma-pool"; reg = <0x00000008 0x1f800000 0x00000000 0x800000>; reusable; }; }; /* 66AK2H/K DSP node */ soc { dsp0: dsp@10800000 { compatible = "ti,k2hk-dsp"; reg = <0x10800000 0x00100000>, <0x10e00000 0x00008000>, <0x10f00000 0x00008000>; reg-names = "l2sram", "l1pram", "l1dram"; clocks = <&clkgem0>; ti,syscon-dev = <&devctrl 0x40>; resets = <&pscrst 0>; interrupt-parent = <&kirq0>; interrupts = <0 8>; interrupt-names = "vring", "exception"; kick-gpios = <&dspgpio0 27 0>; memory-region = <&dsp_common_memory>; }; }; 2. /* 66AK2G DSP alias */ aliases { rproc0 = &dsp0; }; /* 66AK2G DSP memory node */ reserved-memory { #address-cells = <2>; #size-cells = <2>; ranges; dsp_common_memory: dsp-common-memory@81f800000 { compatible = "shared-dma-pool"; reg = <0x00000008 0x1f800000 0x00000000 0x800000>; reusable; }; }; /* 66AK2G DSP node */ soc { dsp0: dsp@10800000 { compatible = "ti,k2g-dsp"; reg = <0x10800000 0x00100000>, <0x10e00000 0x00008000>, <0x10f00000 0x00008000>; reg-names = "l2sram", "l1pram", "l1dram"; power-domains = <&k2g_pds 0x0046>; ti,syscon-dev = <&devctrl 0x40>; resets = <&k2g_reset 0x0046 0x1>; interrupt-parent = <&kirq0>; interrupts = <0 8>; interrupt-names = "vring", "exception"; kick-gpios = <&dspgpio0 27 0>; memory-region = <&dsp_common_memory>; }; };