non\-programmable (full) in projects: Documentation

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Searched +full:non +full:- +full:programmable (Results 1 – 25 of 36) sorted by relevance

/Documentation/devicetree/bindings/display/bridge/
D	simple-bridge.yaml	`1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 3 --- 4 $id: http://devicetree.org/schemas/display/bridge/simple-bridge.yaml# 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 7 title: Transparent non-programmable DRM bridges 10 - Laurent Pinchart <laurent.pinchart+renesas@ideasonboard.com> 11 - Maxime Ripard <mripard@kernel.org> 14 This binding supports transparent non-programmable bridges that don't require 20 - items: 21 - enum: [all …]`
D	adi,adv7533.yaml	`1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause) 3 --- 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 10 - Laurent Pinchart <laurent.pinchart@ideasonboard.com> 13 - $ref: /schemas/sound/dai-common.yaml# 23 - adi,adv7533 24 - adi,adv7535 38 reg-names: 40 Names of maps with programmable addresses. It can contain any map 41 needing a non-default address. [all …]`
D	adi,adv7511.yaml	`1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause) 3 --- 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 10 - Laurent Pinchart <laurent.pinchart@ideasonboard.com> 21 - adi,adv7511 22 - adi,adv7511w 23 - adi,adv7513 37 reg-names: 39 Names of maps with programmable addresses. It can contain any map 40 needing a non-default address. [all …]`
/Documentation/devicetree/bindings/interrupt-controller/
D	opencores,or1k-pic.txt	1 OpenRISC 1000 Programmable Interrupt Controller 5 - compatible : should be "opencores,or1k-pic-level" for variants with 6 level triggered interrupt lines, "opencores,or1k-pic-edge" for variants with 7 edge triggered interrupt lines or "opencores,or1200-pic" for machines 8 with the non-spec compliant or1200 type implementation. 10 "opencores,or1k-pic" is also provided as an alias to "opencores,or1200-pic", 13 - interrupt-controller : Identifies the node as an interrupt controller 14 - #interrupt-cells : Specifies the number of cells needed to encode an 19 intc: interrupt-controller { 20 compatible = "opencores,or1k-pic-level"; [all …]
/Documentation/devicetree/bindings/fuse/
D	renesas,rcar-otp.yaml	1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 3 --- 4 $id: http://devicetree.org/schemas/fuse/renesas,rcar-otp.yaml# 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 7 title: R-Car E-FUSE connected to OTP_MEM 10 - Geert Uytterhoeven <geert+renesas@glider.be> 13 The E-FUSE is a type of non-volatile memory, which is accessible through the 14 One-Time Programmable Memory (OTP_MEM) module on some R-Car Gen4 SoCs. 19 - renesas,r8a779g0-otp # R-CarV4H 20 - renesas,r8a779h0-otp # R-CarV4M [all …]
/Documentation/devicetree/bindings/iio/adc/
D	aspeed,ast2600-adc.yaml	`1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause) 3 --- 4 $id: http://devicetree.org/schemas/iio/adc/aspeed,ast2600-adc.yaml# 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 10 - Billy Tsai <billy_tsai@aspeedtech.com> 13 • 10-bits resolution for 16 voltage channels. 16 • Channel scanning can be non-continuous. 17 • Programmable ADC clock frequency. 18 • Programmable upper and lower threshold for each channels. 21 • Built-in a compensating method. [all …]`
/Documentation/devicetree/bindings/display/xlnx/
D	xlnx,zynqmp-dpsub.yaml	1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 3 --- 4 $id: http://devicetree.org/schemas/display/xlnx/xlnx,zynqmp-dpsub.yaml# 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 14 +------------------------------------------------------------+ 15 +--------+ \| +----------------+ +-----------+ \| 16 \| DPDMA \| --->\| \| --> \| Video \| Video +-------------+ \| 17 \| 4x vid \| \| \| \| \| Rendering \| -+--> \| \| \| +------+ 18 \| 2x aud \| \| \| Audio/Video \| --> \| Pipeline \| \| \| DisplayPort \|---> \| PHY0 \| 19 +--------+ \| \| Buffer Manager \| +-----------+ \| \| Source \| \| +------+ [all …]
/Documentation/devicetree/bindings/media/i2c/
D	tc358743.txt	1 * Toshiba TC358743 HDMI-RX to MIPI CSI2-TX Bridge 3 The Toshiba TC358743 HDMI-RX to MIPI CSI2-TX (H2C) is a bridge that converts 4 a HDMI stream to MIPI CSI-2 TX. It is programmable through I2C. 8 - compatible: value should be "toshiba,tc358743" 9 - clocks, clock-names: should contain a phandle link to the reference clock 14 - reset-gpios: gpio phandle GPIO connected to the reset pin 15 - interrupts: GPIO connected to the interrupt pin 16 - data-lanes: should be <1 2 3 4> for four-lane operation, 17 or <1 2> for two-lane operation 18 - clock-lanes: should be <0> [all …]
/Documentation/devicetree/bindings/arm/
D	arm,coresight-cti.yaml	1 # SPDX-License-Identifier: GPL-2.0-only OR BSD-2-Clause 4 --- 5 $id: http://devicetree.org/schemas/arm/arm,coresight-cti.yaml# 6 $schema: http://devicetree.org/meta-schemas/core.yaml# 13 a star topology via the Cross Trigger Matrix (CTM), which is not programmable. 25 programmable channels, usually 4, but again implementation defined and 28 programmable. 37 indicate this feature (arm,coresight-cti-v8-arch). 52 constants defined in <dt-bindings/arm/coresight-cti-dt.h> 59 Note that some hardware trigger signals can be connected to non-CoreSight [all …]
/Documentation/devicetree/bindings/clock/
D	ti,cdce925.yaml	1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 3 --- 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 7 title: TI CDCE913/925/937/949 programmable I2C clock synthesizers 10 - Alexander Stein <alexander.stein@ew.tq-group.com> 15 - CDCE(L)913: 1-PLL, 3 Outputs https://www.ti.com/product/cdce913 16 - CDCE(L)925: 2-PLL, 5 Outputs https://www.ti.com/product/cdce925 17 - CDCE(L)937: 3-PLL, 7 Outputs https://www.ti.com/product/cdce937 18 - CDCE(L)949: 4-PLL, 9 Outputs https://www.ti.com/product/cdce949 23 - ti,cdce913 [all …]
/Documentation/hwmon/
D	nct6775.rst	`19 * Nuvoton NCT5572D/NCT6771F/NCT6772F/NCT6775F/W83677HG-I 83 * Nuvoton NCT6796D-S/NCT6799D-R 93 Guenter Roeck <linux@roeck-us.net> 96 ----------- 120 triggered if the rotation speed has dropped below a programmable limit. On 121 NCT6775F, fan readings can be divided by a programmable divider (1, 2, 4, 8, 130 An alarm is triggered if the voltage has crossed a programmable minimum 138 The mode works for fan1-fan5. 141 ---------------- 143 pwm[1-7] [all …]`
D	pc87360.rst	`22 ----------------- 27 - 0: None 28 - 1: Forcibly enable internal voltage and temperature channels, 30 - 2: Forcibly enable all voltage and temperature channels, except in9 31 - 3: Forcibly enable all voltage and temperature channels, including in9 42 ----------- 56 PC87360 - 2 2 - 0xE1 57 PC87363 - 2 2 - 0xE8 58 PC87364 - 3 3 - 0xE4 60 PC87366 11 3 3 3-4 0xE9 [all …]`
D	adm1026.rst	16 - Philip Pokorny <ppokorny@penguincomputing.com> for Penguin Computing 17 - Justin Thiessen <jthiessen@penguincomputing.com> 20 ----------------- 23 List of GPIO pins (0-16) to program as inputs 26 List of GPIO pins (0-16) to program as outputs 29 List of GPIO pins (0-16) to program as inverted 32 List of GPIO pins (0-16) to program as normal/non-inverted 35 List of GPIO pins (0-7) to program as fan tachs 39 ----------- 45 16 general purpose digital I/O lines, eight (8) fan speed sensors (8-bit), [all …]
/Documentation/misc-devices/
D	xilinx_sdfec.rst	1 .. SPDX-License-Identifier: GPL-2.0+ 4 Xilinx SD-FEC Driver 10 This driver supports SD-FEC Integrated Block for Zynq \|Ultrascale+ (TM)\| RFSoCs. 15 …f SD-FEC core features, see the `SD-FEC Product Guide (PG256) <https://www.xilinx.com/cgi-bin/docs… 19 - Retrieval of the Integrated Block configuration and status information 20 - Configuration of LDPC codes 21 - Configuration of Turbo decoding 22 - Monitoring errors 24 Missing features, known issues, and limitations of the SD-FEC driver are as 27 - Only allows a single open file handler to any instance of the driver at any time [all …]
D	oxsemi-tornado.rst	1 .. SPDX-License-Identifier: GPL-2.0 12 value from 1 to 63.875 in increments of 0.125, and then the usual 16-bit 14 value from 1 to 65535. Finally a programmable oversampling rate is used 21 for the usual 16-bit divisor is 115313.653, which is close enough to the 38 obtained, with either exact or highly-accurate actual bit rates for 39 standard and many non-standard rates. 41 Here are the figures for the standard and some non-standard baud rates 56 r: 3686400, a: 3676470.59, d: -0.2694%, tcr: 8, cpr: 2.125, div: 1 57 r: 3500000, a: 3496503.50, d: -0.0999%, tcr: 13, cpr: 1.375, div: 1 58 r: 3000000, a: 2976190.48, d: -0.7937%, tcr: 14, cpr: 1.500, div: 1 [all …]
/Documentation/admin-guide/
D	rtc.rst	8 the local time zone or daylight savings time -- unless they dual boot 9 with MS-Windows -- but will instead be set to Coordinated Universal Time 12 The newest non-PC hardware tends to just count seconds, like the time(2) 16 Linux has two largely-compatible userspace RTC API families you may 20 so it's not very portable to non-x86 systems. 35 Old PC/AT-Compatible driver: /dev/rtc 36 -------------------------------------- 44 a few ways (enabling longer alarm periods, and wake-from-hibernate). 52 subset of the three programmable values, meaning that it could be set to 59 the type of interrupt (update-done, alarm-rang, or periodic) that was [all …]
/Documentation/driver-api/gpio/
D	intro.rst	17 A "General Purpose Input/Output" (GPIO) is a flexible software-controlled 25 System-on-Chip (SOC) processors heavily rely on GPIOs. In some cases, every 26 non-dedicated pin can be configured as a GPIO; and most chips have at least 27 several dozen of them. Programmable logic devices (like FPGAs) can easily 31 Most PC southbridges have a few dozen GPIO-capable pins (with only the BIOS 36 - Output values are writable (high=1, low=0). Some chips also have 38 value might be driven, supporting "wire-OR" and similar schemes for the 41 - Input values are likewise readable (1, 0). Some chips support readback 42 of pins configured as "output", which is very useful in such "wire-OR" 44 input de-glitch/debounce logic, sometimes with software controls. [all …]
/Documentation/fb/
D	api.rst	`9 --------------- 12 with frame buffer devices. In-kernel APIs between device drivers and the frame 22 --------------- 36 - FB_CAP_FOURCC 44 -------------------- 46 Pixels are stored in memory in hardware-dependent formats. Applications need 58 - FB_TYPE_PACKED_PIXELS 67 - FB_TYPE_PLANES 75 - FB_TYPE_INTERLEAVED_PLANES 86 - FB_TYPE_FOURCC [all …]`
/Documentation/driver-api/
D	xillybus.rst	`10 - Introduction 11 -- Background 12 -- Xillybus Overview 14 - Usage 15 -- User interface 16 -- Synchronization 17 -- Seekable pipes 19 - Internals 20 -- Source code organization 21 -- Pipe attributes [all …]`
/Documentation/trace/coresight/
D	coresight-ect.rst	`1 .. SPDX-License-Identifier: GPL-2.0 11 -------------------- 21 0 C 0----------->: : +======>(other CTI channel IO) 22 0 P 0<-----------: : v 24 0000000 : CTI :<=========>CTM<====>: CTI :---+ 25 ####### in_trigs : : (id 0-3) ***** ::::::: v 26 # ETM #----------->: : ^ ####### 27 # #<-----------: : +---# ETR # 50 The hardware trigger signals can also be connected to non-CoreSight devices 60 --------------------------- [all …]`
/Documentation/ABI/testing/
D	sysfs-bus-counter	`3 Contact: linux-iio@vger.kernel.org 11 Contact: linux-iio@vger.kernel.org 16 MTCLKA-MTCLKB: 20 MTCLKC-MTCLKD: 26 Contact: linux-iio@vger.kernel.org 33 Contact: linux-iio@vger.kernel.org 39 Contact: linux-iio@vger.kernel.org 45 Contact: linux-iio@vger.kernel.org 52 Contact: linux-iio@vger.kernel.org 59 Contact: linux-iio@vger.kernel.org [all …]`
/Documentation/virt/kvm/x86/
D	timekeeping.rst	1 .. SPDX-License-Identifier: GPL-2.0 4 Timekeeping Virtualization for X86-Based Architectures 32 information relevant to KVM and hardware-based virtualization. 41 2.1. i8254 - PIT 42 ---------------- 44 One of the first timer devices available is the programmable interrupt timer, 46 channels which can be programmed to deliver periodic or one-shot interrupts. 53 The PIT uses I/O ports 0x40 - 0x43. Access to the 16-bit counters is done 59 -------------- ---------------- 61 \| 1.1932 MHz\|---------->\| CLOCK OUT \| ---------> IRQ 0 [all …]
/Documentation/arch/arm64/
D	arm-acpi.rst	23 industry-standard Arm systems, they also apply to more than one operating 25 ACPI and Linux only, on an Arm system -- that is, what Linux expects of 30 ---------------- 33 exist in Linux for describing non-enumerable hardware, after all. In this 40 - ACPI’s byte code (AML) allows the platform to encode hardware behavior, 45 - ACPI’s OSPM defines a power management model that constrains what the 49 - In the enterprise server environment, ACPI has established bindings (such 55 - Choosing a single interface to describe the abstraction between a platform 61 - The new ACPI governance process works well and Linux is now at the same 87 interfaces -- one for Linux and one for Windows. [all …]
/Documentation/gpu/
D	introduction.rst	6 complex graphics devices, usually containing programmable pipelines well 23 are written as all-uppercase, for example: DRM, KMS, IOCTL, CRTC, and so 44 Functions which have a non-\ ``void`` return value should have a section 47 section name should be all upper-case or not, and whether it should end 48 in a colon or not. Go with the file-local style. Other common section 55 ----------------------------------- 88 ----------------------- 90 All feature work must be in the linux-next tree by the -rc6 release of the 92 merge window. All patches must have landed in the drm-next tree by latest -rc7, 93 but if your branch is not in linux-next then this must have happened by -rc6 [all …]
/Documentation/devicetree/bindings/remoteproc/
D	ti,k3-r5f-rproc.yaml	1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) 3 --- 4 $id: http://devicetree.org/schemas/remoteproc/ti,k3-r5f-rproc.yaml# 5 $schema: http://devicetree.org/meta-schemas/core.yaml# 10 - Suman Anna <s-anna@ti.com> 13 The TI K3 family of SoCs usually have one or more dual-core Arm Cortex R5F 20 AM64x SoCs do not support LockStep mode, but rather a new non-safety mode 21 called "Single-CPU" mode, where only Core0 is used, but with ability to use 27 Each Dual-Core R5F sub-system is represented as a single DTS node 40 - ti,am62-r5fss [all …]

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