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- 2020年5月8日 (五) 22:22 Regulator overview (历史) [13,452字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article Purpose == This article aims to explain how to use regulators: * how to configure a regulator on a Linux BSP * how to access a regulator from a kernel sp…”)
- 2020年5月8日 (五) 22:22 Power overview (历史) [10,867字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“==Framework purpose== The purpose of this article is to explain how to handle the STM32MP15x low-power modes: * Low-power modes available on the device * Linux sof…”)
- 2020年5月8日 (五) 22:11 Bluetooth overview、 (历史) [6,817字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article explains how a Bluetooth framework is composed, how to configure it, and how to use it. == Framework purpose == '''Bluetooth''' is a protocol for wire…”)
- 2020年5月8日 (五) 00:02 HDP Linux driver (历史) [2,237字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article introduces the '''Hardware Debug Port''' which allows the observation of internal signals. By using multiplexers, up to 16 signals…”)
- 2020年5月7日 (四) 23:59 Coresight overview (历史) [5,773字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article explains how Coresight IP is composed, how to configure it, and how to use it. == Framework purpose == ARM '''Coresight''' products include a wide ra…”)
- 2020年5月7日 (四) 23:59 Watchdog overview (历史) [4,365字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article provides information on the Linux<sup>®</sup> WDT (Watchdog Timer) framework.<br/> It explains how to activate the WDT interface and, based on examp…”)
- 2020年5月7日 (四) 23:57 PWM overview (历史) [9,769字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux<sup>®</sup> PWM framework.<br /> It explains how to activate the PWM interface and, based on examples, how to use…”)
- 2020年5月7日 (四) 23:57 How to use the RTC (历史) [4,574字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“__TOC__ <br /> ==Purpose== This article describes how to use the RTC. The RTC overview is described in the RTC overview article. <br/> == How to set a hardwar…”)
- 2020年5月7日 (四) 23:56 RTC overview (历史) [21字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“{{UnderConstruction}} <noinclude> 0 {{PublicationRequestId | | 2019-01-28 | Automatic approval (article under construction)}} {{ArticleBasedOnMode…”)
- 2020年5月7日 (四) 23:54 Reset overview (历史) [4,314字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“The Linux<sup>®</sup> kernel reset framework offers a generic API for reset lines management at platform level.<br /> <br> == Framework purpose == The purpose o…”)
- 2020年5月7日 (四) 23:54 Reserved memory (历史) [1,585字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == The '''Reserved-memory''' mechanism<ref>https://www.kernel.org/doc/Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt</ref>…”)
- 2020年5月7日 (四) 23:53 Overview of GPIO pins (历史) [2,518字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“Each STM32 ball/pin is multiplexed in order to support multiple functions. For example, an STM32 pin can operate in three different modes: GPIO, alternate functions…”)
- 2020年5月7日 (四) 23:53 How to control a GPIO in userspace (历史) [4,657字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“==Purpose== This article shows two ways to control a GPIO in userspace: *using libgpiod *by writing an application ==GPIO control through libgpiod == libgpiod provi…”)
- 2020年5月7日 (四) 23:52 How to control a GPIO in kernel space (历史) [3,039字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“==Purpose== This article gives an example of a driver that '''controls GPIOs from kernel space'''.<br/> Sample source files are provided as examples: '''kernel modu…”)
- 2020年5月7日 (四) 23:50 GPIOLib overview (历史) [8,105字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“The purpose of this article is to explain how the GPIOlib framework manages IOs/pins, how to configure it, and how to use it. ==Framework purpose== As explain in …”)
- 2020年5月7日 (四) 23:49 Pinctrl overview (历史) [15,685字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article explains how '''pinctrl''' framework manages IOs/pins, how to configure it, and how to use it. ==Framework purpose== Many of the microprocessor pins (…”)
- 2020年5月7日 (四) 23:48 Interrupt overview (历史) [9,220字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article explains stm32mp157 interrupt topology and its management on Linux<sup>®</sup> environment. ==Framework purpose== The Linux<sup>®</sup> kernel…”)
- 2020年5月7日 (四) 23:48 Hardware spinlock overview (历史) [4,991字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux<sup>®</sup> hardware spinlock framework. It explains how to activate the hardware spinlock framework and, based o…”)
- 2020年5月7日 (四) 23:46 Dmaengine overview (历史) [8,792字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article provides basic information about the DMA engine and how STM32 DMA, DMAMUX and MDMA drivers are plugged into it. == Framework purpose == This article p…”)
- 2020年5月7日 (四) 23:45 Clock overview (历史) [26,158字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux® Clock framework. <br> Clocks are generally provided by internal/external oscillators or PLLs. <br> They can pass thr…”)
- 2020年5月7日 (四) 23:45 Resource manager for coprocessing (历史) [15,239字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Principles == The multiprocessors enables the possibility to run independent firmwares on several cores. Under that context, a core could use some peripherals wit…”)
- 2020年5月7日 (四) 23:44 Linux RPMsg framework overview (历史) [5,734字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux® Remote Processor Messaging (RPMsg) framework. The RPMsg framework is a virtio-based messaging bus that allows a loca…”)
- 2020年5月7日 (四) 23:41 Linux remoteproc framework overview (历史) [8,700字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux<sup>®</sup> remoteproc framework. ==Framework purpose== The remote processor (RPROC) framework allows the differe…”)
- 2020年5月7日 (四) 23:40 Linux Mailbox framework overview (历史) [3,376字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“This article gives information about the Linux<sup>®</sup> mailbox framework. The mailbox framework is involved in interprocessor communication in heterogeneous…”)
- 2020年5月7日 (四) 23:36 How to exchange large data buffers with the coprocessor - princi (历史) [5,627字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Introduction == As explained in "Exchanging_buffers_with_the_coprocessor", the RPMsg protocol may be not efficient enough to directly exchange large buffers…”)
- 2020年5月7日 (四) 23:32 Exchanging buffers with the coprocessor (历史) [5,033字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Introduction == In the STM32MPU Embedded Software distribution, the RPMsg protoco…”)
- 2020年5月7日 (四) 23:31 Coprocessor resource table (历史) [4,504字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Role of the resource table== The resource table is a global variable declared as a structure in the coprocessor firmware. This table contains resources that the r…”)
- 2020年5月7日 (四) 11:20 Coprocessor management troubleshooting grid (历史) [4,846字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“<onlyinclude> Some typical issues related to the management of a coprocessor are listed below. Solutions or debugging methods are proposed for these issues. If your…”)
- 2020年5月7日 (四) 11:19 Coprocessor management overview (历史) [3,913字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“'''SUMMARY '''<br> This article provides an overview of the management of the heterogeneous asymmetric architecture implemented in the STM32 MPU microprocessor famil…”)
- 2020年5月7日 (四) 10:20 U-Boot和Linux中文参考指南 (历史) [13,226字节] Wiki(讨论 | 贡献) (创建页面,内容为“=Abstract== =Introduction=== ==Copyright== ==Disclaimer== ==Availability== ==Credits== ==Translations== ==Feedback== ==Conventions== =Embedded Linux Development Kit=…”)
- 2020年5月7日 (四) 09:10 Troubleshooting grid table template (历史) [319字节] Wiki(讨论 | 贡献) (创建页面,内容为“<onlyinclude> {| class="st-table" style="width: 100%;" |- style="background: {{STLightGrey}};" ! style="text-align: center; width:60%;" | Symptom ! style="text-align…”)
- 2020年5月6日 (三) 23:28 TIM Linux driver (历史) [3,819字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article introduces the TIM Linux<sup>®</sup> driver for the TIM internal peripheral<ref name="TIM internal peripheral">TIM internal…”)
- 2020年5月6日 (三) 23:27 LPTIM Linux driver (历史) [4,235字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article introduces the LPTIM Linux<sup>®</sup> driver for the LPTIM internal peripheral<ref name="LPTIM internal peripheral">LPTIM i…”)
- 2020年5月6日 (三) 23:26 IIO Linux kernel tools (历史) [2,285字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“Linux<sup>®</sup> kernel provides some user space tools that can be used for testing the IIO subsystem. == Article purpose == The purpose of th…”)
- 2020年5月6日 (三) 23:25 How to use the IIO user space interface (历史) [16,683字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“How to use the IIO user space interface with a user terminal. ==Purpose== This article describes how to use the IIO with a user terminal.<br/> The…”)
- 2020年5月6日 (三) 23:24 DFSDM Linux driver (历史) [5,785字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == The purpose of this article is to introduce the Linux<sup>®</sup> driver for the DFSDM internal peripheral: * Which DFSDM features are…”)
- 2020年5月6日 (三) 23:15 Device tree (历史) [6,118字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“==Purpose== The objective of this chapter is to give general information about the device tree.<br /> An extract of the '''device tree specification'''<ref name="dt_…”)
- 2020年5月6日 (三) 23:12 Platform configuration overview (历史) [3,086字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“{{ReviewsComments| LPA W905.5: this page is an overview or a category ? goal of this page is unclear for me<br> * JCT W906: to me, this page ins interesting as an in…”)
- 2020年5月6日 (三) 23:10 STM32MP15 device tree (历史) [7,666字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Purpose and scope == This article shows the structure of the device tree files as it is implemented in STM32MP15 for the following software components: STM32MP1…”)
- 2020年5月6日 (三) 23:08 STM32MP15 DMA (历史) [2,831字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“__FORCETOC__ == Article purpose == The purpose of this article is to explain STM32MP15 DMA topology and the associated configurations recommended by ST. == STM32MP…”)
- 2020年5月6日 (三) 23:06 STM32MP15 interrupts (历史) [185字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“{{UnderConstruction}} <noinclude> 4 {{PublicationRequestId | | 2019-01-28 | Automatic approval (article under construc…”)
- 2020年5月6日 (三) 23:05 STM32MP15 backup registers (历史) [8,401字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“__FORCETOC__ == Article purpose == The purpose of this article is to explain how the TAMP backup registers are used by STM32MPU Embed…”)
- 2020年5月6日 (三) 22:44 STM32MP15 Flash mapping for Android (历史) [1,028字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“__FORCETOC__ == Overview == This article shows the default memory mapping defined by STMicroelectronics in STM32MPU Embedded Software architecture overview|STM32M…”)
- 2020年5月6日 (三) 22:42 STM32MP15 Flash mapping (历史) [6,868字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Supported Flash memory technologies == The STM32MP15 boards support different kind of Flash memories: * A SD card connected to an SDMMC interface, which is presen…”)
- 2020年5月6日 (三) 22:40 STM32MP15 clock tree (历史) [53,733字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“__FORCETOC__ All the peripherals receive one or several clocks that are generated via RCC internal peripheral. RCC relies on several clocks sources (LSI, LSE, H…”)
- 2020年5月6日 (三) 22:17 TIM device tree configuration (历史) [11,278字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == The purpose of this article is to explain how to configure the ''timer (TIM)''<ref name="TIM internal peripheral"> TIM internal peripheral…”)
- 2020年5月6日 (三) 22:07 RTC device tree configuration (历史) [3,022字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article explains how to configure the '''RTC''' internal peripheral when it is assigned to the Linux<sup>®…”)
- 2020年5月6日 (三) 22:07 RNG device tree configuration (历史) [3,340字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article explains how to configure the '''RNG''' internal peripheral when it is assigned to the Linux<sup>®…”)
- 2020年5月6日 (三) 22:05 Reset device tree configuration (历史) [3,580字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Article purpose == This article explains how to configure the '''RCC''' internal peripheral when it is assigned to the Linux<sup>®…”)
- 2020年5月6日 (三) 22:00 Pinctrl device tree configuration (历史) [7,712字节] Zhouyuebiao(讨论 | 贡献) (创建页面,内容为“== Purpose == The purpose of this article is to explain how to configure the GPIO internal peripheral through '''the pin controller (pinctrl) framework''', '''wh…”)