| /bsp/gd32/risc-v/ |
| A D | README.md | 2 # GD32 RISC-V 系列BSP 说明
4 GD32 RISC-V系列 BSP 目前支持情况如下表所示:
16 | [外设驱动使用教程](docs/GD32_RISC-V系列BSP外设驱动使用教程.md) | 讲解 BSP 上更多外设驱动的使用方法 |
17 | [外设驱动介绍与应用](docs/GD32_RISC-V系列驱动介绍.md) | 讲解 GD32 RISC-V系列 BSP 驱动的支持情况,以及如何利用驱动框架开发应用程序 |
19 | [BSP 制作教程](docs/GD32_RISC-V系列BSP制作教程.md) | 讲解 GD32 RISC-V系列 BSP 的制作方法 |
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| /bsp/xuantie/smartl/e907/ |
| A D | README.md | 7 E907 是一款基于 RISC-V 指令集的高性能嵌入式微处理处理器,是玄铁 RISC-V MCU 产品线中的最高性能处理器。E907 主要面向语音、MPU、导航、WiFi 等应用领域。
15 • 支持 RISC-V RV32IMA[F][D]C[P] 指令集;
17 • 支持 RISC-V 32/16 位混编指令集;
19 • 支持 RISC-V 机器模式和用户模式;
41 • 兼容 RISC-V CLIC 中断标准,支持中断嵌套,外部中断源数量最高可配置 240 个;
43 • 兼容 RISC-V PMP 内存保护标准,0/4/8/12/16 区域可配置;
47 • 支持 RISC-V Debug 协议标准;
98 一起为RISC-V加油!
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| /bsp/core-v-mcu/core-v-cv32e40p/ |
| A D | readme.md | 1 # Core-V-MCU BSP 说明
7 Core-V-MCU的目的是展示cv32e40p,这是Open Hardware Group(OpenHW)提供的经过充分验证的RISC-V内核。cv32e40p核心连接到一组具有代表性的外围设备。
9 
11 **Core-V-MCU资源:**
22 更多信息请访问[Core-V-MCU介绍](https://docs.openhwgroup.org/projects/core-v-mcu/doc-src/overview.html)
28 板级包支持 RISC-V GCC 开发环境,以下是具体版本信息:
36 >本章节是为在Core-V-MCU上使用RT-Thread的用户提供,Core-V-MCU目前没有实际的硬件,采用QEMU的方式实现模拟,本文使用的qemu为ubuntu18.04环境下编译qemu。
62 \RISC-V\RISC-V-GCC-RV32\2022-04-12\bin
113 至此,基于Core-V-MCU的RT-Thread工程的配置与运行测试完成。
115 ### 3.3 将RT-Thread工程导入OpenHW的Core-V-IDE
[all …]
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| A D | readme_EN.md | 1 # Core-V-MCU BSP Description
7 The purpose of Core-V-MCU is to show cv32e40p, which is a fully validated RISC-V kernel provided by…
9 
11 **Core-V-MCU resources:**
22 For more information, please visit[Introduction to Core-V-MCU](https://docs.openhwgroup.org/project…
28 The board level package supports the RISC-V GCC development environment. The specific version infor…
36 >This chapter is provided for users who use RT Thread on the Core-V-MCU. At present, the Core-V-MCU…
62 \RISC-V\RISC-V-GCC-RV32\2022-04-12\bin
113 So far, the configuration and running test of RT-Thread project based on Core-V-MCU have been compl…
115 ### 3.3 Import the RT Thread project into OpenHW's Core V-IDE
[all …]
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| /bsp/wch/risc-v/ch32v307v-r1/ |
| A D | README_zh.md | 7 CH32V307V-R1 是 WCH 推出的一款基于 RISC-V 内核的开发板,最高主频为 144Mhz。比较适合入门学习 RISC-V 架构。
20 更多信息和资源请访问[互联型 RISC-V 单片机 CH32V307](https://www.wch.cn/products/CH32V307.html) 以及 [官网文档资料](https://…
24 板级包支持 RISC-V GCC 开发环境,以下是具体版本信息:
28 | GCC | WCH RISC-V GCC 8.2.0 |
40 1. [下载 WCH 编译工具链](https://github.com/NanjingQinheng/sdk-toolchain-RISC-V-GCC-WCH/archive/refs/tags/…
43 4. 并在当前 BSP 根目录下打开 Env 工具并执行 `scons --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0.0\bin` 命令,在指定工具…
54 打开 WCH RISC-V MCU ProgrammerTool 下载软件,选择刚刚生成的 **rtthread.bin** 文件,进行下载。
68 将 WCH RISC-V MCU ProgrammerTool 下载软件替换为 WCH-LinkUtility.[详情](https://club.rt-thread.org/ask/article…
74 使用 **VSCode 终端** 敲入命令 `scons -j12 --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0.0\bin` 来编译工程。
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| A D | README.md | 7 …C-V core-based development board with a maximum main frequency of 144Mhz. It delivers the best val…
34 The BSP supports the RISC-V GCC development environment, here's the specific version information:
38 | GCC | WCH RISC-V GCC 8.2.0 |
48 1. [Download WCH Compile Toolchain](https://github.com/NanjingQinheng/sdk-toolchain-RISC-V-GCC-WCH/…
51 …oot directory and execute the `scons -j12 --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0.0\bin` c…
62 Open the WCH RISC-V MCU ProgrammerTool, select the **rtthread.bin** file that we just generated, an…
83 Use **VSCode terminal** to type command `scons -j12 --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0…
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| /bsp/stm32/stm32h730-esphosted-evb/ |
| A D | stm32h730-ospi1.cfg | 30 # PA07:AF10:V, PA06:AF06:V, PB02:AF09:V, PB01:AF04:V, PB00:AF04:V, PE11:AF11:V
31 # Port A: PA07:AF10:V, PA06:AF06:V
36 # Port B: PB02:AF09:V, PB01:AF04:V, PB00:AF04:V
41 # Port E: PE11:AF11:V
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| /bsp/xuantie/smartl/e906/ |
| A D | README.md | 7 ….xrvm.cn/community/download?id=4222755171580579840) 是一款基于 RISC-V 指令集的高能效嵌入式处理器,是玄铁 RISC-V MCU 产品线中…
15 • 支持 RISC-V RV32IMA[F][D]C[P] 指令集;
16 • 支持 RISC-V 32/16 位混编指令集;
20 • 支持 RISC-V 机器模式和用户模式;
24 • 兼容 RISC-V CLIC 中断标准,支持中断嵌套,外部中断源数量最高可配置 240 个;
25 • 兼容 RISC-V PMP 内存保护标准, 0/4/8/12/16 区域可配置;
107 一起为RISC-V加油!
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| /bsp/xuantie/smartl/e902/ |
| A D | README.md | 7 玄铁 E902 是杭州中天微系统有限公司自主研发的极低功耗、极低成本嵌入式 CPU 核,以 8 位 CPU的成本获得 32 位嵌入式 CPU 的运行效率与性能。E902 兼容 RISC-V 指令架构…
13 • 支持 RISC-V RV32E[M]C 指令集;
19 • 支持 RISC-V 机器模式和用户模式;
25 • 兼容 RISC-V CLIC 中断标准,支持中断嵌套,外部中断源数量最高可配置 240 个;
27 • 兼容 RISC-V PMP 内存保护标准,0/4/8/12/16 区域可配置;
84 一起为RISC-V加油!
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| /bsp/xuantie/xiaohui/c906/ |
| A D | README.md | 7 C906 是基于 RISC-V 指令架构的 64 位超高能效处理器,主要面向安防监控、智能音箱、扫码/刷脸支付等领域。
11 • RV64IMA[FD]C[V] 指令架构;
23 • 支持 RISC-V Debug 标准。
25 • 遵循 RISC-V V 矢量扩展标准(revision 0.7.1);
78 一起为RISC-V加油!
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| /bsp/nuclei/ |
| A D | README.md | 1 # Nuclei RISC-V Processor Support Package
3 This directory provided support for [Nuclei RISC-V Processor](https://nucleisys.com/) based boards,
13 * [Professional RISC-V IPs](https://nucleisys.com/product.php)
16 * [RISC-V MCU Open Source Software Organization in Github](https://github.com/riscv-mcu/)
17 * [RISC-V MCU Open Source Software Organization in Gitee](https://gitee.com/riscv-mcu/)
20 * [Active RISC-V IP and MCU Community](https://www.rvmcu.com/)
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| /bsp/yichip/yc3122-pos/ |
| A D | README.md | 25 - MCU:YC3122 ARM 32-bit Cortex-M0和RISC V 双核处理器,RISC V支持浮点算法主频 192MHz,512KB/1MB/4MB FLASH ,320KB SR…
39 - 7816接口 (接触IC卡,支持3V , 1.8V)
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| /bsp/stm32/stm32f072-st-nucleo/ |
| A D | README.md | 9 … the -40 to +85 °C and -40 to +105 °C temperature ranges, from a 2.0 to 3.6 V power supply. A comp…
11 …ons such as application control and user interfaces, hand-held equipment, A/V receivers and digita…
26 - Digital and I/O supply: VDD= 2.0 V to 3.6 V
27 - Analog supply: VDDA= VDDto 3.6 V
28 - Selected I/Os: VDDIO2= 1.65 V to 3.6 V
45 - Up to 68 I/Os with 5V tolerant capability and 19 with independent supply VDDIO2
51 - Conversion range: 0 to 3.6 V
52 - Separate analog supply: 2.4 V to 3.6 V
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| /bsp/stm32/stm32h743-armfly-v7/ |
| A D | README.md | 89 \- DAC8501双路DAC模块(0-5V)
91 \- DAC8563双路DAC模块( -10V -> +10V)
95 25. 预留有若干5V和3.3V扩展输出IO (挂在32位总线,速度快,占用GPIO资源少)
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| /bsp/microchip/samc21/bsp/hal/documentation/ |
| A D | adc_sync.rst | 14 In differential mode two signals (V+ and V-) are compared against each other
16 V+ and V-. This means that if the input voltage level on V+ is lower than on
17 V- the digital value is negative, which also means that in differential
18 mode one bit is lost to the sign. In single-ended mode only V+ is compared
27 conversion range is from 0V to the reference voltage.
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| /bsp/microchip/saml10/bsp/hal/documentation/ |
| A D | adc_sync.rst | 14 In differential mode two signals (V+ and V-) are compared against each other
16 V+ and V-. This means that if the input voltage level on V+ is lower than on
17 V- the digital value is negative, which also means that in differential
18 mode one bit is lost to the sign. In single-ended mode only V+ is compared
27 conversion range is from 0V to the reference voltage.
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| /bsp/microchip/same70/bsp/hal/documentation/ |
| A D | adc_sync.rst | 14 In differential mode two signals (V+ and V-) are compared against each other
16 V+ and V-. This means that if the input voltage level on V+ is lower than on
17 V- the digital value is negative, which also means that in differential
18 mode one bit is lost to the sign. In single-ended mode only V+ is compared
27 conversion range is from 0V to the reference voltage.
|
| /bsp/sparkfun-redv/ |
| A D | README.md | 1 # SparkFun RED-V #
5 [SparkFun RED-V](https://www.sparkfun.com/products/15594) 是一款基于 RISC-V 架构的低成本开源开发板,核心 SoC Freedom …
14 | 内核 | SiFive E31 RISC-V Core |
38 …e.com/software) 是 SiFive 公司推出的一个集成开发环境,用来编写和调试基于 SiFive 处理器的软件。内嵌了编译好的 RISC-V GCC 工具链、OpenOCD、以及一些…
161 * [RED-V Schematic](https://cdn.sparkfun.com/assets/d/d/1/e/7/RedFive.pdf)
162 * [RED-V Development Guide](https://learn.sparkfun.com/tutorials/red-v-development-guide)
163 * [Getting Started with the SparkFun Red-V](https://www.digikey.dk/da/maker/projects/getting-starte…
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| /bsp/microchip/same54/bsp/hal/documentation/ |
| A D | adc_sync.rst | 14 In differential mode two signals (V+ and V-) are compared against each other
16 V+ and V-. This means that if the input voltage level on V+ is lower than on
17 V- the digital value is negative, which also means that in differential
18 mode one bit is lost to the sign. In single-ended mode only V+ is compared
27 conversion range is from 0V to the reference voltage.
|
| /bsp/wch/risc-v/ch32v103r-evt/ |
| A D | README.md | 4 ch32v103r-evt 是基于 CH32V103 MCU 推出了一款开发板,包含 WCH-Link 调试器,具有丰富的外设,比较适合入门学习 RISC-V 架构。
15 - 供电范围:2.7V ~ 5.5V,GPIO同步供电电压;
36 板级包支持 RISC-V GCC 开发环境,以下是具体版本信息:
40 | GCC | WCH RISC-V GCC 8.2.0 |
72 需要先正确配置 RISC-V GCC 位置,推荐使用 RT_Studio 软件包里的
87 …EXEC_PATH = r'D:/Softwares/RT_ThreadStudio/repo/Extract/ToolChain_Support_Packages/WCH/RISC-V-GC…
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| /bsp/xuantie/xiaohui/c910/ |
| A D | README.md | 9 C910/C920MP 是基于 RISC-V 指令架构的 64 位高性能多核心处理器,主要面向对性能要求严格的边缘计算领域,如边缘服务器、边缘计算卡、高端机器视觉、高端视频监控、自动驾驶、移动智能终…
15 • RISC-V 64GC[V] 指令架构;(C910 不支持 Vector)
104 一起为RISC-V加油!
|
| /bsp/xuantie/xiaohui/r908/ |
| A D | README.md | 7 R908 是一款兼容 RISC-V 架构的 64 位处理器,是面向高可靠性高实时性需求的玄铁 R 系列产品新成员。它在架构上做了全面的更新和升级,对实时性和可靠性做了全面提升,专为高端工控、存储控制…
13 • RISC-V 64GCB[V] 指令架构;
98 一起为RISC-V加油!
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| /bsp/stm32/stm32l053-st-nucleo/ |
| A D | README.md | 14 …/8 devices operate from a 1.8 to 3.6 V power supply (down to 1.65 V at power down) with BOR and fr…
19 - 1.65 V to 3.6 V power supply
36 - Up to 51 fast I/Os (45 I/Os 5V tolerant)
58 - 12-bit ADC 1.14 Msps up to 16 channels (down to 1.65 V)
59 - 12-bit 1 channel DAC with output buffers (down to 1.8 V)
60 - 2x ultra-low-power comparators (window mode and wake up capability, down to 1.65 V)
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| /bsp/stm32/stm32f411-st-nucleo/ |
| A D | README.md | 12 The STM32F411xC/xE operate in the - 40 to + 125 °C temperature range from a 1.7 (PDR OFF) to 3.6 V …
18 - 1.7 V to 3.6 V power supply
25 - 1.7 V to 3.6 V application supply and I/Os
35 - Standby: 1.8 μA @25 °C / 1.7 V without RTC; 11 μA @85 °C @1.7 V
45 - Up to 77 5 V-tolerant I/Os
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| /bsp/hpmicro/hpm6750evk/.settings/ |
| A D | ilg.gnumcueclipse.managedbuild.cross.riscv.prefs | 2 toolchain.path.512258282=${toolchain_install_path}/RISC-V/RISC-V-GCC-RV32/2022-04-12/bin
|