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24 :ref:`nucleo_l073rz_board` as follows:35 :ref:`nucleo_l152re_board` as follows:46 :ref:`nucleo_f767zi_board` as follows:57 :ref:`stm32f3_disco_board` as follows:68 :ref:`nucleo_f429zi_board` as follows:79 :ref:`stm32l562e_dk_board` as follows:90 :ref:`nucleo_l552ze_q_board` as follows:101 follows:115 follows:129 executed for the :ref:`bl652_dvk` as follows:[all …]
26 Sample can be built and executed for the FRDM-K64F as follows:46 Sample can be built and executed for the FRDM-K22F as follows:69 Sample can be built and executed for the TWR-KE18F as follows:80 Sample can be built and executed for the FRDM-KL25Z as follows:92 Sample can be built and executed for the Micro Bit as follows:104 Sample can be built and executed for the reel board as follows:116 Sample can be built and executed for the MIMXRT685-EVK as follows:128 Sample can be built and executed for the MIMXRT595-EVK as follows:
15 This application can be built and executed on QEMU as follows:24 Open a new terminal and use gdb to connect to the running qemu as follows:
44 In the Zephyr console, zperf can be executed as follows:59 config file, zperf can be started as follows:73 If Zephyr is acting as a server, set the download mode as follows for UDP:
29 as follows:39 Then the sample can be built and executed for the as follows:
34 * add it as follows according to the clock tree of CCM in reference manual. in get_pwm_clock_freq()59 * add it as follows according to the clock tree of CCM in reference manual. in get_pwm_clock_freq()
84 /** The actual message data follows */94 * 0x0001 : The net_mgmt event info message follows directly
34 * The Galileo board virtualizes IRQs as follows:62 * architecture is defined as follows in include/arch/x86/arch.h
15 The sample can be built and executed on nrf52840dk_nrf52840 as follows:
34 follows:53 The sample can be built and executed for the FRDM-K64F as follows:72 The sample can be built and executed for the STM32F072RB Discovery as follows:91 The sample can be built and executed for the STM32F3 Discovery as follows:125 python-can backend as follows:148 can be done as follows:158 `can-utils`_ package as follows:395 for the FRDM-K64F as follows:
21 set rx-channels of muA as follows:
26 It can be built and executed on Musca B1 CPU 0 as follows:35 It can be built and executed on Musca B1 CPU 1 as follows:
20 Build and flash as follows, changing ``nrf52dk_nrf52832`` for your board:
15 Build and flash Twinkie as follows:
15 This application can be built and executed on QEMU as follows:
18 # Ensure the flashing order of images is as follows:
15 be built as follows:
13 * follows:
20 which can be configured as follows
46 You can also use west as follows:54 …``<MPS2 device name>/MB/HBI0263C/AN521/images.txt``. Edit the ``AN521/images.txt`` file as follows:90 be run via ``qemu-system-arm``. The binary can be executed as follows:156 J-Link as follows:
22 It can be built and executed on QEMU as follows:
15 The sample can be built as follows:
29 This application can be built and executed on native_posix as follows:
21 Build and flash as follows, replacing ``stm32f3_disco`` with your board:
19 This application can be built and executed as follows:
