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Board photo

Google Kukui EC

STM32F098RCH6
System on Chip
Google
Vendor

Supported software


Zephyr RTOS

Hello World


A simple sample that prints “Hello World” to the console.

Run locally

You can run the Hello World demo on the Google Kukui EC board by following the instructions below. Assuming you have Python 3 and pip installed on your Linux machine, run the following commands to download Renode and the prebuilt binaries for this demo, and then run the simulation in Renode on your own machine:

pip3 install --user --upgrade git+https://github.com/antmicro/renode-run.git
renode-run demo -b google_kukui hello_world

Run in Colab

You can run this demo instantly on a cloud server in Google Colab by clicking the button below.

Colab

Run google_kukui hello_world demo in Google Colab.

UART output

Trace

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the Hello World demo

SBOM data

Download Software Bill of Materials data for the Hello World demo

Robot Test Suite Log

See a Robot test results for the Hello World demo

Shell Module


This demo demonstrates the Zephyr shell submodule, which allows the user to use a console interface to control the operating system.

Run locally

You can run the Shell Module demo on the Google Kukui EC board by following the instructions below. Assuming you have Python 3 and pip installed on your Linux machine, run the following commands to download Renode and the prebuilt binaries for this demo, and then run the simulation in Renode on your own machine:

pip3 install --user --upgrade git+https://github.com/antmicro/renode-run.git
renode-run demo -b google_kukui shell_module

Run in Colab

You can run this demo instantly on a cloud server in Google Colab by clicking the button below.

Colab

Run google_kukui shell_module demo in Google Colab.

UART output

Trace

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the Shell Module demo

SBOM data

Download Software Bill of Materials data for the Shell Module demo

Robot Test Suite Log

See a Robot test results for the Shell Module demo

Philosophers


An implementation of a solution to the Dining Philosophers problem which demonstrates the usage of multiple preemptible and cooperative threads of differing priorities, as well as dynamic mutexes and thread sleeping.

Run locally

You can run the Philosophers demo on the Google Kukui EC board by following the instructions below. Assuming you have Python 3 and pip installed on your Linux machine, run the following commands to download Renode and the prebuilt binaries for this demo, and then run the simulation in Renode on your own machine:

pip3 install --user --upgrade git+https://github.com/antmicro/renode-run.git
renode-run demo -b google_kukui philosophers

Run in Colab

You can run this demo instantly on a cloud server in Google Colab by clicking the button below.

Colab

Run google_kukui philosophers demo in Google Colab.

UART output

Trace

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the Philosophers demo

SBOM data

Download Software Bill of Materials data for the Philosophers demo

Robot Test Suite Log

See a Robot test results for the Philosophers demo

TensorFlow Lite Micro


This sample TensorFlow application replicates a sine wave and demonstrates the basics of using TensorFlow Lite Micro. The model included with the sample is trained to replicate a sine function and generates x values to print alongside the y values predicted by the model.

Run locally

You can run the TensorFlow Lite Micro demo on the Google Kukui EC board by following the instructions below. Assuming you have Python 3 and pip installed on your Linux machine, run the following commands to download Renode and the prebuilt binaries for this demo, and then run the simulation in Renode on your own machine:

pip3 install --user --upgrade git+https://github.com/antmicro/renode-run.git
renode-run demo -b google_kukui tensorflow_lite_micro

Run in Colab

You can run this demo instantly on a cloud server in Google Colab by clicking the button below.

Colab

Run google_kukui tensorflow_lite_micro demo in Google Colab.

UART output

Trace

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the TensorFlow Lite Micro demo

SBOM data

Download Software Bill of Materials data for the TensorFlow Lite Micro demo

Robot Test Suite Log

See a Robot test results for the TensorFlow Lite Micro demo

MicroPython


This demo demonstrates the MicroPython Zephyr port by performing arithmetic operations, and by defining and calling simple functions.

Run locally

You can run the MicroPython demo on the Google Kukui EC board by following the instructions below. Assuming you have Python 3 and pip installed on your Linux machine, run the following commands to download Renode and the prebuilt binaries for this demo, and then run the simulation in Renode on your own machine:

pip3 install --user --upgrade git+https://github.com/antmicro/renode-run.git
renode-run demo -b google_kukui micropython

Run in Colab

You can run this demo instantly on a cloud server in Google Colab by clicking the button below.

Colab

Run google_kukui micropython demo in Google Colab.

UART output

Trace

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the MicroPython demo

SBOM data

Download Software Bill of Materials data for the MicroPython demo

Robot Test Suite Log

See a Robot test results for the MicroPython demo

Blinky


A basic sample that blinks an LED forever using the Zephyr GPIO API.

Run locally

The Blinky demo is not supported in the Renode Zephyr dashboard on Google Kukui EC yet.

You can contact us by clicking the button below if you want to see it supported.

Contact us

Download

Build artifacts

Download binaries, Renode scripts and other artifacts for the Blinky demo

SBOM data

Download Software Bill of Materials data for the Blinky demo

Components


STM32F098RCH6

stm32f098rch6

Device tree


Device tree

Hierarchical device data structure

Renode dts2repl

Converted device tree source into Renode .repl file

Specification


Frequency:

unknown

Flash:

256 KiB

RAM:

32 KiB

ADDRESS SPACE ID TYPE DRIVER PERIPHERAL
ADDRESS SPACE 0x08000000 - 0x08040000 ID flash0 TYPE mtd DRIVER PERIPHERAL ST stm32-nv-flash
ADDRESS SPACE 0x40003000 - 0x40003400 ID iwdg TYPE watchdog DRIVER driver PERIPHERAL ST stm32-watchdog
ADDRESS SPACE 0x40005400 - 0x40005800 ID i2c1 TYPE i2c DRIVER driver PERIPHERAL ST stm32-i2c-v2
ADDRESS SPACE 0x40005800 - 0x40005c00 ID i2c2 TYPE i2c DRIVER driver PERIPHERAL ST stm32-i2c-v2
ADDRESS SPACE 0x40010400 - 0x40010800 ID exti TYPE interrupt-controller DRIVER PERIPHERAL ST stm32-exti
ADDRESS SPACE 0x40013800 - 0x40013c00 ID usart1 TYPE serial DRIVER driver PERIPHERAL ST stm32-usart
ADDRESS SPACE 0x40021000 - 0x40021400 ID rcc TYPE clock DRIVER PERIPHERAL ST stm32f0-rcc
ADDRESS SPACE 0x40022000 - 0x40022400 ID flash TYPE flash-controller DRIVER PERIPHERAL ST stm32-flash-controller
ADDRESS SPACE 0x48000000 - 0x48001800 ID pinctrl TYPE pinctrl DRIVER PERIPHERAL ST stm32-pinctrl
ADDRESS SPACE 0x48000000 - 0x48000400 ID gpioa TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0x48000400 - 0x48000800 ID gpiob TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0x48000800 - 0x48000c00 ID gpioc TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0x48000c00 - 0x48001000 ID gpiod TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0x48001000 - 0x48001400 ID gpioe TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0x48001400 - 0x48001800 ID gpiof TYPE gpio DRIVER driver PERIPHERAL ST stm32-gpio
ADDRESS SPACE 0xe000e010 - 0xe000e020 ID systick TYPE timer DRIVER PERIPHERAL ARM armv6m-systick
ADDRESS SPACE 0xe000e100 - 0xe000ed00 ID nvic TYPE interrupt-controller DRIVER PERIPHERAL ARM v6m-nvic
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