0022 MPSTPU(M.2 M) EN:修订间差异

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== '''关键词''' ==
[[0022 MPSTPU(M.2 M)|切换语言为中文]]
树莓派5、PCIe、TPU、DTPU、驱动安装、操作演示、AI、google、Coral、2230、2242、2280、NVMe SSD、固态硬盘 X1


== '''一、简介''' ==
== '''Keywords''' ==
Coral M.2加速器是一款M.2尺寸的模组,可以通过PCIE接口为树莓派等平台扩展边缘TPU协处理器。我司的MPSTPU扩展板通过PCIe Switch扩展出了两路PCIe接口,其中一路为M.2 M-key接口,可外接M-Key接口的TPU模组;另一路为M.2 M key接口,可外接NVMe SSD固态硬盘。MPSTPU扩展板可在加入TPU边缘计算能力的同时为系统提供SSD海量存储。
Raspberry Pi 5, PCIe, TPU, DTPU, Driver installation, Operation demonstration, AI, google, Coral, 2230, 2242, 2280, NVMe SSD, SSD X1


== '''二、硬件资源''' ==
== '''I. Introduction''' ==
1. 利用树莓派5的PCIe接口,采用PCie Switch芯片,将PCIe一扩二;采用0.5mm间距16Pin PCIe2.0 x1接口连接;
The Coral M.2 Accelerator is an M.2 sized module that can expand edge TPU coprocessing capabilities via the PCIE interface for platforms such as the Raspberry Pi. Our MPSTPU expansion board adds two PCIe interfaces via a PCIe Switch, One is an M.2 E key interface, which can be used to connect a TPU module with an A+E Key interface, the other is an M.2 M key interface, which can be used to connect an NVMe SSD. The MPSTPU expansion board can provide the system with massive SSD storage while adding TPU edge computing capabilities.


2. 引出一路PCIE M.2 M-key接口,支持NVMe协议2230/2242/2280尺寸固态硬盘(默认焊接2280固定柱);注意:不支持NGFF和SATA协议的盘;
== '''II. Hardware Resources''' ==
1. Utilizing the Raspberry Pi 5's PCIe interface, a PCIe Switch chip is used to expand one PCIe slot into two. Uses a 0.5mm pitch 16-pin PCIe 2.0 x1 interface connection.


3. 引出一路PCIE M.2 M-key,支持M key接口的Google Coral Edge TPU;
2. It features one PCIE M.2 M-key slot, supporting NVMe protocol SSDs in 2230/2242/2280 sizes (defaulting to welded 2280 mounting pins). Note: It does not support SSDs that use NGFF and SATA protocols.


4. 引出一路5V电源指示灯("PWR"),一路硬盘工作状态指示灯;
3.It features one PCIE M.2 M-key slot, supports Google Coral Edge TPU with M key interface.


5. 设计采用1.5A高效DC-DC电路,可支持绝大部分固态盘(受限于x1接口,固态盘的实际峰值功耗仅为额定功耗的1/3);
4. A 5V power indicator light ("PWR") and a SSD activity status indicator light are provided.


6. 扩展板采用内凹开槽设计,40Pin上方无遮挡不影响杜邦线连接;
5. The design uses a 1.5A high-efficiency DC-DC circuit, which can support the majority of SSDs. (Due to the x1 interface, the actual peak power consumption of the SSD is only 1/3 of the rated power consumption.)


7. 四个M2.5固定孔,和树莓派5定位孔吻合;
6. The expansion board features an indented slot design, with no obstruction above the 40-pin connector, ensuring that DuPont cable connections are not affected.


8. 沉金工艺,无铅生产;PCB板符合UL和RoHS认证,防火等级94V-0;
7. It uses four M2.5 mounting holes that align with the Raspberry Pi 5 mounting holes.


9. 可选配铝合金外壳。
8. Gold immersion PCB process, lead-free production, certified by UL, compliant with ROHS standards, and has a fire rating of 94V-0.
 
9. It is compatible with an optional aluminum alloy enclosure.


http://www.mcuzone.com/wiki/0022_MPSTPU/0022_MPSTPU_02.jpg
http://www.mcuzone.com/wiki/0022_MPSTPU/0022_MPSTPU_02.jpg


== '''三、系统烧写及设置''' ==
== '''III. System flashing and setting''' ==


=== 3.1 概述 ===
=== 3.1 Overview ===
本文档采用树莓派OS、Ubuntu系统和OpenWrt系统进行测试。
This document uses the Raspberry Pi OS, Ubuntu system and OpenWrt system for testing.


1) 树莓派OS的版本为2024-07-04-raspios-bookworm-arm64.img.xz,树莓派OS下载地址:
The version of the Raspberry Pi OS is: 2024-07-04-raspios-bookworm-arm64.img.xz
 
You can download the Raspberry Pi OS in:


https://www.raspberrypi.com/software/operating-systems/#raspberry-pi-os-64-bit
https://www.raspberrypi.com/software/operating-systems/#raspberry-pi-os-64-bit


2) Ubuntu系统的版本为ubuntu-24.04-preinstalled-desktop-arm64+raspi.img.xz,Ubuntu OS下载地址:
'''''Note: If you want to run the TPU module under Raspberry Pi OS, the TF card used for flashing the system should have a space of at least 16GB, otherwise, it will display space errors during the installation and configuration process!'''''
 
The version of the Ubuntu system is: ubuntu-24.04-preinstalled-desktop-arm64+raspi.img.xz
 
You can download the Ubuntu system in:


https://ubuntu.com/download/raspberry-pi
https://ubuntu.com/download/raspberry-pi


3) OpenWrt系统版本:
The version of the OpenWrt system is: openwrt-bcm27xx-bcm2712-rpi-5-squashfs-sysupgrade-linux-6.1.100-20240805.img.gz
 
openwrt-bcm27xx-bcm2712-rpi-5-squashfs-sysupgrade-linux-6.1.100-20240805.img.gz


=== 3.2 系统烧写在SD(TF)卡上 ===
=== 3.2 System flashed onto the SD (TF) card ===
[[0005 MPS2242 2280 2280P(单SSD扩展板)#3.2 从TF卡启动|点击直达烧写方法说明]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#3.2 Boot from TF card|Click here to read the instructions for System flashing]]


=== 3.3 系统烧写在SSD硬盘上 ===
=== 3.3 System flashed onto the SSD ===
[[0005 MPS2242 2280 2280P(单SSD扩展板)#3.3 从SSD硬盘启动|点击直达烧写方法说明]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#3.3 Boot from SSD|Click here to read the instructions for System flashing]]


== '''IV. Run the TPU module on the Raspberry Pi OS''' ==
== '''IV. Raspberry Pi OS operation demonstration''' ==


=== 4.1 Run the TPU module ===
=== 4.1 Run the TPU module ===
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http://www.mcuzone.com/wiki/0006_MPW7_TPU/0006_MPW7_TPU_31.jpg
http://www.mcuzone.com/wiki/0006_MPW7_TPU/0006_MPW7_TPU_31.jpg


=== '''4.2 NVME SSD硬盘的使用''' ===
=== '''4.2 Using NVMe SSD in the Raspberry Pi OS''' ===
关于对SSD硬盘的基本操作,我们可以参考以下链接:
For basic operations on the SSD, we can refer to the following link:


[[0005 MPS2242 2280 2280P(单SSD扩展板)#4.1 SSD用作存储扩展|SSD用作存储扩展(树莓派OS下)]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#4.1 Use the SSD for storage expansion|Use the SSD for storage expansion (Raspberry Pi OS)]]


[[0005 MPS2242 2280 2280P(单SSD扩展板)#六、对SSD进行分区等操作|对SSD进行分区等操作]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#VI. Perform partitioning and other operations on the SSD|Perform partitioning and other operations on the SSD]]


[[0005 MPS2242 2280 2280P(单SSD扩展板)#cite ref-1|调整外设启动顺序]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#cite ref-1|Adjust the peripheral boot order]]


[[0005 MPS2242 2280 2280P(单SSD扩展板)#7.2 在PCIe Gen2下测试硬盘速度|安装硬盘测速软件hdparm]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#7.2 Test the SSD speed in PCIe Gen2 mode|Install the SSD speed testing software hdparm]]


关于如何测试SSD硬盘,我们可以参考以下链接:
For how to test the SSD, we can refer to the following link:


[[0008 MPS2.5G(SSD和2.5G以太网)#4.2 SSD硬盘测试|SSD硬盘测试(树莓派OS下)]]
[[0008 MPS2.5G(SSD和2.5G以太网)#4.2 SSD硬盘测试|SSD硬盘测试(树莓派OS下)]]


== '''五、Ubuntu系统下使用SSD硬盘''' ==
== '''V. Using SSD in the Ubuntu system''' ==
关于对SSD硬盘的基本操作,我们可以参考以下链接,除了SSD用作存储扩展中与树莓派OS下操作略有不同,其余部分基本相同:
For basic operations on the SSD, we can refer to the following link, apart from the SSD being used for storage expansion, which operates slightly differently under Raspberry Pi OS, the rest is basically the same.


[[0005 MPS2242 2280(单SSD扩展板)#5.1 SSD用作存储扩展|SSD用作存储扩展(Ubuntu系统下)]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#5.1 Use the SSD for storage expansion|Use the SSD for storage expansion(Ubuntu system)]]


[[0005 MPS2242 2280(单SSD扩展板)#六、对SSD进行分区等操作|对SSD进行分区等操作]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#VI. Perform partitioning and other operations on the SSD|Perform partitioning and other operations on the SSD]]


[[0005 MPS2242 2280(单SSD扩展板)#cite ref-1|调整外设启动顺序]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#cite ref-1|Adjust the peripheral boot order]]


[[0005 MPS2242 2280(单SSD扩展板)#7.2 在PCIe Gen2下测试硬盘速度|安装硬盘测速软件hdparm]]
[[0005 MPS2242 2280 2280P(Single SSD Expansion Board)#7.2 Test the SSD speed in PCIe Gen2 mode|Install the SSD speed testing software hdparm]]


关于如何测试SSD硬盘,我们可以参考以下链接:
For how to test the SSD, we can refer to the following link:


[[0008 MPS2.5G(SSD和2.5G以太网)#5.2 SSD硬盘测试|SSD硬盘测试(Ubuntu系统下)]]
[[0008 MPS2.5G(SSD和2.5G以太网)#5.2 SSD硬盘测试|SSD硬盘测试(Ubuntu系统下)]]


== '''六、OpenWrt系统下使用SSD硬盘''' ==
== '''VI. Using SSD in the OpenWrt system''' ==
关于如何在OpenWrt系统下使用SSD硬盘,我们可以参考以下链接:
For how to use the SSD in the OpenWrt system, we can refer to the following link:


[[2001 CM4 Ultra(CM4核心板的扩展板)#5.5 SSD硬盘测试|SSD硬盘测试(OpenWrt系统下)]]
[[2001 CM4 Ultra(CM4核心板的扩展板)#5.5 SSD硬盘测试|SSD硬盘测试(OpenWrt系统下)]]


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2024年9月4日 (三) 15:55的最新版本

切换语言为中文

Keywords

Raspberry Pi 5, PCIe, TPU, DTPU, Driver installation, Operation demonstration, AI, google, Coral, 2230, 2242, 2280, NVMe SSD, SSD X1

I. Introduction

The Coral M.2 Accelerator is an M.2 sized module that can expand edge TPU coprocessing capabilities via the PCIE interface for platforms such as the Raspberry Pi. Our MPSTPU expansion board adds two PCIe interfaces via a PCIe Switch, One is an M.2 E key interface, which can be used to connect a TPU module with an A+E Key interface, the other is an M.2 M key interface, which can be used to connect an NVMe SSD. The MPSTPU expansion board can provide the system with massive SSD storage while adding TPU edge computing capabilities.

II. Hardware Resources

1. Utilizing the Raspberry Pi 5's PCIe interface, a PCIe Switch chip is used to expand one PCIe slot into two. Uses a 0.5mm pitch 16-pin PCIe 2.0 x1 interface connection.

2. It features one PCIE M.2 M-key slot, supporting NVMe protocol SSDs in 2230/2242/2280 sizes (defaulting to welded 2280 mounting pins). Note: It does not support SSDs that use NGFF and SATA protocols.

3.It features one PCIE M.2 M-key slot, supports Google Coral Edge TPU with M key interface.

4. A 5V power indicator light ("PWR") and a SSD activity status indicator light are provided.

5. The design uses a 1.5A high-efficiency DC-DC circuit, which can support the majority of SSDs. (Due to the x1 interface, the actual peak power consumption of the SSD is only 1/3 of the rated power consumption.)

6. The expansion board features an indented slot design, with no obstruction above the 40-pin connector, ensuring that DuPont cable connections are not affected.

7. It uses four M2.5 mounting holes that align with the Raspberry Pi 5 mounting holes.

8. Gold immersion PCB process, lead-free production, certified by UL, compliant with ROHS standards, and has a fire rating of 94V-0.

9. It is compatible with an optional aluminum alloy enclosure.

0022_MPSTPU_02.jpg

III. System flashing and setting

3.1 Overview

This document uses the Raspberry Pi OS, Ubuntu system and OpenWrt system for testing.

The version of the Raspberry Pi OS is: 2024-07-04-raspios-bookworm-arm64.img.xz

You can download the Raspberry Pi OS in:

https://www.raspberrypi.com/software/operating-systems/#raspberry-pi-os-64-bit

Note: If you want to run the TPU module under Raspberry Pi OS, the TF card used for flashing the system should have a space of at least 16GB, otherwise, it will display space errors during the installation and configuration process!

The version of the Ubuntu system is: ubuntu-24.04-preinstalled-desktop-arm64+raspi.img.xz

You can download the Ubuntu system in:

https://ubuntu.com/download/raspberry-pi

The version of the OpenWrt system is: openwrt-bcm27xx-bcm2712-rpi-5-squashfs-sysupgrade-linux-6.1.100-20240805.img.gz

3.2 System flashed onto the SD (TF) card

Click here to read the instructions for System flashing

3.3 System flashed onto the SSD

Click here to read the instructions for System flashing

IV. Raspberry Pi OS operation demonstration

4.1 Run the TPU module

This chapter introduces how to run the TPU module on the Raspberry Pi OS.

The steps in this chapter apply to both systems booting from TF card and from SSD.

4.1.1 Config config.txt

After the system boots, open the Raspberry Pi terminal and enter the command:

sudo nano /boot/firmware/config.txt

Or:

sudo mousepad /boot/firmware/config.txt

Add the codes in the ending of this file:

dtparam=pciex1

kernel=kernel8.img

dtoverlay=pineboards-hat-ai

0006_MPW7_TPU_01.jpg

0006_MPW7_TPU_02.jpg

Then, save the file and reboot the system:

sudo reboot

4.1.2 Ensuring software environment

After reboot the system, open the Raspberry Pi terminal and enter the command:

uname -r

After ensuring the kernel version is greater than 4.18, enter:

lsmod | grep apex

Ensure there is no output, then you can begin installing the TPU driver.

0006_MPW7_TPU_03.jpg

4.1.3 Install necessary software

Ensure the network is connected to internet connection to the regions out of China (you may need to find your own method), and then add the Google TPU software library:

echo "deb https://packages.cloud.google.com/apt coral-edgetpu-stable main" | sudo tee /etc/apt/sources.list.d/coral-edgetpu.list

curl https://packages.cloud.google.com/apt/doc/apt-key.gpg | sudo apt-key add -

0006_MPW7_TPU_04.jpg

Update the software list after adding:

sudo apt-get update

0006_MPW7_TPU_06.jpg

Install the necessary software after the update is completed:

sudo apt-get install cmake libedgetpu1-std devscripts debhelper dkms dh-dkms

0006_MPW7_TPU_07.jpg

0006_MPW7_TPU_08.jpg

4.1.4 Install Gasket Driver

Enter the following commands in sequence to install the Gasket Driver:

git clone https://github.com/google/gasket-driver.git

cd gasket-driver

sudo debuild -us -uc -tc -b

cd ..

sudo dpkg -i gasket-dkms_1.0-18_all.deb

0006_MPW7_TPU_09.jpg

0006_MPW7_TPU_10.jpg

0006_MPW7_TPU_11.jpg

After the installation is complete, enter the following command to ensure that the driver and software were installed successfully:

sudo apt-get install gasket-dkms libedgetpu1-std

0006_MPW7_TPU_12.jpg

Then, add a udev rule to obtain device operation permissions:

sudo sh -c "echo 'SUBSYSTEM==\"apex\", MODE=\"0660\", GROUP=\"apex\"' >> /etc/udev/rules.d/65-apex.rules"

add user to apex:

sudo groupadd apex

sudo adduser $USER apex

0006_MPW7_TPU_13.jpg

Reboot the system after the setup is complete:

sudo reboot

4.1.5 Verification module testing and driver installation

After system starting, verification module testing and driver installation:

lspci -nn | grep 089a

Here, you need to see the TPU module, as shown in the following figure (specific parameter display is subject to the actual device):

ls /dev/apex_0

0006_MPW7_TPU_14.jpg

This board has a single TPU onboard, so you can see a TPU module:

By entering sudo lspci -v, you can see the driver loading, this must include the TPU driver, and if an SSD is inserted, it also needs to include the SSD module, as shown in the following figure:

0013_MPTPU_M_01.jpg

4.1.6 Configuration of the Code Execution Environment

Running Google TPU module code requires Python versions between 3.6 and 3.9, while the latest Raspberry Pi system is Python 3.11. Therefore, we need to use Pyenv to download an older version of Python.

First, install the depends:

sudo apt-get install -y make build-essential libssl-dev zlib1g-dev \libbz2-dev libreadline-dev libsqlite3-dev wget curl llvm libncurses5-dev \libncursesw5-dev xz-utils tk-dev libffi-dev liblzma-dev python3-openssl

0006_MPW7_TPU_17.jpg

0006_MPW7_TPU_18.jpg

Install pyenv after the depends are installed:

curl https://pyenv.run | bash

0006_MPW7_TPU_19.jpg

Enter the command:

sudo nano ~/.bashrc

Or:

sudo mousepad ~/.bashrc

Add the codes in the ending of this file:

export PYENV_ROOT="$HOME/.pyenv"

[[ -d $PYENV_ROOT/bin ]] && export PATH="$PYENV_ROOT/bin:$PATH"

eval "$(pyenv init -)"

0006_MPW7_TPU_36.jpg

0006_MPW7_TPU_21.jpg

Save and exit after adding, then reload the shell:

exec "$SHELL"

0006_MPW7_TPU_22.jpg

Then, we can use pyenv to install an older version of Python:

pyenv install -v 3.8.8

0006_MPW7_TPU_23.jpg

0006_MPW7_TPU_24.jpg

After the installation is successful, we will change the system Python version to 3.8.8:

pyenv global 3.8.8

After the change is successful, you can check the current Python version is 3.8.8:

pyenv versions

python3 -V

0006_MPW7_TPU_25.jpg

4.1.7 Download the code and run the module

Enter the following commands in sequence to download:

mkdir coral && cd coral

git clone https://github.com/google-coral/pycoral.git

cd pycoral

cd test_data

git clone https://github.com/google-coral/test_data.git

0006_MPW7_TPU_26.jpg

0006_MPW7_TPU_27.jpg

Then, download the code and run the module:

pip3 install numpy

0006_MPW7_TPU_28.jpg

pip3 install Pillow

0006_MPW7_TPU_29.jpg

pip3 install --extra-index-url https://google-coral.github.io/py-repo/ pycoral

0006_MPW7_TPU_30.jpg

4.1.8 Run the code

After the module download is complete, back to the coral/pycoral path:

cd ..

Enter the following code to run it:

0006_MPW7_TPU_39.jpg

Note: You can copy the following code, but please paste it into a text editor first. Then, following the format shown above, remove any extra enter. After that, copy it again and paste it into the terminal to run.

python3 examples/classify_image.py \

--model test_data/test_data/mobilenet_v2_1.0_224_inat_bird_quant_edgetpu.tflite \

--labels test_data/test_data/inat_bird_labels.txt \

--input test_data/test_data/parrot.jpg

0006_MPW7_TPU_31.jpg

4.2 Using NVMe SSD in the Raspberry Pi OS

For basic operations on the SSD, we can refer to the following link:

Use the SSD for storage expansion (Raspberry Pi OS)

Perform partitioning and other operations on the SSD

Adjust the peripheral boot order

Install the SSD speed testing software hdparm

For how to test the SSD, we can refer to the following link:

SSD硬盘测试(树莓派OS下)

V. Using SSD in the Ubuntu system

For basic operations on the SSD, we can refer to the following link, apart from the SSD being used for storage expansion, which operates slightly differently under Raspberry Pi OS, the rest is basically the same.

Use the SSD for storage expansion(Ubuntu system)

Perform partitioning and other operations on the SSD

Adjust the peripheral boot order

Install the SSD speed testing software hdparm

For how to test the SSD, we can refer to the following link:

SSD硬盘测试(Ubuntu系统下)

VI. Using SSD in the OpenWrt system

For how to use the SSD in the OpenWrt system, we can refer to the following link:

SSD硬盘测试(OpenWrt系统下)

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