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<li><p>First, you need to prepare an NVMe SSD. The PCIe supported by the M.2 slot of the development board is PCIe2.0x1, and the theoretical maximum speed is 500MB/s. PCIe3.0 and PCIe4.0 NVMe SSDs are also available, but the highest speed is only PCIe2.0x1.</p>
<ol style="list-style-type: lower-alpha;">
<li>The M.2 2230 SSD is as follows</li></ol></li></ol>
[[File:pi3b-img73.png]]
</ol>
<ol start="2" style="list-style-type: lower-alpha;">
<li>The M.2 2242 SSD is as follows</li></ol>
[[File:pi3b-img74.png]]
</ol></li></ol>
<ol start="2" style="list-style-type: decimal;">
<li>Then insert the NVMe SSD into the M.2 PCIe interface of the development board and fix it</li></ol>
[[File:pi3b-img75.png]]
</ol>
<ol start="3" style="list-style-type: decimal;">
<li>The position of the SPI Flash on the development board is shown in the figure below, no other settings are required before starting the programming</li></ol>
[[File:pi3b-img76.png]]
</ol>
<ol start="4" style="list-style-type: decimal;">
<li><p>Burning the Linux image to SPIFlash+NVMe SSD requires a TF card, so first you need to burn the Linux image to the TF card, and then use the TF card to start the development board to enter the Linux system. For the method of burning the Linux image to the TF card, please refer to the instructions in the two sections of [[\l|'''the method of burning the Linux image to the TF card based on the Windows PC''']] and [[\l|'''the method of burning the Linux image to the TF card based on the Ubuntu PC''']].</p></li>