Interior design
The DXP6800 Pro gives us access to the two DDR5 SO-DIMM slots and the M.2 NVMe connection options without any major disassembly.
If you remove all the slots, you can take a first look inside. From this perspective, it is dominated by the large SATA backplane for the hard disks.
As with the smaller brothers, these small rubber plugs have to be removed to open the back.
Six screws and a little gentle force later, the cover is out of the way, but we’re not much further along yet.
Instead of one large fan, this time we find two smaller ones, which fits the form factor better.
The screwed-on feet also serve to secure the internal structure, so they also have to be removed.
Once the other screws around the edge have also been removed, the contents can be pushed forward as a whole.
The assembly is much more complex this time and I took the photos before my test due to time constraints, so for once I’m not taking everything apart.
We therefore only catch a glimpse of the rest of the motherboard, including the free-standing PCIe 4.0 X4, from the side.
Incidentally, the internal power supply only has two cables. One goes directly a short distance further into the mainboard, the second towards the SATA backplane.
The case still looks really funny when it’s completely empty in front of you.
00:00.0 Host bridge: Intel Corporation Device 4601 (rev 04)
00:02.0 VGA compatible controller: Intel Corporation Alder Lake-UP3 GT2 [UHD Graphics] (rev 0c)
00:07.0 PCI bridge: Intel Corporation Alder Lake-P Thunderbolt 4 PCI Express Root Port #0 (rev 04)
00:07.2 PCI bridge: Intel Corporation Alder Lake-P Thunderbolt 4 PCI Express Root Port #2 (rev 04)
00:0d.0 USB controller: Intel Corporation Alder Lake-P Thunderbolt 4 USB Controller (rev 04)
00:0d.2 USB controller: Intel Corporation Alder Lake-P Thunderbolt 4 NHI #0 (rev 04)
00:0d.3 USB controller: Intel Corporation Alder Lake-P Thunderbolt 4 NHI #1 (rev 04)
00:14.0 USB controller: Intel Corporation Alder Lake PCH USB 3.2 xHCI Host Controller (rev 01)
00:14.2 RAM memory: Intel Corporation Alder Lake PCH Shared SRAM (rev 01)
00:15.0 Serial bus controller: Intel Corporation Alder Lake PCH Serial IO I2C Controller #0 (rev 01)
00:15.1 Serial bus controller: Intel Corporation Alder Lake PCH Serial IO I2C Controller #1 (rev 01)
00:16.0 Communication controller: Intel Corporation Alder Lake PCH HECI Controller (rev 01)
00:17.0 SATA controller: Intel Corporation Alder Lake-P SATA AHCI Controller (rev 01)
00:1c.0 PCI bridge: Intel Corporation Device 51b8 (rev 01)
00:1c.2 PCI bridge: Intel Corporation Device 51ba (rev 01)
00:1c.4 PCI bridge: Intel Corporation Device 51bc (rev 01)
00:1c.6 PCI bridge: Intel Corporation Device 51be (rev 01)
00:1d.0 PCI bridge: Intel Corporation Alder Lake PCI Express Root Port (rev 01)
00:1f.0 ISA bridge: Intel Corporation Alder Lake PCH eSPI Controller (rev 01)
00:1f.3 Audio device: Intel Corporation Alder Lake PCH-P High Definition Audio Controller (rev 01)
00:1f.4 SMBus: Intel Corporation Alder Lake PCH-P SMBus Host Controller (rev 01)
00:1f.5 Serial bus controller: Intel Corporation Alder Lake-P PCH SPI Controller (rev 01)
55:00.0 Non-Volatile memory controller: Kingston Technology Company, Inc. A2000 NVMe SSD (rev 03)
56:00.0 Non-Volatile memory controller: Phison Electronics Corporation PS5013 E13 NVMe Controller (rev 01)
57:00.0 Ethernet controller: Aquantia Corp. device 04c0 (rev 03)
58:00.0 Ethernet controller: Aquantia Corp. device 04c0 (rev 03)
59:00.0 SATA controller: ASMedia Technology Inc. device 1164 (rev 02)
And here is the output of Lspci, for those who are interested.
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