| Device | Specifications | Status | |--------|----------------|--------| | | Dual‑core Cortex‑A53 @ 1.0 GHz, 512 MB RAM, 256 MB flash, AX3000 Wi‑Fi | Ethernet and Wi‑Fi fully functional | | Linksys MX5500 (Atlas 6 Pro) | Same as MX2000 with enhanced coverage | Supported in snapshots | | Linksys SPNMX56 / MX56 (Toob variant) | IPQ5018‑based ISP router | Installable via serial/TFTP; snapshot builds available | | GL.iNET GL-B3000 (AX3000) | IPQ5018, 512 MB DDR3, 128 MB NAND, QCN6102 5 GHz radio, QCA8337 switch | Merged via PR #17903; factory and sysupgrade images available | | TP-Link EAP650‑Outdoor v1 | IPQ5018, 512 MB RAM, 128 MB NAND, QCN6024 5 GHz, PoE‑powered | Supported as of May 2026; installation via TFTP | | Xiaomi CR8818 | IPQ5018, 256 MB RAM, 128 MB flash, QCN6122 5 GHz (AX3000‑class) | Added via PR #23147; low‑end variant of Xiaomi AX6000 |
With the processing power of the IPQ5018, cryptographic calculations become highly performant. OpenWrt supports WireGuard, a modern, lightweight VPN protocol. An IPQ5018 running WireGuard can easily handle high-speed encrypted tunnels, allowing you to access your home network securely from anywhere in the world or route your entire home traffic through a privacy-focused VPN provider. Tailored Extensibility
The list of IPQ5018-based devices with OpenWrt support is growing steadily. The following tables summarize the most notable models.
The integration of IPQ5018 support introduced changes to the generic NAND driver, which temporarily broke boot on other Qualcomm targets (e.g., ipq807x/DL‑WRX36). The root cause was traced to ECC setting mismatches in the QPIC SPI NAND driver, and fixes have since been applied. However, users should be aware that early snapshot builds may occasionally exhibit storage‑related issues; it is wise to keep a backup of the stock firmware and a known‑good OpenWrt image before upgrading. Ipq5018 Openwrt
The Qualcomm (code-named "Maple") is a mid-range Wi-Fi 6 System-on-Chip (SoC) that has become a popular target for OpenWrt enthusiasts and industrial hardware manufacturers alike. Known for balancing cost-efficiency with modern AX3000 performance, it serves as the backbone for several high-performance routers and industrial routerboards. IPQ5018 Specifications & Architecture Go to product viewer dialog for this item.
Qualcomm's IPQ5018 system-on-chip (SoC) has quietly emerged as one of the most compelling platforms in the Wi-Fi 6 router market, and its integration into the OpenWrt ecosystem has turned it into a favorite among networking enthusiasts and developers alike. When combined with OpenWrt's powerful open-source framework, IPQ5018-based routers transform from simple consumer appliances into fully customizable, high-performance networking hubs. This article explores everything you need to know about the IPQ5018 OpenWrt ecosystem, from hardware specifications and installation guides to performance insights and community-driven development.
The good news is that mainline Linux kernel support for the IPQ50xx series has matured significantly. Developers have been working diligently to mainline the code. This means the drivers for the CPU, the internal Wi-Fi radio, and the switch ports are slowly making their way into the official OpenWrt source tree. The root cause was traced to ECC setting
The benefits are clear: you gain complete control over your network, escape the vulnerabilities and limitations of proprietary firmware, and often improve performance. While there may be some initial setup effort and a few minor bugs to work through (especially on brand-new devices), the vibrant community and rapid pace of development mean these are quickly resolved.
Enforce security to ensure modern client devices connect using the highest efficiency Wi-Fi 6 protocols.
Stock firmware for IPQ5018 devices often lacks advanced features and requires vendor registration. provides: Method A: Official OpenWrt Trunk/Stable Releases
Some IPQ5018 devices appear to boot at 800 MHz instead of the maximum 1.0 GHz, with frequency scaling not fully functional. The CPU frequency is set during U‑Boot initialization and currently remains fixed. Workarounds include modifying U‑Boot environment variables or patching the device tree, but no official solution exists yet. This is an area where community contributions would be particularly valuable.
Because the IPQ5018 is a highly customized ARM platform, installation procedures vary significantly compared to standard x86 computers. The installation path generally falls into two distinct categories. Method A: Official OpenWrt Trunk/Stable Releases
Creating...