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@sr4armbian You could try building your own X98H image and use the kernel headers from your build. Your kernel headers will be in the build/output/debs directory, and the image will be in the build/output/images directory. I would recommend starting with a fresh install with this new image and kernel headers. git clone https://github.com/NickAlilovic/build.git --branch v20250306 cd build ./compile.sh choose "Do not change kernel configuration" choose "Show CSC/WIP/EOS/TVB" choose "I understand and agree" choose "X98H" choose "edge" rest is up to you... I used this method to get my display working. But that was a while ago.

@Jacob George So we will be able to boot Windows on the A733 soon? This would be fun.

It seems there is a 4GB limit. Someone forked llama.cpp (so you can run GGUF models) and found a way to get rid of the 4GB limit.

Here is an IMG with just u-boot flash to it; https://github.com/pyavitz/binary/releases/download/images/k1-spacemit-boot.img Using it will bypass the SPI and allow you to boot from USB NVME EMMC. Granted, an Armbian IMG would need to have already been flashed or transferred to one of them. It could be useful if say, you b0rked the SPI and wanna attempt to fix it or to use the SD card as a chainload mech to boot into the NVMe.

Hi everyone, I'm running a few services on an Armbian-based SBC and need a reliable SMTP Service Provider for system alerts, backup reports, and application notifications. Has anyone here used SMTP Service Provider iDealSMTP with Armbian, or compared it with other SMTP solutions for lightweight ARM servers? I'm interested in deliverability, ease of setup, and long-term reliability. I'd appreciate any experiences or recommendations. Thanks!

Patched the .dtb for v6.1, currently not yet in final format. I will probably create a commit to Armbian with a .dts for our board. I am attaching the dtb/dts just to keep track of the progress. Here are results of the RKNN test launch: rknn_api/rknnrt version: 2.3.2 (429f97ae6b@2025-04-09T09:09:27), driver version: 0.9.8 model input num: 1, output num: 1 input tensors: index=0, name=input, n_dims=4, dims=[1, 224, 224, 3], n_elems=150528, size=150528, fmt=NHWC, type=INT8, qnt_type=AFFINE, zp=0, scale=0.007812 output tensors: index=0, name=MobilenetV1/Predictions/Reshape_1, n_dims=2, dims=[1, 1001, 0, 0], n_elems=1001, size=2002, fmt=UNDEFINED, type=FP16, qnt_type=AFFINE, zp=0, scale=1.000000 custom string: Begin perf ... 0: Elapse Time = 8.06ms, FPS = 124.12 ---- Top5 ---- 0.935059 - 156 0.057037 - 155 0.003881 - 205 0.003119 - 284 0.000172 - 285 So: CPU: OK GPU: OK via Panfrost NPU: OK, RKNN inference works on RKNPU rk3566-box-X88PRO20-npu.dtb rk3566-box-X88PRO20-npu.dts

Refer to the experiences here: I think someone wrote that the mainline kernel has NPU support. Is this NPU going to load only models that are in the Rockchip model repository?

This week's updates center on new board enablement, Rockchip platform refinements, and tooling and kernel maintenance. Board support expanded across multiple silicon families, with the addition of Seeed Studio reComputer RK3576/RK3588 DevKits and the Anbernic RG DS handheld image. The EasePi A2/R2 received substantial revisions to its board configurations and device trees, alongside a vendor logo transition to Linkease. SpacemiT K1 boot support was updated, and per-SoC LINUXCONFIG separation was introduced for the TQ family to better isolate kernel configurations. Rockchip received the bulk of low-level improvements. Notable changes include AUX recovery for USB-C DP Alt Mode in the dw-dp driver, device-tree-based LED configuration for the r8169/r8125 controllers, and an updated patch ensuring stable PCIe Ethernet MAC addresses across many boards. Additional fixes resolve slow WiFi on the NanoPi R76S via SDIO SDR104, enable Bluetooth on the Orange Pi 5 Ultra edge kernel, and restore the tm16xx driver on current kernels. On the tooling and maintenance side, Armbian Imager 2.0 was released, the mainline kernel was bumped to 7.1-rc6, and the rtl8192eu driver was re-enabled following a cleanup of compilation warnings. A previously merged USB gadget NULL pointer fix was reverted pending further evaluation. #Armbian #EmbeddedLinux #Rockchip #SBC #KernelDevelopment Changesmainline: bump to 7.1-rc6. by @EvilOlaf in armbian/build#9922Add Anbernic RG DS board image and Anbernic vendor logo. by @crackerjacques in armbian/armbian.github.io#326Add jellyfin-ffmpeg release constraints and ip-wrapper for easepi-r2. by @ifroncy01 in armbian/build#9942arm64: dts: overlay: add radxa display 8hd for rock5t. by @Ken-Vamrs in armbian/linux-rockchip#498board-vendor-logos: update EasePi vendor logo to Linkease. by @ifroncy01 in armbian/armbian.github.io#321drm: rockchip: dw-dp: add AUX recovery for USB-C DP Alt Mode. by @mingzhangqun in armbian/linux-rockchip#494easepi-r2/a2: fix device tree. by @jjm2473 in armbian/linux-rockchip#491feat(boards): Add Seeed Studio reComputer RK3576/RK3588 DevKit support. by @baorepo in armbian/build#9719Give each TQ SoC family its own LINUXCONFIG. by @schmiedelm in armbian/build#9924Introducing Armbian Imager 2.0. by @SuperKali in armbian/imager#143Milk-V Jupiter disable EEPROM node. by @pyavitz in armbian/build#9944nanopi-r76s: fix slow WiFi by enabling SDIO SDR104. by @SuperKali in armbian/build#9929net: r8169: add device tree based LED configuration for r8125. by @mingzhangqun in armbian/linux-rockchip#497orangepi5-ultra: enable Bluetooth on edge kernel via hci_bcm. by @pdapandapda in armbian/build#9697Revert "rockchip64: fix USB gadget NULL pointer crash in eth_get_drvinfo (6.18 + 7.0)". by @EvilOlaf in armbian/build#9926rockchip64: enable back tm16xx driver for current kernel. by @paolosabatino in armbian/build#9941rockchip64: update "describe PCIe Ethernet controllers" patch for stable MAC (many boards). by @rpardini in armbian/build#9933rtl8192eu: re-enable and fix tons of compilation warnings. by @EvilOlaf in armbian/build#9927SpacemiT: Update K1 boot support. by @pyavitz in armbian/build#9930Treat imx93 as slow hardware. by @schmiedelm in armbian/armbian.github.io#323Update EasePi A2/R2 board configs and device trees for improved hardware support. by @ifroncy01 in armbian/build#9907Update VERSION. by @EvilOlaf in armbian/build#9938View the full article

This week's updates center on new board enablement, Rockchip platform refinements, and tooling and kernel maintenance. Board support expanded across multiple silicon families, with the addition of Seeed Studio reComputer RK3576/RK3588 DevKits and the Anbernic RG DS handheld image. The EasePi A2/R2 received substantial revisions to its board configurations and device trees, alongside a vendor logo transition to Linkease. SpacemiT K1 boot support was updated, and per-SoC LINUXCONFIG separation was introduced for the TQ family to better isolate kernel configurations. Rockchip received the bulk of low-level improvements. Notable changes include AUX recovery for USB-C DP Alt Mode in the dw-dp driver, device-tree-based LED configuration for the r8169/r8125 controllers, and an updated patch ensuring stable PCIe Ethernet MAC addresses across many boards. Additional fixes resolve slow WiFi on the NanoPi R76S via SDIO SDR104, enable Bluetooth on the Orange Pi 5 Ultra edge kernel, and restore the tm16xx driver on current kernels. On the tooling and maintenance side, Armbian Imager 2.0 was released, the mainline kernel was bumped to 7.1-rc6, and the rtl8192eu driver was re-enabled following a cleanup of compilation warnings. A previously merged USB gadget NULL pointer fix was reverted pending further evaluation. #Armbian #EmbeddedLinux #Rockchip #SBC #KernelDevelopment Changesmainline: bump to 7.1-rc6. by @EvilOlaf in armbian/build#9922Add Anbernic RG DS board image and Anbernic vendor logo. by @crackerjacques in armbian/armbian.github.io#326Add jellyfin-ffmpeg release constraints and ip-wrapper for easepi-r2. by @ifroncy01 in armbian/build#9942arm64: dts: overlay: add radxa display 8hd for rock5t. by @Ken-Vamrs in armbian/linux-rockchip#498board-vendor-logos: update EasePi vendor logo to Linkease. by @ifroncy01 in armbian/armbian.github.io#321drm: rockchip: dw-dp: add AUX recovery for USB-C DP Alt Mode. by @mingzhangqun in armbian/linux-rockchip#494easepi-r2/a2: fix device tree. by @jjm2473 in armbian/linux-rockchip#491feat(boards): Add Seeed Studio reComputer RK3576/RK3588 DevKit support. by @baorepo in armbian/build#9719Give each TQ SoC family its own LINUXCONFIG. by @schmiedelm in armbian/build#9924Introducing Armbian Imager 2.0. by @SuperKali in armbian/imager#143Milk-V Jupiter disable EEPROM node. by @pyavitz in armbian/build#9944nanopi-r76s: fix slow WiFi by enabling SDIO SDR104. by @SuperKali in armbian/build#9929net: r8169: add device tree based LED configuration for r8125. by @mingzhangqun in armbian/linux-rockchip#497orangepi5-ultra: enable Bluetooth on edge kernel via hci_bcm. by @pdapandapda in armbian/build#9697Revert "rockchip64: fix USB gadget NULL pointer crash in eth_get_drvinfo (6.18 + 7.0)". by @EvilOlaf in armbian/build#9926rockchip64: enable back tm16xx driver for current kernel. by @paolosabatino in armbian/build#9941rockchip64: update "describe PCIe Ethernet controllers" patch for stable MAC (many boards). by @rpardini in armbian/build#9933rtl8192eu: re-enable and fix tons of compilation warnings. by @EvilOlaf in armbian/build#9927SpacemiT: Update K1 boot support. by @pyavitz in armbian/build#9930Treat imx93 as slow hardware. by @schmiedelm in armbian/armbian.github.io#323Update EasePi A2/R2 board configs and device trees for improved hardware support. by @ifroncy01 in armbian/build#9907Update VERSION. by @EvilOlaf in armbian/build#9938View the full article

Hello everyone! I'm using this patch set from github to run armbian on x88pro13 (which has RK3528 with Mali 450 MP2). Everything seems to work fine (even wifi), but i'm not able to enable hw acceleration on kodi interface (it shows llvmpipe, so it's sw rendering) Do you have any hints on how to do that? Because at the moment i get 80% cpu just for the kodi gui. Thanks!

I see similar issues with some s905x2 and some s905c3 boxes I have. I've never dug into the issue to see what is happening, but the workaround that works for my cases is that when the boot from emmc fails, I boot from an SD card (I have an SD card ready just for this). Then reboot from emmc, and then it usually will boot. For some reason a successful boot from SD clears up something that then allows the emmc to boot properly. This is what works for me, don't know if your situation is the same or different but you can try.

Thank you for sharing this detailed guide and the partition layout. Getting Debian Trixie up and running on a Teclast tablet is an impressive piece of engineering, and your warning about the 1.8V logic levels will definitely save some hardware from getting fried. Have you made any progress with the aic8800 Wi-Fi driver yet? Also, how is the rest of the hardware behaving with the Radxa kernel?

Let us know @johlnx

I did more of a dance with AI and eventually got it working. This was the real repo: https://github.com/radxa-pkg/aic8800 Got the AI to write a summary of the dance. Phase 1: Resolving the Tooling and Environment Dependencies We started with a clean, lightweight system image missing common Linux development tools. We methodically installed the software compilation and packaging toolchain required to handle vendor drivers: Kernel Headers: Replaced the generic linux-headers-$(uname -r) command with the specific architecture branch package (linux-headers-current-arm64) to give the driver access to the Linux kernel API blueprints. Line Ending Conversions: Installed dos2unix to fix internal cross-platform formatting issues within the raw source files. Packaging Toolchain: Installed devscripts, debhelper, and fakeroot to fulfill the minimum environment demands of the dpkg-buildpackage engine. DKMS Engine Helpers: Installed dh-dkms to handle the missing modern virtual package mapping (dh-sequence-dkms). Phase 2: Resolving Kernel Version API Incompatibilities Because the hardware driver code was originally written for older Linux builds, trying to compile it directly against a modern 6.18 kernel threw standard compilation crashes. We bypassed the rigid Debian patch architecture and fixed the source code directly: Signature Alignment: Modified the function argument signature for .get_tx_power in rwnx_main.c to support the newer 5-parameter layout required by the upstream kernel (struct wiphy *wiphy, struct wireless_dev *wdev, int bss_idx, unsigned int link_id, int *mbm). Variable Alignment: Updated the interior variable name pointer within that function definition from dbm to mbm to match modern wireless power unit metrics used in current Linux network subsystems. Phase 3: Bypassing Packaging & Direct Kernel Compilation Rather than battling failing packaging lint tests or restrictive file verification scripts, we pivoted to an elegant, direct implementation: Dropped straight into the target interface folder (src/USB/driver_fw/drivers/aic8800/). Ran a direct raw build command targeting the standalone USB interface module flag: make CONFIG_AIC8800_USB=m. Manually pushed the generated binaries directly into the system kernel storage directory tree using sudo make install and synchronized the dependency layout using depmod -a. Phase 4: Correcting Firmware Pathing & Module Sequence The driver successfully built and registered with the kernel, but the physical USB bus threw initialization timeouts (bus is not up=0). We fixed the underlying hardware communication pipeline: Firmware Relocation: Traced the location of the compiled firmware folder hidden within the repository's package blueprints, and copied the raw firmware files directly into the absolute hardware search path at /lib/firmware/aic8800D80/. Sequential Probing: Cleared out the broken module states and forced the hardware interface modules to load in their structural order—giving the hardware bus loader helper (aic_load_fw) a 2-second sleep window to awaken the USB links before initializing the operational wireless adapter engine (aic8800_fdrv).

You will have to make a choice which bootloader firmware you use. And then also which boot method and/or bootmanager. Armbian images for Rockchip SBC's are as simple as possible, so only 1 OS, no ad-hoc kernel selection. That means 1 partition for rootfs, no others. Different methods have different advantages and disadvantages. If you want other boot method and/or bootmanager, you will need to add a boot partition yourself, usually FAT formatted and type 0xEF00 (called ESP). The Armbian rockchip64 supports it all, no problem. Especially the Rock5B, which is more or less the blue-print of high-end ARM64 SBC. But all this own custom action also make it not Armbian anymore, but just a generic UEFI ARM64 computer. Where you could also boot from a CD-ROM .iso image and run a traditional Linux distro installer like used on x86 PC's.

You made me curious, so I rebooted for the first time after my previous report to activate my current versions. I' m now at kernel 7.0.0-0.rc1.15.fc45.aarch64 and U-Boot 2026.07-rc1 (May 22 2026 - 00:00:00 +0000). No regressions can be observed and it works as fast as before.

Orange Pi 5 Ultra HDMI RX no video when connecting Walksnail VTX Ascent. When I connect Walksnail Ascent VRX, the picture is fine, but when I connect VTX Ascent to VRX, the system doesn't see the HDMI RX. Specifically, it sees the source but can't lock it. The settings are set to 1080p60. I've tried different kernel and OS builds, but the result remains the same. What are the ways to solve this problem at the software level, since I specifically chose the Orange Pi 5 Ultra because of its built-in HDMI IN. [ 41.859256] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 42.371741] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 43.358027] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 43.358032] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 [ 47.623748] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 48.131739] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 49.106851] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 49.106858] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 [ 53.409063] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 53.921736] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 54.876109] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 54.876117] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 [ 59.155931] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 59.678402] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 60.623901] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 60.623907] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 [ 64.892299] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 65.411737] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 66.391898] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 66.391904] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 [ 70.706000] fdee0000.hdmirx-controller: Vertical Sync threshold reached interrupt 0x2 [ 71.225068] rk_hdmirx fdee0000.hdmirx-controller: hdmirx_delayed_work_audio: enable audio [ 72.155904] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing signal not lock, tmds_clk_ratio:0 [ 72.155910] fdee0000.hdmirx-controller: hdmirx_wait_lock_and_get_timing mu_st:0x2, scdc_st:0x1, dma_st10:0x10 That's just when the Walksnail VRX ascension begins on orangepi@orangepi5-ultra:~$ v4l2-ctl -d "$DEV" --get-dv-timings Video timings: Active width: 1280 Active height: 720 Total width: 1650 Total height: 750 Frame format: progressive Polarity: +vsync +hsync Pixel frequency: 74250000 Hz (60.00 frames per second) Horizontal front panel: 110 Horizontal synchronization: 40 Horizontal rear panel: 220 Vertical front panel: 5 Vertical synchronization: 5 Vertical screen: 20 Standards: CTA-861 CTA-861 VIC: 4 Flags: frame rate can be reduced by 1/1.001, CE-video, has CTA-861 VIC Here is an example of how you can connect Walksnail VTX Ascent to VRX Ascent - HDMI in Orange Pi 5 Ultra orangepi@orangepi5-ultra:~$ v4l2-ctl -d "$DEV" --query-dv-timings VIDIOC_QUERY_DV_TIMINGS: error: Locking not available Active width: 0 Active height: 0 Total width: 0 Total height: 0 Frame format: Progressive

We're releasing Armbian Imager 2.0. We rebuilt the whole thing, the interface and the flashing engine underneath it. The part you'll notice first: your board boots already set up. Username, password, Wi-Fi, timezone, language. You tell Imager once, it writes that into the image, and the board comes up configured on first boot. No monitor, no keyboard, none of that blind first login. Set it up once. It configures itself.This is the big change in 2.0. You build a profile in settings: username and password, an SSH key, your Wi-Fi network and country code, timezone, locale, shell. Imager writes it straight into the image's filesystem while it flashes. Power on the board, it reads the profile and brings itself up. Qualcomm boards over QDL get the same treatment. It's the difference between "flash, hook up a screen and keyboard, sit through the setup" and "flash, slot the card, switch on." I didn't expect to care this much about it, and now I can't flash without it. Pick everything on one screenThe old pop-up windows are gone. In their place is a single animated flow: manufacturer, board, OS, device, all on one page that moves with you. You page through the board and vendor grids, the distro logos are drawn by hand, and the app glides instead of slamming between screens. Settings got the same redesign. So did the cache manager, which now shows where your gigabytes actually went, by category, and clears them in a tap. Know what you're writing before you write itEvery image tells you what it is up front: build date, badges for the desktop and the kernel branch, a label when it ships with something preinstalled like the SDK build, openHAB, or Kali. Anything you've already downloaded carries a small check, so you don't pull it twice. If you want the trunk rolling releases, there's a filter for them, with a plain warning before you commit. And images that can't be written to a card, like the VM disk formats, simply aren't in the list. Every write, checked byte for byteThe download is verified against its SHA256. After writing, the app reads the card back and compares it to the source, byte for byte. While that runs, your board floats over a warm glow that follows the progress, with one line telling you the stage instead of a wall of numbers. When the check turns green, it's because the data on the card matches. Not because we're optimistic. Bring your own images, online or offlineHave an image of your own? Drop it in. We handle img, iso, xz, gz, bz2, and zst, and decompress before writing. Lose your connection partway through the day and Imager still works: the offline mode was reworked so your cache and your own files stay one click away. The same app on Mac, Linux, and WindowsSame look and behavior on all three. On Mac it's a single universal build for Intel and Apple Silicon. Pick a light theme, a dark one, or let it follow the system. Eighteen languages, chosen automatically from your locale. Free and open source, the way it started. Get itArmbian Imager 2.0 is available now, free, on Mac, Linux, and Windows. It does the same job it always has, writing a good image to a card. The new part is what happens after: you power the board on, and it's already yours. Download Armbian Imager 2.0 View the full article

We're releasing Armbian Imager 2.0. We rebuilt the whole thing, the interface and the flashing engine underneath it. The part you'll notice first: your board boots already set up. Username, password, Wi-Fi, timezone, language. You tell Imager once, it writes that into the image, and the board comes up configured on first boot. No monitor, no keyboard, none of that blind first login. Set it up once. It configures itself.This is the big change in 2.0. You build a profile in settings: username and password, an SSH key, your Wi-Fi network and country code, timezone, locale, shell. Imager writes it straight into the image's filesystem while it flashes. Power on the board, it reads the profile and brings itself up. Qualcomm boards over QDL get the same treatment. It's the difference between "flash, hook up a screen and keyboard, sit through the setup" and "flash, slot the card, switch on." I didn't expect to care this much about it, and now I can't flash without it. Pick everything on one screenThe old pop-up windows are gone. In their place is a single animated flow: manufacturer, board, OS, device, all on one page that moves with you. You page through the board and vendor grids, the distro logos are drawn by hand, and the app glides instead of slamming between screens. Settings got the same redesign. So did the cache manager, which now shows where your gigabytes actually went, by category, and clears them in a tap. Know what you're writing before you write itEvery image tells you what it is up front: build date, badges for the desktop and the kernel branch, a label when it ships with something preinstalled like the SDK build, openHAB, or Kali. Anything you've already downloaded carries a small check, so you don't pull it twice. If you want the trunk rolling releases, there's a filter for them, with a plain warning before you commit. And images that can't be written to a card, like the VM disk formats, simply aren't in the list. Every write, checked byte for byteThe download is verified against its SHA256. After writing, the app reads the card back and compares it to the source, byte for byte. While that runs, your board floats over a warm glow that follows the progress, with one line telling you the stage instead of a wall of numbers. When the check turns green, it's because the data on the card matches. Not because we're optimistic. Bring your own images, online or offlineHave an image of your own? Drop it in. We handle img, iso, xz, gz, bz2, and zst, and decompress before writing. Lose your connection partway through the day and Imager still works: the offline mode was reworked so your cache and your own files stay one click away. The same app on Mac, Linux, and WindowsSame look and behavior on all three. On Mac it's a single universal build for Intel and Apple Silicon. Pick a light theme, a dark one, or let it follow the system. Eighteen languages, chosen automatically from your locale. Free and open source, the way it started. Get itArmbian Imager 2.0 is available now, free, on Mac, Linux, and Windows. It does the same job it always has, writing a good image to a card. The new part is what happens after: you power the board on, and it's already yours. Download Armbian Imager 2.0 View the full article

SoC:ik316-h board: IK316Q-EMCP_V4.1 i belive it's apart of the h6 familly, correct me if i'm wrong. Well, i'm trying to boot from a sd card, but it doesn't work, i tried the toothpick methof but it still don't work. I tried with the sd and without the sd card, but it doesn't enter into android recovery mode, the only way i can get into fastboot is by using adb, however if i try to enter the bootloader by selecting it on the andorid recovery or fastboot menu it just crashes. Do you guys know any way of how can i proceed? Will be better if i change the firmware? Should i just buy ice cream and cry in the shower? I need help, the img i'm using is Armbian_community_26.2.0-trunk.886_X96q_trixie_current_6.18.28_minimal.img, because i believe it's the most compatible to my board. Feel free to ask any questions.

Hey Community, I've been running a few services on Armbian devices and recently reviewed options for handling automated email notifications. Using an SMTP Service Provider like iDealSMTP for server alerts, backup reports, and application notifications seems like a practical approach when reliable email delivery is important. For small ARM-based servers, having proper SMTP authentication, delivery tracking, and support for transactional emails can simplify administration without requiring a fully self-hosted mail server. Sharing this as a discussion topic for anyone using email notifications on their Armbian systems.

Another option is to wipe the U-Boot from the SD-card and just use the SD-card only, no USB-adaptor needed. Then the only U-Boot in the system is the one in SPI-flash. I have done that once on an SBC with no SPI-flash but eMMC where the bootloader is stored. And that also involves GPT partitions and so on, not independent like SPI-flash. But as Werner says, backup is easy. For old 32-bit Armbians, I made some function in my unattended backup scripting to do that, so that after a year(s) or so, I can restore to get exactly the same system (when SD-card gets bad/broken for example).

Thanks for the guide - got my X96 Air back up and running after it died after running fine

Sorry, forgot about that. Here are logs from a boot of Debian minimal with GNOME and updated packages: https://paste.armbian.com/eyaxadazow

Just an update. Both kernel-7.0.11-edge-rockchip64-26.8.0-trunk.94 and 6.18.34-current-rockchip64-26.8.0-trunk.94 both still NO analog audio output on Headphone Jack on Orange Pi 5-Plus Kernel-6.18.10-current-rockchip64-6.2.1 and 6.19.5-edge-rockchip64 both support analog audio output on Headphone Jack. By the way kernel-6.1.115-vendor-rk35xx also NO analog audio output. kernel-6.1.75-vendor-rk35xx support analog audio output.