Wake On Lan Anydesk Hot -
While AnyDesk is great, here are other tools that handle “hot” wake-ups more natively:
But AnyDesk remains a top choice for speed and cross-platform support.
AnyDesk does not have a native "Wake over Internet" feature (like TeamViewer's WOL via a cloud relay).
Let’s break down the keyword:
Put together: Using AnyDesk’s built-in Wake on LAN feature (or a complementary tool) to power on a sleeping PC via a mobile hotspot or instant remote command.
This setup allows you to wake your computer remotely and then access it using AnyDesk. Ensure all prerequisites are carefully checked and that you follow the steps precisely to enjoy remote access.
A "hot" or highly relevant topic regarding AnyDesk Wake-on-LAN (WoL)
involves a significant recent change: as of late 2024, AnyDesk reportedly removed the ability to send "magic packets" directly from its cloud servers, a feature that previously allowed users to wake computers over the internet without needing another device on the same local network. The Core Requirement: The "Guardian" Device
Because AnyDesk no longer relays these packets through the cloud, the "hot" takeaway for current users is that you must have at least one other device
(a "guardian") already turned on and running AnyDesk within the same local network as the target PC. AnyDesk Help Center When you click "Power On" wake on lan anydesk hot
from a remote location, AnyDesk’s servers search for any online clients on that same remote network and ask to send the wake-up signal to your sleeping PC.
Common "hot" workarounds include leaving a low-power device like a Raspberry Pi
or an old Android phone always online in the office/home to act as this trigger. Essential Setup Checklist
If you are setting this up, it requires a three-layer configuration to work properly: Wake up a device remotely - AnyDesk Help Center
Wake-on-LAN (WoL) , you must configure the hardware, operating system, and the AnyDesk application itself. This feature allows you to remotely power on a computer from a sleep or low-power state. 1. Enable Hardware Support (BIOS/UEFI)
The motherboard must allow the network card to wake the system. AnyDesk Help Center Access BIOS : Restart your PC and press during startup. : Look for Power Management Enable Options : Activate settings named Wake-on-LAN Power On by PCI-E Resume on LAN PME Event Wake Up Save & Exit to save and restart. AnyDesk Help Center 2. Configure Operating System Settings
You must permit the network adapter to receive the "Magic Packet". Network Adapter Device Manager and expand Network adapters Right-click your Ethernet card (e.g., Realtek) and select Properties Wake on Magic Packet Power Management tab, check Allow this device to wake the computer Only allow a magic packet to wake the computer Disable Fast Startup (Windows) Control Panel Power Options Choose what the power buttons do Change settings that are currently unavailable Turn on fast startup and save changes. Spiceworks Community
AnyDesk’s Wake-on-LAN (WoL) is a "hot" feature for remote users because it allows you to power on a sleeping or shut-down computer without leaving it running 24/7. However, its reliability often depends on having a second active device
on the same local network to act as a "helper" to send the wake signal. Key Features & Performance Review Convenience: Once configured, AnyDesk provides a simple "Power On" button when you try to connect to an offline device. Energy Efficiency: While AnyDesk is great, here are other tools
You can keep your high-performance PC in a low-power state (Sleep or Hibernate) and only wake it when needed, saving electricity. Limitations:
AnyDesk typically requires at least one other device (PC, tablet, or Raspberry Pi) to be
on the same network to relay the "Magic Packet". Direct "Wake-on-WAN" (waking via the internet without a local relay) is not natively supported in the same way by their current cloud infrastructure. Setup Guide: Making it Work
For a successful "hot" setup, you must configure three different layers:
Wake-on-Internet silently killed — no warning, no respect : r/AnyDesk
AnyDesk’s Wake-on-LAN (WoL) feature is a powerful, though technically demanding, tool that allows users to remotely power on a computer from a sleep, hibernate, or even a full shutdown state. By using another active device on the same local network as a "relay," AnyDesk sends a "Magic Packet" to the target machine's network card, triggering it to boot up without manual intervention. ⚡ The "Hot" Take: Convenience vs. Complexity
While highly rated for its convenience and energy-saving benefits, the feature is often criticized for its complex setup.
🚀 High Impact: Perfect for accessing high-performance office PCs from home or performing IT maintenance after hours.
🔌 Efficiency: Eliminates the need to keep computers running 24/7, reducing electricity costs and hardware wear. But AnyDesk remains a top choice for speed
🛠️ Setup Barrier: Requires precise configuration across BIOS/UEFI, Windows Device Manager, and AnyDesk settings.
📡 Reliability Issues: Users frequently report that it can be "finicky," often failing due to Windows "Fast Startup" or specific motherboard power states. 🔍 Key Performance Factors
For the feature to work reliably, several "layers" must be correctly aligned: How to Enable Wake on LAN in Windows 11
Here’s a helpful review of the combination "Wake-on-LAN + AnyDesk + Hot (likely meaning ‘hotkey’ or ‘hotspot’)" — based on common user scenarios.
If WoL fails (e.g., Wi-Fi PC, laptop with battery), bypass networking entirely:
This is the most reliable “hot” method — works from any mobile hotspot, no networking knowledge needed.
Since a mobile hotspot creates a new network, you can’t directly send a magic packet to your home PC. You need a static public IP or Dynamic DNS (DDNS) and port forwarding.
Steps:
Verdict: AnyDesk’s native WoL is great for LAN-to-LAN but not for pure mobile hotspot use. That’s where the “hot” third-party solutions come in.
If your router has no WoL feature, you need a tiny device on your home network that stays on 24/7 (a Raspberry Pi, an old Android phone, or even a second low-power PC).
Example using a Raspberry Pi: