![]() ![]() Galax RTX 3090 SG 24GB: Underclocked to 1700Mhz 0.750v (375W down to 250W))ĢTB WD SN850 NVME + 1TB Sasmsung 970 Pro NVME + 1TB Intel 6000P NVME USB 3.2 Ryzen R7 5800x3D (Undervolted, 4.45GHz all core)Īlphacool Apex UV - Alphacool Eisblock XPX Aurora + EK Quantum ARGB 3090 w/ active backplateĢx32GB DDR4 3600 Corsair Vengeance RGB C18-22-22-22-42 TRFC704 (1.4V Hynix MJR - SoC 1.15V) Rainbow Sparkles (Power efficient, <350W gaming load) that could lead to a fun project if you're into that kinda thing. If you want to go down that road, let me know.Įdit 2: I can envision a RPI project with a button to do this as well. That gets a little more advanced than what you seek here though, and would take a higher level of administrative comprehension and ability than what is required with WoL. Or if you're familiar with accessing your router and port forwarding (not hard to do on most routers, and if you're not familiar it's not too shabby to learn and work through), and if on a dynamic ISP service where your WAN (internet facing) IP address changes sometimes, you will want to setup a dynamic DNS service (I prefer DuckDNS and have my router setup to report to DuckDNS), you could also power on your system while away from home as well:Įdit: Also not sure what board you have, but if it fully supported Intel vPro both CPU and MB if you're on Intel hardware you could also utilize that in what is called out of band management that would let you turn your pc on/off, access the OS, BIOS, etc. Windows 10 Pro 圆4 | Windows Server 2019 (Hyper-V) | Windows Server 2019 (Hyper-V)ĭo you have a smartphone? You could always push wake on lan to it using an app while on the same LAN once you've enabled WoL on your system: HyperX Alloy Core RGB | Dell USB Keyboard (KVM) Logitech G502 | Dell USB Laser Mouse (KVM) Noctua NH-U14S Push-Pull + NT-H1 | Stock Intel Cooler + AC MX4 | Stock Intel Cooler + AC MX4ģ2GB (2x16) DDR4 4000 3600 | 16GB (4x4) Samsung DDR3-1600 | 32GB (4x8) Mushkin Stealth DDR3-1600ĮVGA RTX 3060 Ti FTW3 | Onboard Intel HD 4000 | Onboard Intel HD 4600Ģ50GB M.2 + 960GB SATA SSD, 1x2TB | 120GB SSD, RAID10 6x2TB (6TB) | 120GB SSD, RAID10 6x3TB (9TB)Īcer 28" 4K VG280K x2 | 19" Dell on KVM.mostly headless operation.Ĭorsair 600C - Stock Fans on Low | Lian Li Lancool PC-K7 - Cougar fans | Modified Lenovo TS430 CaseĪune T1 mk1 > AKG K553 Pro + JVC HA-RX 700 (Equalizer APO + PeaceUI) | Not in useĮVGA 750G2 Modular + APC Back-UPS Pro 1500 | EVGA KR500 80+ Bronze (Both) + APC Smart-UPS 1500 wake.Kursah's Gaming Rig 2018 (2022 Upgrade) - Ryzen+ Edition | SpartanCore | SpartanCore2 Edit the IP address and the MAC address of the Ubuntu server in the saved script.įinally, call the script with: sudo.Save the script on the Pi with the name wake.sh in Pi's Home folder.Where 10.42.0.1 is the IP address of the Ubuntu server. I wrote a small script to save some typing in the Pi: #!/bin/bash Where eth0 is the Ethernet port of Pi, and AA:BB:CC:DD:EE:FF is the MAC address of the Ethernet port of the Ubuntu server. Use the following command from the Pi: sudo etherwake -i eth0 AA:BB:CC:DD:EE:FF It will look something like: ether AA:BB:CC:DD:EE:FF txqueuelen 1000 (Ethernet) On the Ubuntu server find out the MAC address of the LAN port with the command: ifconfig Make sure the Pi and the Ubuntu server are connected by Ethernet cables. Where server.address is either the IP address of the server or its domain name. I use the following command to shutdown the server from the local computer: ssh -t server.address "sudo /sbin/shutdown -h +1" The server must have ssh access from another (local) computer.To shutdown the Ubuntu 18.04 the following has to be true: It does not put it to sleep / suspend or hibernate. This solution is different from the question as it shuts down the server completely. Completely shutdown Ubuntu and wake it up remotely Completely shutdown the server
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