![]() ![]() That’s it, this is how you can wake up Mac or Windows from each other with WOL packets. Keep in mind of the use cause and their limitations when use this to wake up Mac. ![]() ![]() If your Mac asleep, sending a magic WOL packet would wake up the Mac, however, if your Mac doesn’t have an Ethernet connection then when it was completely powered off you will not be able to wake up the Mac. Go to System Preferences > Energy Saver > (check) Wake for Wi-Fi network access. We have covered tools here and here on Windows for this to work, the important thing to remember is to make sure you have the correct settings on your Mac to accept WOL magic packet. Simply the auto discovery feature is slow and not robust enough to find the target device without manually input their IP and Mac address. From couple utilities I’ve tried, they are not as easy to use as Mac’s WakeOnLan. There are more tools to choose from to send WOL magic packets on Windows than Mac, but it doesn’t mean they are better than the Mac. Once you find the target Windows device with matching IP address and Mac address, hit “Wake Up!” will send the WOL magic packet to that device and if your Windows machine is configured properly, it will start up. But this isn’t a required step to make it work. It will try its best to associate and discover the device type, in the case when it couldn’t tell what kind device they are you can manually configure and set their device type. After you download the app, run the app, it will auto scan all the available devices from your local network. The best GUI tool I found is called WakeOnLan. It’s pretty straightforward, we just need to grab a GUI tool for Mac that will send the magic WOL packets through your local networks. If WOL concept is new to you, you should check out what it means to wake up a computer from a local network. In today’s post, we are going to cover how to wake up a Windows machine from a Mac and vice versa, waking up a Mac machine from Windows. Try pulling the video card and running headless to save power.We’ve covered quite a few post related to Wake-On-Lan. This will give you reasonably high static fan speeds, at least until the next power-down. If FreeNAS isn't properly managing your fans, first boot into MacOS, set the fan speeds with MacsFanControl and reboot into FreeNAS without powering down. I think I paid $70 shipped for 32GB a couple years ago. If you insist on FreeNAS or Linux or ESXI on an old Pro, here are some tips: It sleeps properly, Wake-on-LAN works and I still have a local ZFS store for VirtualBox VMs or whatever. I ran ESXI 6 (with a FreeNAS vm) on it for a while and Ubuntu for even longer, but my old Pro is currently back to running El Capitan. Sleep and wake-on-lan probably won't work. These old machines suck power like crazy (120W+ at idle). You will be happier with a recent i3 for FreeNAS, though. It can be fun to play with these old beasts, so by all means tinker. I have an old MacPro that I am still very fond of. Only the 20 Pros have the 32-bit EFI that FreeBSD/FreeNAS doesn't support. Jails: running 1 iocage jail (Plex) using danb35's script:Īdditional NIC: MELLANOX 10GB CONNECTX2 - MNPA19-XTR Take a look here: A post with Links to useful threads Vdev-1 = 4 x 6 TB drives in RAID-z1 (4 WD Gold drives - WD6002FRYZ)īoot pool: 1 vdev with 2 x 40 GB notebook drives in mirror (2 drives total - FUJITSU MHW2040BS) Vdev-0 = 4 x 6 TB drives in RAID-z1 (4 WD Gold drives - WD6002FRYZ) ![]() Vdev-1 = 6 x 4 TB drives in RAID-z2 (6 Seagate Exos drives - ST4000NM0115) Vdev-0 = 6 x 4 TB drives in RAID-z2 (6 Seagate Exos drives - ST4000NM0115) Vdev-1 = 6 x 4 TB drives in RAID-z2 (6 Seagate Desktop drives - ST4000DM000-1F2168) Vdev-0 = 6 x 4 TB drives in RAID-z2 (6 Seagate Desktop drives - ST4000DM000-1F2168) HBA: LSI/Broadcom SAS9207-8i, 6Gbps SAS PCI-E 3.0 HBA - flashed to IT Firmware: 20.00.07.00Ĭonnected to: two 6Gb/s 24-port 3.5" mini-SAS expander backplanes (80H10024001A0) 128 GB of 16GB sticks Samsung brand PC3-12800R, DDR3 Registered ECC Processor: Intel Xeon E5-2650 V2, 2.6GHz 8 Core (16 thread) System board: SuperMicro Motherboard X9SRL-F, LGA 2011/Socket R, IPMI For a home NAS, this chassis is huge, able to hold 48 data drives and two boot drives with a couple spaces internally for non-hot-swap drives. The three pools in this one system represent the three NAS systems I had before the consolidation. I have even put together some hardware just to test things out a time or two.įor a while I had three systems, all at once, at home but I am making some hardware changes right now and only one NAS is online. I made some mistakes along the way, learned some and I try to share some of those lessons learned experiences here in the forum. This is the 8th FreeNAS unit I have built for home. This one was built in 2018, but I reused the name from a previous build. ![]()
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