I used to frequent the FOSSCAD IRC ages back as a teen. This started during the post-Liberator panic, there were talks about regulating 3D printers to not allow printing guns, etc. Designed a few things, never actually printed any of it myself, but some others did. Really got me into engineering before I exited the scene, led to actually pursuing an engineering career. Was surprised to see 3D printed gun videos so openly shared, it was pretty underground for ages there.
WFloyd
joined 11 months ago
I have 35mbps upload from the ISP, and limit each stream to 8mbps. This covers direct streaming all my 1080p content and a 4K transcode as needed.
I currently have 6x10TB of these drives running in a gluster array. I've had to return 2 so far, with a 3rd waiting to send in for warranty also (click of death for all three). That's a higher failure rate than I'd like, but the process has been painless outside of the inconvenience of sending it in. All my media is replaceable, but I have redundancy and haven't lost data (yet).
Supporting hardware costs and power costs depending, you may find larger drive sizes to be a better investment in the long term. Namely, if you plan on seeing the drives through to their 5 year warranty, 18TB drives are pretty good value.
For my hardware and power costs, this is the breakdown for cumulative $/TB (y axis) over years of service (x axis):
Absolutely, it's a fabulous engineering challenge, to make it work well on a hobbyist grade 3D printer with ordinary materials. Also a lesson in using the right tool for the right job (some parts are just better off milled or bought OtS)