There are two important angles to storage: disk space usage and sustained read speed. To make a rough estimate of your disk space usage requirements, you want to know the answer to three questions:
In terms of read speed, you want to make sure that you can saturate your network uplink serving PeerTube videos. This should not be a problem with SSD disks, whereas traditional HDD should be accounted for: typical sustained read rates for a well tuned system with a 7200rpm hard disk should hover around 120 MB/s or 960 Mbit/s. The latter should be enough for a typical 1 Gbit/s network uplink.
A rough estimate of a traditional server's video streaming network capacity is usually quite straightforward. You simply divide your server's available bandwidth by the average bandwidth per stream, and you have an upper bound.
Take a server for example with a 1 Gbit/s uplink for example pushing out 1080p60 streams at 5 Mbit/s per stream. That means the absolute theoretical upper capacity bound is 200 simultaneous viewers if your server's disk i/o can keep up. Expect a bit less in practice.
But what if you need to serve more users? That's where PeerTube's federation feature shines. If other PeerTube instances following yours, chances are they have decided to mirror part of your instance! The feature is called "server redundancy" and caches your most popular videos to help serve additional viewers. While viewers themselves contribute a little additional bandwidth while watching the video in their browsers (mostly during surges), mirroring servers have a much greater uplink and will help your instance with sustained higher concurrent streaming.
Bandwidth: can be mitigated using <a target="_blank" rel="noopener noreferrer" href="https://docs.joinpeertube.org/admin-following-instances?id=instances-redundancy">PeerTube redundancy system</a> and cache servers that serve video static files in front of your PeerTube instance
Storage: can be mitigated using <a target="_blank" rel="noopener noreferrer" href="https://docs.joinpeertube.org/admin-remote-storage">S3/Object storage</a>
Video transcoding: we may implement <a target="_blank" rel="noopener noreferrer" href="https://github.com/Chocobozzz/PeerTube/issues/947">transcoding by remote workers</a> in the future
Framasoft tries to make around 4 major releases per year. Releasing a new PeerTube version takes a lot of our time, so we cannot change this release cycle.
We <strong>try</strong> to keep compatibility with the latest minor version (2.3.1 with 2.2 for example). Unfortunately we don't have enough resources to keep compatibility with other versions.
So if you feel that PeerTube does not currently meet your needs, it's simple: don't use it right now. We remind you that we don't make money developing PeerTube, and if we obviously hope for its success, Framasoft does not depend on it to continue its activities.
<a href="#what-are-the-peertube-features-for-administrators">Yes it does!</a> Since the first stable release of PeerTube in October 2018, <strong>every release</strong> added or improved moderation features:
PeerTube developers are committed to develop and improve moderation tools to make instances always easier to manage. We welcome you to take part in discussions to <a target="_blank" rel="noopener noreferrer" href="https://github.com/Chocobozzz/PeerTube/issues">help ongoing efforts</a> in that direction or <a target="_blank" rel="noopener noreferrer" href="https://github.com/Chocobozzz/PeerTube/issues/new">suggest new ones</a>!
IPFS is a great technology, but it still seems too young for streaming large files. The PeerTube P2P system based on well established protocols like HTTP and WebRTC, and the <a target="_blank" rel="noopener noreferrer" href="https://docs.joinpeertube.org/admin-following-instances?id=instances-redundancy">redundancy system</a> are more easy for us to use and to maintain.