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Assign <a target="_blank" rel="noopener noreferrer" href="">moderator/admin</a> roles <a target="_blank" rel="noopener noreferrer" href="">モデレーターまたは運営者の</a> 権限の付与
Manage abuse reports on videos, accounts or comments using a dedicated dashboard 専用のダッシュボードを用いて、動画やアカウントまたはコメントへの通報を管理します
Automatically block videos from untrusted users awaiting a review by moderators モデレーターによって審査を待っている、信頼できないユーザーの動画を自動的にブロック
Block specific videos and specify a reason 特定の動画をブロックし、その理由を明記する
Ban local users, mute accounts or instances ローカルのユーザーの凍結。アカウントまたはインスタンスのミュート
Highly configurable 高度な設定が可能
Easily set instance metadata: name, description, main categories... 簡単にインスタンスのメタデータを設定できます:インスタンス名、説明文、主なカテゴリなど...
Search and install PeerTube <a target="_blank" rel="noopener noreferrer" href="">plugins or themes</a> PeerTubeの <a target="_blank" rel="noopener noreferrer" href="">プラグインやテーマ</a>を調べ、インストールできます
Use external auth (LDAP, OpenID Connect...) using auth plugins 認証プラグインを利用して、(LDAPやOpenIDなどの)外部認証ができます
Set the default NSFW policy (hide, blur or display these videos) デフォルトのNSFWポリシーの設定(非表示、ぼかし、表示)
Choose your trending algorithm トレンドのアルゴリズムを選べます
Broadcast a message to users using a banner バナーを使用してユーザーにメッセージを発信する
The <a target="_blank" rel="noopener noreferrer" href="">installation guide is here</a> (only in English). <a target="_blank" rel="noopener noreferrer" href="">インストールガイドはこちらです</a>(英語版のみ)。
If you need help, check the <a target="_blank" rel="noopener noreferrer" href="">help page</a>. もしヘルプが必要なら<a target="_blank" rel="noopener noreferrer" href="">ヘルプページ</a>をご覧ください。
PeerTube should run happily on a virtual machine with 2 threads/vCPUs, at least 1 Gb of RAM and enough storage for videos. In terms of bandwidth, a lot will depend on which PeerTube instances you federate with and what your relation with them is (more about that below).
As a real life example, the PeerTube demonstration server runs on 2 vCores and 2GB of RAM. Average consumption is:
CPU: nginx ~ 2%, peertube ~ 10%, postgres ~ 1%, redis ~ 1% CPU: Nginx ~ 2%, PeerTube ~ 10%, Postgres ~ 1%, Redis ~ 1%
RAM: nginx ~ 1MB, peertube ~ 150MB, postgres ~ 30MB, redis ~ 20MB RAM: Nginx ~ 1MB, PeerTube ~ 150MB, Postgres ~ 30MB, Redis ~ 20MB
Network: ~200GB sent per month ( ~1.5TB sent per month) ネットワーク: 1ヶ月あたり ~200GB (ヶ月あたり ~1.5TB )
Except for video transcoding, a PeerTube instance is not CPU bound. Neither Nginx, PeerTube itself, PostgreSQL nor Redis require a lot of computing power. If it were only for those, one could easily get by with just one thread/vCPU.
You will hugely benefit from at least a second thread though, because of transcoding. Transcoding is very cpu intensive. It serves two purposes on a PeerTube instance: it ensures all videos can be played optimally in the web interface, and it generates different resolutions for the same video. PeerTube support for offloading transcoding to other machines is <a target="_blank" rel="noopener noreferrer" href="">being discussed</a>, but not yet implemented.
1/2 GB of RAM should be plenty for a basic PeerTube instance, which usually takes at most 150 MB in RAM. The only reason you might want more would be if you colocate your Redis or PostgreSQL services on a non-SSD system.
Storage ストレージ
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:
What is the total size of the videos you wish to stream?
Do you want to enable transcoding? If so, do you want to provide multiple resolutions per video? Try this out with a few videos and you will get an idea of how much extra space is required per video and estimate a multiplication factor for future space allocation.
Which sharing mechanisms do you want to enable? Just WebTorrent, or also HLS with p2p? If you want both, this will double your storage needs.
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.
Network ネットワーク


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src/locale/ja/LC_MESSAGES/app.po, string 355