yay slides
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"recommendations": [
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"marp-team.marp-vscode",
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"yzhang.markdown-all-in-one"
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{
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"markdown.marp.enableHtml":true,
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"editor.formatOnSave": true,
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}
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---
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marp: true
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paginate: true
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author: Clément Contet, Laurent Fainsin
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---
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<style>
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section::after {
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/*custom pagination*/
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content: attr(data-marpit-pagination) ' / ' attr(data-marpit-pagination-total);
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}
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</style>
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# The Raft Consensus Algorithm
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<!-- https://github.com/raft/raft.github.io -->
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<!-- https://ongardie.net/static/coreosfest/slides -->
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![bg right:60%](https://raft.github.io/logo/solo.svg)
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<footer>
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Diego Ongaro,
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John Ousterhout,
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Stanford University
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</footer>
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---
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<!-- Qu'est ce que le "consensus" dans un premier temps ? -->
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<header>
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# Consensus ?
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</header>
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> Consensus algorithms allow a collection of machines to work as a coherent group that can survive the failures of some of its members. – RAFT authors
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<br>
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- Accord sur l'état partagé (image système unique)
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- Réparation autonome en cas de défaillance d'un serveur
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- Une minorité de serveurs HS: pas de problème
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- La majorité des serveurs HS: perte de disponibilité, maintien de la cohérence
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- La clé pour construire des systèmes de stockage cohérents
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<!-- Le consensus permet à plusieurs machines de se mettre d'accord, de former un groupe cohérent, capable de prendre des decisions, même si certains membres sont défaillants. -->
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---
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<header>
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# Architecture typique des systèmes de consensus
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![bg 95%](https://ongardie.net/static/coreosfest/slides/rsm.svg)
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<!--
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- Replicated log -> replicated state machine
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- All servers execute same commands in same order
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- Consensus module ensures proper log replication
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- System makes progress as long as any majority of servers up
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- Failure model: fail-stop (not Byzantine), delayed/lost msgs
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-->
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</header>
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---
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<header>
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# Motivation ?
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</header>
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<!-- Avant RAFT il existait déjà un algorithme bien connu du nom de Paxos qui dominait sur le reste des algos de consensus. -->
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<!-- Alors pourquoi faire un nouvel algo ? quels sont les motivations des auteurs ? -->
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Paxos domine le marché depuis ~25 ans (Leslie Lamport, 1989)
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- Difficile à comprendre
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- Difficile à implémenter
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> The dirty little secret of the NSDI community is that at most five people really, truly understand every part of Paxos ;-). – [NSDI](https://www.usenix.org/conference/nsdi23) reviewer
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> There are significant gaps between the description of the Paxos algorithm and the needs of a real-world system…the final system will be based on an unproven protocol. – [Chubby](https://research.google/pubs/pub27897/) authors
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---
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<header>
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# Pourquoi RAFT ?
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</header>
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<!-- Les auteurs de RAFT en avait donc ras le bol de voir cette situation, ils ont donc décidés de créer un nouvel algorithme, en se fondant sur la compréhensibilité -->
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## Prendre des décisions de conception fondées sur la compréhensibilité
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<!-- Pour se faire ils ont choisis de décomposer le consensus le plus possible en des petits problèmes trivials à résoudre. -->
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- Décomposition du problème
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<!-- Il ont aussi essayé de diminuer l'espace des états possibles lors du fonctionnement de l'algorithme pour le rendre le plus simple possible. -->
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- Minimiser l'espace des états
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- Traiter plusieurs problèmes avec un seul mécanisme
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- Éliminer les cas particuliers
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- Minimiser le non-déterminisme
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- Maximiser la cohérence
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---
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<header>
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# Décomposition du problème
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</header>
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1. Élection d'un leader (mandat)
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- Sélectionner un serveur qui sera le leader
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- Détecter les pannes, choisir un nouveau leader
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2. Réplication des logs (fonctionnement normal)
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- Le leader accepte les commandes des clients et les ajoute à son journal.
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- Le leader réplique son journal aux autres serveurs (écrase les incohérences).
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3. Sécurité
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- Maintenir la cohérence des journaux
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- Seuls les serveurs dont les journaux sont à jour peuvent devenir des leaders.
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---
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<header>
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# Minimiser l'espace des états
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</header>
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<!-- Il n'y a que 3 états possibles pour les serveurs ! -->
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![bg 90%](https://oracleblog.org/wp-content/uploads/2018/10/QQ%E6%88%AA%E5%9B%BE20181001142911.png)
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<!--
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Follower: Passive (but expects regular heartbeats)
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Candidate: Issues RequestVote RPCs to get elected as leader
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Leader: Issues AppendEntries RPCs:
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- Replicate its log
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- Heartbeats to maintain leadership
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-->
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---
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<header>
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# Mandats
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</header>
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![bg 90%](https://oracleblog.org/wp-content/uploads/2018/10/WX20181002-112612@2x.png)
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<!--
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- At most 1 leader per term
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- Some terms have no leader (failed election)
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- Each server maintains current term value (no global view)
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- Exchanged in every RPC
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- Peer has later term? Update term, revert to follower
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- Incoming RPC has obsolete term? Reply with error
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Terms identify obsolete information
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-->
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---
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<header>
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# Leader Election
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</header>
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TODO
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---
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<header>
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# Election Correctness
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</header>
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TODO
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---
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<header>
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# Démo interactive
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</header>
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<iframe
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src="https://raft.github.io/raftscope/index.html"
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frameborder="0"
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scrolling="no"
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height=100%
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width=100%
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></iframe>
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<!--
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Normal Operation:
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- Client sends command to leader
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- Leader appends command to its log
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- Leader sends AppendEntries RPCs to all followers
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- Once new entry committed:
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- Leader executes command in its state machine, returns result to client
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- Leader notifies followers of committed entries in subsequent AppendEntries RPCs
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- Followers execute committed commands in their state machines
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- Crashed/slow followers?
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-Leader retries AppendEntries RPCs until they succeed
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- Optimal performance in common case:
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- One successful RPC to any majority of servers
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-->
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---
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<header>
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# Log Structure
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</header>
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TODO
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---
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<header>
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# Log Inconsistencies
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</header>
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TODO
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---
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<header>
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# Log Matching Property
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</header>
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TODO
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---
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<header>
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# De nombreuses implémentations
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</header>
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| Name | Primary Authors | Language | License |
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| :------------- | :------------------------------------------------ | :--------- | :--------- |
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| etcd/raft | Blake Mizerany, Xiang Li and Yicheng Qin (CoreOS) | Go | Apache 2.0 |
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| go-raft | Ben Johnson (Sky) and Xiang Li (CMU, CoreOS) | Go | MIT |
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| hashicorp/raft | Armon Dadgar (hashicorp) | Go | MPL-2.0 |
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| copycat | Jordan Halterman | Java | Apache2 |
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| LogCabin | Diego Ongaro (Stanford, Scale Computing) | C++ | ISC |
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| akka-raft | Konrad Malawski | Scala | Apache2 |
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| kanaka/raft.js | Joel Martin | Javascript | MPL-2.0 |
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---
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<header>
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# How much randomization is needed to avoid split votes?
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</header>
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![bg 90%](https://ongardie.net/static/coreosfest/slides/timeoutcdf.svg)
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---
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<header>
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# User Study: Is Raft Simpler than Paxos?
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</header>
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<!--
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- 43 students in 2 graduate OS classes (Berkeley and Stanford)
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- Group 1: Raft video, Raft quiz, then Paxos video, Paxos quiz
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- Group 2: Paxos video, Paxos quiz, then Raft video, Raft quiz
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- Instructional videos:
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- Same instructor (Ousterhout)
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- Covered same functionality: consensus, replicated log, cluster reconfiguration
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- Fleshed out missing pieces for Paxos
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- Videos available on YouTube
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- Quizzes:
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- Questions in 3 general categories
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- Same weightings for both tests
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- Experiment favored Paxos slightly:
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- 15 students had prior experience with Paxos
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-->
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![bg 70%](https://ongardie.net/static/coreosfest/slides/studyscatter.svg)
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![bg 90%](https://ongardie.net/static/coreosfest/slides/survey.svg)
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