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Scylla replicates data according to eventual consistency. This means that, in Scylla, when considering the CAP Theorem, availability and partition tolerance are considered a higher priority over consistency. Although Scylla’s tunable consistency allows users to make a tradeoff between availability and consistency, Scylla’s consistency level is tunable per query.
However, over time, there can be a number of reasons for data inconsistencies, including:
a down node;
a network partition;
dropped mutations;
process crashes (before a flush);
a replica that cannot write due to being out of resources;
file corruption.
To mitigate entropy, or data inconsistency, Scylla uses a few different processes. The goal of Scylla anti-entropy - based on that of Apache Cassandra - is to compare data on all replicas, synchronize data between all replicas, and, finally, ensure each replica has the most recent data.
Anti-entropy measures include write-time changes such as hinted handoff, read-time changes such as read repair, and finally, periodic maintenance via repair.
Scylla Hinted Handoff - High-Level view of Scylla Hinted Handoff
Scylla Read Repair - High-Level view of Scylla Read Repair
Scylla Repair - Description of Scylla Repair
Also learn more in the Cluster Management, Repair and Scylla Manager lesson on Scylla University.
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