In large scale systems such as the Internet, replicating data is an essential
feature in order to provide availability and fault-tolerance. Attiya and Welch
proved that using strong consistency criteria such as atomicity is costly as
each operation may need an execution time linear with the latency of the
communication network. Weaker consistency criteria like causal consistency and
PRAM consistency do not ensure convergence. The different replicas are not
guaranteed to converge towards a unique state. Eventual consistency guarantees
that all replicas eventually converge when the participants stop updating.
However, it fails to fully specify the semantics of the operations on shared
objects and requires additional non-intuitive and error-prone distributed
specification techniques. This paper introduces and formalizes a new
consistency criterion, called update consistency, that requires the state of a
replicated object to be consistent with a linearization of all the updates. In
other words, whereas atomicity imposes a linearization of all of the
operations, this criterion imposes this only on updates. Consequently some read
operations may return out-dated values. Update consistency is stronger than
eventual consistency, so we can replace eventually consistent objects with
update consistent ones in any program. Finally, we prove that update
consistency is universal, in the sense that any object can be implemented under
this criterion in a distributed system where any number of nodes may crash.Comment: appears in International Parallel and Distributed Processing
Symposium, May 2015, Hyderabad, Indi
