95,861 research outputs found
HT-Paxos: High Throughput State-Machine Replication Protocol for Large Clustered Data Centers
Paxos is a prominent theory of state machine replication. Recent data
intensive Systems those implement state machine replication generally require
high throughput. Earlier versions of Paxos as few of them are classical Paxos,
fast Paxos and generalized Paxos have a major focus on fault tolerance and
latency but lacking in terms of throughput and scalability. A major reason for
this is the heavyweight leader. Through offloading the leader, we can further
increase throughput of the system. Ring Paxos, Multi Ring Paxos and S-Paxos are
few prominent attempts in this direction for clustered data centers. In this
paper, we are proposing HT-Paxos, a variant of Paxos that one is the best
suitable for any large clustered data center. HT-Paxos further offloads the
leader very significantly and hence increases the throughput and scalability of
the system. While at the same time, among high throughput state-machine
replication protocols, HT-Paxos provides reasonably low latency and response
time
Leaderless State-Machine Replication: Specification, Properties, Limits
Modern Internet services commonly replicate critical data across several geographical locations using state-machine replication (SMR). Due to their reliance on a leader replica, classical SMR protocols offer limited scalability and availability in this setting. To solve this problem, recent protocols follow instead a leaderless approach, in which each replica is able to make progress using a quorum of its peers. In this paper, we study this new emerging class of SMR protocols and states some of their limits. We first propose a framework that captures the essence of leaderless state-machine replication (Leaderless SMR). Then, we introduce a set of desirable properties for these protocols: (R)eliability, (O)ptimal (L)atency and (L)oad Balancing. We show that protocols matching all of the ROLL properties are subject to a trade-off between performance and reliability. We also establish a lower bound on the message delay to execute a command in protocols optimal for the ROLL properties. This lower bound explains the persistent chaining effect observed in experimental results
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