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The Pipes Model for Latency and Throughput Analysis
2025-06-13 · via Cryptology ePrint Archive

Paper 2025/1116

The Pipes Model for Latency and Throughput Analysis

Kartik Nayak, Duke University

Nibesh Shrestha, Supra Research

Abstract

Protocols for State-Machine-Replication (sometimes called 'blockchain' protocols) generally make use of rotating leaders to drive consensus. In typical protocols (henceforth called 'single-sender' protocols), the leader is a single processor responsible for making and disseminating proposals to others. Since the leader acts as a bottleneck, apparently limiting throughput, a recent line of research has investigated the use of 'multi-sender' protocols in which many processors distribute proposals in parallel. Examples include DAG-based protocols such as DAG-Rider, Bullshark, Sailfish, Cordial Miners, Mysticeti, and variants such as Autobahn. However, existing models do not allow for a formal analysis to determine whether these protocols can actually handle higher throughputs than single-sender protocols such as PBFT, Tendermint, and HotStuff. In this paper, we describe a very simple model that allows for such an analysis. For any given protocol, the model allows one to calculate latency as a function of network bandwidth, network delays, the number of processors $n$, and the incoming transaction rate. Each protocol has a latency bottleneck: an incoming transaction rate at which latency becomes unbounded over the protocol execution, i.e., a maximum throughput that the protocol can handle without unbounded latency. With the aim of building to an analysis for state-of-the-art State-Machine-Replication (SMR) protocols, we begin by considering protocols for simpler primitives, such as Best-effort Broadcast and Reliable Broadcast. For Best-effort Broadcast, we establish a tight lower bound on latency for single-sender and multi-sender protocols when blocks are distributed without the use of techniques such as erasure coding. Perhaps unsurprisingly, a key difference between the single-sender and multi-sender approaches in this case is a factor $n$ in the point at which the latency bottleneck appears. However, for other primitives such as Reliable Broadcast, our results may be more surprising: the factor $n$ difference now disappears, and maximum throughput for the two approaches differs by a constant factor, while multi-sender approaches will generally have latency that grows more quickly with $n$. For state-of-the-art SMR protocols, the picture that emerges is one with seemingly inherent trade-offs. If one compares single-sender protocols that use pipelining and erasure coding, such as DispersedSimplex, with DAG-based protocols such as Sailfish or Bullshark, the former are seen to have lower latency for a wide range of throughputs, while the benefit of the latter protocols is that they have a latency bottleneck which is higher by a constant factor.

BibTeX

@misc{cryptoeprint:2025/1116,
      author = {Andrew Lewis-Pye and Kartik Nayak and Nibesh Shrestha},
      title = {The Pipes Model for Latency and Throughput Analysis},
      howpublished = {Cryptology {ePrint} Archive, Paper 2025/1116},
      year = {2025},
      url = {https://eprint.iacr.org/2025/1116}
}