M. Król, Spyridon Mastorakis, D. Oran, D. Kutscher
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引用次数: 66
摘要
现代分布式计算框架和特定于领域的语言为构建大型分布式应用程序并在数据中心或边缘计算环境中部署它们提供了一种方便而健壮的方法。然而,当前的系统需要复杂的底层服务,以使它们能够在现有的互联网协议上有效运行。这些服务包括集中式调度器、基于dns的名称转换、有状态负载平衡器和重量级传输协议。相反,面向icn的远程调用方法通过支持函数式编程和有状态对象(如actor),为当前的分布式编程语言提供了有吸引力的匹配。本文设计了一种分布式程序的计算图表示,采用无冲突复制数据类型(crdt)作为底层数据结构,并采用RICE (Remote Method Invocation for ICN)作为执行环境来实现。我们使用NDNSim模拟显示,它在简单性、性能和故障恢复方面提供了诱人的好处。
Compute First Networking: Distributed Computing meets ICN
Modern distributed computing frameworks and domain-specific languages provide a convenient and robust way to structure large distributed applications and deploy them on either data center or edge computing environments. The current systems suffer however from the need for a complex underlay of services to allow them to run effectively on existing Internet protocols. These services include centralized schedulers, DNS-based name translation, stateful load balancers, and heavy-weight transport protocols. In contrast, ICN-oriented remote invocation methodologies provide an attractive match for current distributed programming languages by supporting both functional programming and stateful objects such as Actors. In this paper we design a computation graph representation for distributed programs, realize it using Conflict-free Replicated Data Types (CRDTs) as the underlying data structures, and employ RICE (Remote Method Invocation for ICN) as the execution environment. We show using NDNSim simulations that it provides attractive benefits in simplicity, performance, and failure resilience.
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