RVMA: Remote Virtual Memory Access

2021 IEEE International Parallel and Distributed Processing Symposium (IPDPS) Pub Date : 2021-05-01 DOI:10.1109/IPDPS49936.2021.00029

Ryan E. Grant, M. Levenhagen, Matthew G. F. Dosanjh, Patrick M. Widener

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Abstract

Remote Direct Memory Access (RDMA) capabilities have been provided by high-end networks for many years, but the network environments surrounding RDMA are evolving. RDMA performance has historically relied on using strict ordering guarantees to determine when data transfers complete, but modern adaptively-routed networks no longer provide those guarantees. RDMA also exposes low-level details about memory buffers: either all clients are required to coordinate access using a single shared buffer, or exclusive resources must be allocatable per-client for an unbounded amount of time. This makes RDMA unattractive for use in many-to-one communication models such as those found in public internet client-server situations.Remote Virtual Memory Access (RVMA) is a novel approach to data transfer which adapts and builds upon RDMA to provide better usability, resource management, and fault tolerance. RVMA provides a lightweight completion notification mechanism which addresses RDMA performance penalties imposed by adaptively-routed networks, enabling high-performance data transfer regardless of message ordering. RVMA also provides receiver-side resource management, abstracting away previously-exposed details from the sender-side and removing the RDMA requirement for exclusive/coordinated resources. RVMA requires only small hardware modifications from current designs, provides performance comparable or superior to traditional RDMA networks, and offers many new features.In this paper, we describe RVMA’s receiver-managed resource approach and how it enables a variety of new data-transfer approaches on high-end networks. In particular, we demonstrate how an RVMA NIC could implement the first hardware-based fault tolerant RDMA-like solution. We present the design and validation of an RVMA simulation model in a popular simulation suite and use it to evaluate the advantages of RVMA at large scale. In addition to support for adaptive routing and easy programmability, RVMA can outperform RDMA on a 3D sweep application by 4.4X.

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RVMA:远程虚拟内存访问

高端网络提供远程直接内存访问(RDMA)功能已经很多年了，但是围绕RDMA的网络环境也在不断发展。从历史上看，RDMA性能依赖于使用严格的排序保证来确定数据传输何时完成，但现代自适应路由网络不再提供这些保证。RDMA还公开了有关内存缓冲区的底层细节:要么要求所有客户端使用单个共享缓冲区协调访问，要么必须在无限的时间内为每个客户端分配排他资源。这使得RDMA不适用于多对一通信模型，例如在公共internet客户机-服务器情况下的通信模型。远程虚拟内存访问(RVMA)是一种新的数据传输方法，它适应并建立在RDMA的基础上，以提供更好的可用性、资源管理和容错性。RVMA提供了一种轻量级的完成通知机制，解决了自适应路由网络带来的RDMA性能损失，实现了无论消息顺序如何的高性能数据传输。RVMA还提供接收端资源管理，从发送端抽象出之前公开的细节，并消除RDMA对独占/协调资源的需求。RVMA只需要对当前设计进行很小的硬件修改，提供与传统RDMA网络相当或更好的性能，并提供许多新功能。在本文中，我们描述了RVMA的接收器管理资源方法，以及它如何在高端网络上实现各种新的数据传输方法。特别是，我们演示了RVMA NIC如何实现第一个基于硬件的容错rdma解决方案。我们在一个流行的仿真套件中设计和验证了一个RVMA仿真模型，并用它来评估RVMA在大规模上的优势。除了支持自适应路由和易于编程之外，RVMA在3D扫描应用程序上的性能比RDMA高出4.4倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE International Parallel and Distributed Processing Symposium (IPDPS)

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