Learned FIB:不进行最长前缀匹配的快速IP转发

Shunsuke Higuchi, Y. Koizumi, Junji Takemasa, A. Tagami, T. Hasegawa
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引用次数: 0

摘要

本文提出了一种IP转发信息库(FIB)编码,利用一种新兴的数据结构称为学习索引,它使用机器学习来关联键值存储中的键位置对。与基于尝试或哈希表的现有FIB相比,用于FIB查找的学习索引预计会产生更紧凑的表示和更快的查找,但代价是FIB更新效率低,而学习索引很难支持这一点。我们优化了查找速度的实现,利用有效的FIB查找,用分段线性函数近似键位置对就足够了,而不必学习键位置对。使用真实BGP路由信息快照的实验表明,无论匹配前缀的长度如何,所提出的FIB都具有紧凑的大小和足够快的查找速度。
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Learned FIB: Fast IP Forwarding without Longest Prefix Matching
This paper proposes an IP forwarding information base (FIB) encoding leveraging an emerging data structure called a learned index , which uses machine learning to associate key-position pairs in a key-value store. A learned index for FIB lookups is expected to yield a more compact representation and faster lookups compared to existing FIBs based on tries or hash tables, at the cost of efficient FIB updates, which is difficult to support with a learned index. We optimize our implementation for lookup speed, exploiting that for efficient FIB lookups it is enough to approximate the key-position pairs with a piece-wise linear function, instead of having to learn the key-position pairs. The experiments using real BGP routing information snapshots suggest that the size of the proposed FIB is compact and lookup speed is sufficiently fast regardless of the length of matched prefixes.
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