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This paper explores the possibility of further shortening greedy routing without compromising its good properties, focusing on the optimal diameter and Neighbor of Neighbor (NoN) routing. It also discusses the degree optimal P2P routing and Skip Graphs, analyzing their efficiency and performance. The study concludes that NoN Greedy routing is a cost-effective solution for improving path efficiency in various settings.
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Know thy Neighbor’s NeighborBetter Routing for Skip Graphs andSmall Worlds Moni Naor Udi Wieder
Properties of Greedy • Simple – to understand and to implement. • Local – If source and target are close, the path remains within a small area in the keyspace. • Howver, route not optimal with respect to the degree. O(log n)
Question Can Greedy Routing be further shortened Without compromising the good properties? This paper examines this issue.
Optimal diameter For a graph in which each node has degree d, The optimal diameter is O(logdn) When d=log n, the optimal diameter is O(log n/log log n) Proof?
Neighbor of Neighbor (NoN) Routing Each node has a list of its neighbor’s neighbors.The message is routed greedily to the closest neighbor of neighbor (2 hops). This means: • Let w1, w2, … wk be the neighbors of current node u • For each wi find zi, the closest neighbor to target t • Let j be such that zj is the closest to target t • Route the message from u via wj to zj • The first hop may not be a greedy choice.
Degree Optimal P2P Routing • Different routing schemes • Viceroy emulates the butterfly network • Constant degree • O(log n) hops for routing • Constructions emulating De-Bruijn graphs • Can achieve any degree/number of hops tradeoff • In particular degree O(log n) and O(log n/ log log n) hops • Routing is not greedy
0 1 0 0 1 1 0 0 1 0 1 0 1 1 0 1 1 0 Skip-Graphs • Each node (resource) has a name. • Nodes are arranged on a line sorted by name. b a c f d e Each node chooses a random string of bits. An edge is established if two nodes share a prefix which is not shared by the nodes between them.
0 1 0 0 1 1 0 0 1 0 1 0 1 1 0 1 1 0 Theorem: Using the NoN algorithm, the expected path length of any lookup is . Routing in Skip-Graphs • Greedy Routing – use longest edge possible. • Path length is (log n) w.h.p. The NoN algorithm optimizes over two hops.
= d l d o g d 1 [ ] [ ( ) j ] 0 X D 0 ¸ > l d ; 2 o g Skip Graphs – degree optimality d 0 X - # of two hop paths between d and D - the event a message reached the node d. • Call a NoN 2-hop successful if it reduces the distance from d to log d . • Need O(log log n) succesful 2-hops to get to distance 1. Lemma: Prob Sufficiency of lemma:
The Cost/Performance of NoN • Cost of Neighbor of Neighbor lists: • Memory: O(log2n) - marginally higher. • Communication: Is it tantamount to squaring the degree? • Neighbor lists should be maintained (open connection, pinging, etc.) • NoN lists should only be kept up-to-date. • Lazy updates: Updates occur only when communication load is low – supported by simulations. Networks of size 217 show 30-40% improvement
Conclusions • NoN Greedy seems like an almost free tweak that is a good idea in many settings.
