in πŸ““ Notes

Distributed Hash Table (DHT)

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DHTs are Distributed Hash Tables which are P2P algorithms.

“A system where the nodes organize themselves in a structured overlay and establish a small amount of routing information for quick and efficient routing to other overlay nodes.” - Peer-to-Peer Systems and Applications

  • P2P Algorithms: different implementations
  • Nodes store index info about other resources
  • Flat architecture: no special nodes
  • Usually can find resources on $O(\log N)$
  • By distributing identifiers of nodes and data equally thorough the system, the load shoud be balanced across all peers
    • PROBLEM: obviously there are some resources that are always more accessed than others, creating possibily huge differences.
  • Data storage:
    • Direct storage: data is copied upon insertion to the responsible node.
      • Good because the data is directly on the peer.
      • Bad for bandwidth and resources.
    • Referenced storage: references pointers to the actual location of the data.
      • Good because there’s less load on the DHT.
      • Bad becauser data is only available while the node is available.
  • Can be interpreted as:
    • Routing systems
    • Storage systems
  • Challenges:
    • Routing efficiency
    • Management overhead
    • Dynamics



SystemRouting HopsNode StateArrivalDeparture
Chord (DHT)$O(\frac{1}{2}\log_2(N))$$O(2\log_2(N))$$O(log_2^2(N))$$O(\log_2^2(N))$
Pastry (DHT)$O(\frac{1}{2}\log_2(N))$$O(\frac{1}{b}(2^b-1)\log_2(N))$$O(log_{2^b}(N))$$O(\log_b(N))$
Content Addressable Network (DHT)$O(\frac{D}{2}N^{1/D})$$O(2D)$$O(\frac{D}{2}N^{1/D})$$O(2D)$
Kademlia (DHT)$O(\log_b(N))$$O(b\log_b(N))$$O(\log_b(N))$$O(\log_b(N))$

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