This question could go into a bitcoin forum but I am trying to understand from a programming point of view.

There are technologies used for distributed storage, like distributed hashtables (say kademlia or similar). How is the bitcoin blockchain different from distributed hashtables? Or is maybe distributed hashtable technology underpinning the bitcoin blockchain? Or why is the bitcoin blockchain hailed as such a breakthrough compared to DHT?

  • Stack Overflow is a site for programming and development questions. This question appears to be off-topic because it is not about programming or development. See What topics can I ask about here in the Help Center. Perhaps Bitcoin Stack Exchange would be a better place to ask. – jww May 31 '17 at 22:34
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    @jww thansk for your comment. Appreciate your intentions but I frankly do not agree. I am a developer, and DHT is a programming technique.This question is nearly 3 years old, at a time when my knowledge of blockchain was pretty limited. As a developer, I wanted to understand these development concepts better. By now, I wouldn't put that question like that. But the answer helped at that time, so I'd vote to keep it. – faboolous Jun 1 '17 at 13:34
up vote 33 down vote accepted

Distributed Hash Table

A DHT is simply a key-value store distributed accross a number of nodes in a network. The keys are distributed among nodes with a deterministic algorithm. Each node is responsible for a portion of the hash table.

A routing algorithm allows to perform requests in the hash table without knowing every node of the network.

For exemple in the Chord DHT —which is relatively simple DHT implementation— each node is assigned an identifier and is responsible of keys which are closer to its identifier.

Imagine there is 4 nodes that have identifiers: 2a6c, 7811, a20f, e9c3 The data with the identifier 2c92 will be stored on the node 2a6c.

Imagine now that you only know the node 7811 and you are looking for the data with the identifier eabc.

You ask the node 7811 for the data eabc. 7811 doesn't have it so it ask the node e9c3 wich send it to node 7811 which send it back to you.

A clever algorithm allows to find data in O(log(N)) jumps. Without storing the entire routing table of the network (the addresses of each nodes). Basically you ask the closest node to the data identifier you know wich itself asks the closest node it knows and so on reducing the size of the jump at each step.

A DHT is very scalable because the data are uniformly distributed among nodes and lookup time generally grows in O(log(N)).


A blockchain is also a distributed data structure but its purpose is completely different.

Think of it as a history, or a ledger. The purpose is to store a continuously-growing list of record without the possibility of tampering and revision.

It is mainly used in the bitcoin currency system for keeping track of transactions. Its property of being tamper-proof let everybody know the exact balance of an account by knowing its history of transaction.

In a blockchain, each node of the network stores the full data. So it is absolutely not the same idea as the DHT in which data are divided among nodes. Every new entry in the blockchain must be validated by a process called mining whose details are out of the scope of this answer but this process insure consensus of the data.

The two structures are both distributed data structure but serve different purposes. DHT aims to provide an efficient (in term of lookup time and storage footprint) structure to divide data on a network and blockchain aims to provide a tamper-proof data structure.

In computing, a hash table (hash map) is a data structure which implements an associative array abstract data type, a structure that can map keys to values. A hash table uses a hash function to compute an index into an array of buckets or slots, from which the desired value can be found. but block chain is a digital ledger in which transactions made in bitcoin or another cryptocurrency are recorded chronologically and publicly.

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