# difference between Bellman Ford and Dijkstra's algorithm

``````   2           1
1----------2---------4
|          |         |
|3         |3        |1
|    6     |         |
3---------5 ---------
``````

Ok, so this is the graph. My source node is `1` and destination node is `5`

My question is.

Are both the algorithms going to give the same output or not? That is, will both return `1->2->4->5`? (Except that negative weights are not allowed in dijkstra's)

Thanks in advance for help.

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Bellman-Ford algorithm is a single-source shortest path algorithm, which allows for negative edge weight and can detect negative cycles in a graph.

Dijkstra algorithm is also another single-source shortest path algorithm. However, the weight of all the edges must be non-negative.

For your case, as far as the total cost is concerned, there will be no difference, since the edges in the graph have non-negative weight. However, Dijkstra's algorithm is usually used, since the typical implementation with binary heap has `Theta((|E|+|V|)log|V|)` time complexity, while Bellman-Ford algorithm has `O(|V||E|)` complexity.

If there are more than 1 path that has minimum cost, the actual path returned is implementation dependent (even for the same algorithm).

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+1 perfect answer. –  Mehrdad Apr 29 '13 at 7:26

The vertexes in Dijkstra’s algorithm contain the whole information of a network. There is no such thing that every vertex only cares about itself and its neighbors. On the other hand, Bellman-Ford algorithm’s nodescontain only the information that are related to. This information allows that node just to know about which neighbor nodes can it connect and the node that the relation come from, mutually. Dijkstra’s algorithm is faster than Bellman-Ford’s algorithm however the second algorithm can be more useful to solve some problems, such as negative weights of paths.

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