# Recursive calculations using Mapreduce

I am working on map reduce program and was thinking about designing computations of the form where `a1, b1` are the values associated with a key

``````  a1/b1, a1+a2/b1+b2, a1+a2+a3/b1+b2+b3 ...
``````

So at every stage of reducer I would require the previous values. How would one design this as a map reduce as at every stage only the values associated with a particular key can be read.

If you feel the question is not clear, can you guide me towards this general question?

More general question: How would one develop a Fibonacci series using recursion in map reduce?

### EDIT

Can you help me with my modified design

`````` key1, V1,V2,V3
Key2, V4,V5,V6
``````

Mapper output

``````  Key1_X V1
Key1_Y V2
Key2_X V4
Key2_Y V5
``````

Reducer output

``````  Key1_X {V1,.....}
Key1_Y {V2,.....}
``````

similarly, now in the next mapper stage. Can I create a list like this:

``````   key1 {V1,....} {V2,....}
Key2 {V4,....} {V5,....}
``````

My reason to do this, is to perform:

``````   Key1 {V1/V2, V1+V6/V2+V7, V1+V6+..../V2+V7+.. , .........}
``````

Is it possible to do this? Because the data set is very large, so I think it will be better to use map reduce.

Will changing the design help make it more efficient?

• Are there invisible parentheses surrounding the terms on either side of the division operator? – Atreys Jul 15 '11 at 20:58
• Changing the wording of your question doesn't change the underlying problem with the problem you are solving. I still think MR is inefficient for this class of problems. – Niels Basjes Jul 17 '11 at 21:24

The main problem with Fibonacci (and as you indicated in your specific problem too) is the dependence between all terms in the series. You cannot calculate the later terms without calculating the earlier terms first.

MapReduce is very good IFF you can split your job into independent pieces.

I don't see an easy way to do this.

So any construct "forcing" MapReduce to solve this will break the scalability advantages. Hence a simple highly optimized loop in your favorite programming language will outperform any MapReduce algorithm.

Write your mapper/reducer to calculate these three things:

``````the sum of a_i
the sum of b_i
their ratio
``````