sometimes when programming recursivly, you call the function with the same parameters multiple times which is unnecassary.

The famous example Fibonacci numbers:

```
index: 1,2,3,4,5,6...
Fibonacci number: 1,1,2,3,5,8...
function F(n) {
if (n < 3)
return 1
else
return F(n-1) + F(n-2)
}
```

Let's run F(5):

```
F(5) = F(4) + F(3)
= {F(3)+F(2)} + {F(2)+F(1)}
= {[F(2)+F(1)]+1} + {1+1}
= 1+1+1+1+1
```

So we have called :
1 times F(4)
2 times F(3)
3 times F(2)
2 times F(1)

Dynamic Programming approach: if you call a function with the same parameter more than once, save the result into a variable to directly access it on next time. The iterative way:

```
if (n==1 || n==2)
return 1
else
f1=1, f2=1
for i=3 to n
f = f1 + f2
f1 = f2
f2 = f
```

Let's call F(5) again:

```
fibo1 = 1
fibo2 = 1
fibo3 = (fibo1 + fibo2) = 1 + 1 = 2
fibo4 = (fibo2 + fibo3) = 1 + 2 = 3
fibo5 = (fibo3 + fibo4) = 2 + 3 = 5
```

As you can see, whenever you need the multiple call you just access the corresponding variable to get the value instead of recalculating it.

By the way, dynamic programming doesn't mean to convert a recursive code into an iterative code. You can also save the subresults into a variable if you want a recursive code. In this case the technique is called memoization. For our example it looks like this:

```
// declare and initialize a dictionary
var dict = new Dictionary<int,int>();
for i=1 to n
dict[i] = -1
function F(n) {
if (n < 3)
return 1
else
{
if (dict[n] == -1)
dict[n] = F(n-1) + F(n-2)
return dict[n]
}
}
```

So the relationship to the Divide and Conquer is that D&D algorithms rely on recursion. And some versions of them has this "multiple function call with the same parameter issue." Search for "matrix chain multiplication" and "longest common subsequence" for such examples where DP is needed to improve the T(n) of D&D algo.