I tried to use memoization technique to optimize the caculation of Fibonacci. My code is:

```
let memo f =
let vtable = ref [] in
let rec match_function x vt=
match vt with
|(x',y)::_ when x=x' -> y
|_::l ->
match_function x l
|[] ->
let y = (f x) in
vtable := (x,y):: !vtable;
y
in
(fun x -> (match_function x !vtable));;
let rec ggfib = function
0|1 as i -> i
|x -> ggfib(x-1) + ggfib(x-2);;
let memoggfib = memo ggfib;;
let running_time f x =
let start_time = Sys.time () in
let y = f x in
let finish_time = Sys.time() in
Printf.printf "Time lapse:%f\n" (finish_time -. start_time);
y;;
running_time ggfib 30;;
running_time memoggfib 30;;
```

The output is:

```
Time lapse:0.357187
Time lapse:0.353663
```

The difference is not that much.. Why?? And even worse, when I tried to calculate Fibonacci at 40 using

```
running_time ggfib 40;;
running_time memoggfib 40;;
```

The program appears to run into a infinite loop and stop outputting.

What is wrong here? What problem I did not take care of?

I changed the code above, to introduce a 'static' vtable for memoization.

```
let rec ggfib = function
0|1 as i -> i
|x -> ggfib(x-1) + ggfib(x-2);;
let running_time x0 =
let vtable = ref [] in
let start_time = Sys.time () in
let x = ref 1 in
let rec match_function ff x vt=
match vt with
|(x',y)::_ when x=x' -> y
|_::l ->
match_function ff x l
|[] ->
let y = (ff x) in
vtable := (x,y):: !vtable;
y
in
let y=ref 1 in
while !x<x0 do
y:= match_function ggfib !x !vtable;
x:=!x+1;
done;
let finish_time = Sys.time() in
Printf.printf "Time lapse:%f\n" (finish_time -. start_time);
y;;
let running_time2 x0=
let start_time = Sys.time () in
let x = ref 1 in
while !x<x0 do
ggfib !x;
x:=!x+1;
done;
let finish_time = Sys.time() in
Printf.printf "Time lapse:%f\n" (finish_time -. start_time);;
running_time 40;;
running_time2 30;;
```

It still acts as the basically same. I didn't see a significant improvement....

```
Time lapse:0.581918
Time lapse:0.577813
```