Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Possible Duplicate:
calculate fibonacci with threads in java

in my Fibonacci program

class main:

public class Main {
 * @param args the command line arguments
public static void main(String[] args) throws IOException {
    // TODO code application logic here
    int number=46;   //for calculate Desired number , n=46

        fib seq = new fib( number,number );
    catch(Exception e)
         System.out.println("usage: java Fib NUMBER");

class fibonacci:

public class fib extends Thread
private int n;
public int answer;
static int[] fns;

public fib(int x) {
    this.n = x;

fib(int x,  int x2) {
    fns=new int[x2+1];
 public void run() {
    if( n <= 2 )
        answer = 1;
    else {
        try {
                fib f1 = new fib(n-1);
                fib f2 = new fib(n-2);
                answer = f1.answer + f2.answer;

             else if(fns[this.n-1]==0&&fns[this.n-2]!=0){
                fib f1 = new fib(n);

                answer = f1.answer + fns[n-2];
             else if(fns[this.n-1]!=0&&fns[this.n-2]==0){
                fib f2 = new fib(n-2);

                answer = f2.answer + fns[n-1];
             else if(fns[this.n-1]!=0&&fns[this.n-2]!=0){

                answer = fns[n-1]+ fns[n-2];

        catch(InterruptedException ex) {

im gonig to calculate fibonacci sequence with java threads in order to decrease calculating time. i wrote my program like it but answer was wrong Although its seem to be true. another problem is out of memory exception that occurred in starting new threads for number 35 to the top. please help me many regards..

share|improve this question

marked as duplicate by Mat, NPE, Jeff Atwood Oct 8 '11 at 16:53

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

f1.start();f1.join();- umn. I think reading a good some concurrency book for starters would be the better approach here.. – Voo Oct 6 '11 at 13:04
@Voo: Good point. I think an even better approach would be to forget threading for this problem. – NPE Oct 6 '11 at 13:10
If it's really about calculating the Fibonacci sequence (and not multithreading recursive algorithms in general), you should consider using Binet's formula:…. – martin Oct 6 '11 at 13:28

2 Answers 2

up vote 4 down vote accepted

I don't think calculating the Fibonnaci sequence in parallel is going to be very efficient. If you really want it to be fast, try using memoization instead.

Memoization is the process of storing the result of a calculation in a look up table after it has been calculated, then using the pre-calculated value on later requests for that value. This means you'll only calculate the value for a number once (compared to who knows how many times with your Thread version). A Map class is often used for the Lookup Table (Although in this case, something like ArrayList would work fine also).

import java.util.Hashmap
public class Fib {

    private static Hashmap<int,int> fibCache = new Hashmap<int,int>();

    public static void main(String [] args) {
      // We know the values for fib(0) and fib(1), so let's store them

      int num = 46; // The number used in your example
      int f = fib(num); 

    static int fib(int number) {

        if (fibCache.containsKey(number))  // Have you already calculated this value?
            return fibCache.get(number); // Return it.

        // The number hasn't been calculated, so let's calculate it.
        int val = fib(num-1)+fib(num-2);

        // Store the value for later use.
        return val;


If you were trying to use this as a way to learn Threads/Parallel Programming, this wasn't the best problem to start with.

share|improve this answer
Where are you defining n in your if block and the fibCache.put call in the fib method? Shouldn't n be num since you're keying the fibonacci number to it's value? – FloppyDisk Oct 6 '11 at 14:21
@FloppyDisk You're right. I've fixed it. I had started to write this example to use java.util.ArrayList, then switched it to use Hashmap. I forgot to remove some stuff, and didn't match my variable names. – Core.B Oct 6 '11 at 16:24
seemed to be more beter!tnx – Riporter Oct 7 '11 at 4:20
Would you please tell me the some problem i can try to start learning multi-threading in java – SAM Dec 27 '12 at 5:11
It depends what you want to do with threads. Common things threads may be used for are in GUI applications where a separate thread has is used to send a network request so that it doesn't block the GUI from processing. I can't give a good example problem for learning that, all I can say is that calculating the Fibonacci sequence is a bad example. – Core.B Jan 4 '13 at 20:11

Some tasks are fundermentally single threaded and are not suited to being performed using multiple threads. A key sign of a single threaded task is when you cannot evaluate the next term without know the previous terms. i.e. there is nothing you can efficiently perform in parallel.

If you want the fibonacci sequence to be calculated efficiently, use a loop.

If you want to create large numbers of threads and keep your CPU busy for a long time, use multiple threads. ;)

public static BigInteger fibonacci(int term) {
    BigInteger a = BigInteger.ONE;
    BigInteger b = BigInteger.ONE;
    while (term-- > 2) {
        BigInteger c = a.add(b);
        a = b;
        b = c;
    return b;

public static void main(String... a) {
    int term = 100 * 1000;
    long start = System.nanoTime();
    BigInteger fibonacci = fibonacci(term);
    long time = System.nanoTime() - start;
    System.out.println("fibonacci( " + term + " ): " + fibonacci);
    System.out.printf("Took %.3f seconds to calculate%n", time / 1e9);


fibonacci( 100000 ): 25974069347221 ..... 4653428746875
Took 0.915 seconds to calculate

As you can see the code is much shorter and takes just a second to calculate the 100,000th entry.

Doing it this way, the 46th term doesn't even warm up the JVM.

fibonacci( 46 ): 1836311903
Took 0.000436 seconds to calculate
share|improve this answer

Not the answer you're looking for? Browse other questions tagged or ask your own question.