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According to the Princeton booksite, the Weighted Quick Union with Path Compression reduces the time of 10^9 union operations on 10^9 objects from a year to ~6 seconds. How is this number derived? When I run the following code at 10^8 operations I have a runtime of 61s.

public class MainWQUPC{

public static void main(String[] args){

    int p, q; 
    Scanner s = new Scanner(;

    long N = s.nextLong();

    WQUPC uf = new WQUPC((int) N);

    for(int x = 0; x < N; x++){

        p = (int) (Math.random() * N);
        q = (int) (Math.random() * N);

        if(!uf.connected(p, q))
            uf.union(p, q);



public class WQUPC{

private int[] id;
private int[] sz;

public WQUPC(int N){

    id = new int[N];
    sz = new int[N];
    for(int i = 0; i < N; i++){
        id[i] = i;
        sz[i] = 1;

int root(int i){

    while(i != id[i]){
        id[i] = id[id[i]];
        i = id[i];

    return i;


boolean connected(int p, int q){
    return root(p) == root(q);

void union(int p, int q){

    int i = root(p);
    int j = root(q);

    if(sz[i] < sz[j]){          

        id[i] = j;
        sz[j] += sz[i];


        id[j] = i;
        sz[i] += sz[j];


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Those numbers are based on theoretical calculations. Like N operations take a year, N/365 take a day. You can't compare that like you did. –  zapl Sep 2 '13 at 21:02

1 Answer 1

You can't directly compare this since the runtime depends on many different factors mostly in this case on your CPU performance.

Let's say a year has about 31556952 seconds on average (60*60*24*365.2425) And with Path Compression it takes ~6 seconds

This means that the Quick Union with path Compression is about 5259492 (31556952/6) times faster than without.

So the number given just show how incredible good the performance boost is when you "just" improve the algorithm a bit.

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