The Q6600
Benchmarks Game

spectral-norm Java OpenJ9 #2 program

source code

/*
The Computer Language Benchmarks Game
https://salsa.debian.org/benchmarksgame-team/benchmarksgame/
 
Based on C# entry by Isaac Gouy
contributed by Jarkko Miettinen
Parallel by The Anh Tran
 */

import java.text.DecimalFormat;
import java.text.NumberFormat;
import java.util.concurrent.CyclicBarrier;

public class spectralnorm
{
    private static final NumberFormat formatter = new DecimalFormat ("#.000000000");
    
    public static void main (String[] args)
    {
        int n = 1000;
        if (args.length > 0) n = Integer.parseInt (args[0]);
        
        System.out.println (formatter.format (spectralnormGame (n)) );
    }
    
    
    private static final double spectralnormGame (int n)
    {
        // create unit vector
        double[] u = new double[n];
        double[] v = new double[n];
        double[] tmp = new double[n];
        
        for (int i = 0; i < n; i++)
            u[i] = 1.0;
        
        // get available processor, then set up syn object
        int nthread = Runtime.getRuntime ().availableProcessors ();
        Approximate.barrier = new CyclicBarrier (nthread);
        
        int chunk = n / nthread;
        Approximate[] ap = new Approximate[nthread];
        
        for (int i = 0; i < nthread; i++)
        {
            int r1 = i * chunk;
            int r2 = (i < (nthread -1)) ? r1 + chunk : n;
            
            ap[i] = new Approximate (u, v, tmp, r1, r2);
        }
        
        
        double vBv = 0, vv = 0;
        for (int i = 0; i < nthread; i++)
        {
            try
            {
                ap[i].join ();
                
                vBv += ap[i].m_vBv;
                vv += ap[i].m_vv;
            }
            catch (Exception e)
            {
                e.printStackTrace ();
            }
        }
        
        return Math.sqrt (vBv/vv);
    }
    
    
    private static class Approximate extends Thread
    {
        private static CyclicBarrier barrier;
        
        private double[] _u;
        private double[] _v;
        private double[] _tmp;
        
        private int range_begin, range_end;
        private double m_vBv = 0, m_vv = 0;
        
        
        public Approximate (double[] u, double[] v, double[] tmp, int rbegin, int rend)
        {
            super ();
            
            _u = u;
            _v = v;
            _tmp = tmp;
            
            range_begin = rbegin;
            range_end = rend;
            
            start ();
        }
        
        public void run ()
        {
            // 20 steps of the power method
            for (int i = 0; i < 10; i++)
            {
                MultiplyAtAv (_u, _tmp, _v);
                MultiplyAtAv (_v, _tmp, _u);
            }
            
            for (int i = range_begin; i < range_end; i++)
            {
                m_vBv += _u[i] * _v[i];
                m_vv  += _v[i] * _v[i];
            }
        }
        
        /* return element i,j of infinite matrix A */
        private final static double eval_A (int i, int j)
        {
            int div = ( ((i+j) * (i+j+1) >>> 1) +i+1 );
            return 1.0 / div;
        }
        
        /* multiply vector v by matrix A, each thread evaluate its range only */
        private final void MultiplyAv (final double[] v, double[] Av)
        {
            for (int i = range_begin; i < range_end; i++)
            {
                double sum = 0;
                for (int j = 0; j < v.length; j++)
                    sum += eval_A (i, j) * v[j];
                
                Av[i] = sum;
            }
        }
        
        /* multiply vector v by matrix A transposed */
        private final void MultiplyAtv (final double[] v, double[] Atv)
        {
            for (int i = range_begin; i < range_end; i++)
            {
                double sum = 0;
                for (int j = 0; j < v.length; j++)
                    sum += eval_A (j, i) * v[j];
                
                Atv[i] = sum;
            }
        }
        
        /* multiply vector v by matrix A and then by matrix A transposed */
        private final void MultiplyAtAv (final double[] v, double[] tmp, double[] AtAv)
        {
            try
            {
                MultiplyAv (v, tmp);
                // all thread must syn at completion
                barrier.await ();
                MultiplyAtv (tmp, AtAv);
                // all thread must syn at completion
                barrier.await ();
            }
            catch (Exception e)
            {
                e.printStackTrace ();
            }
        }
    }
}
    

notes, command-line, and program output

NOTES:
64-bit Ubuntu quad core
openjdk 14 2020-03-17
OpenJDK Runtime Environment AdoptOpenJDK (build 14+36)
Eclipse OpenJ9 VM AdoptOpenJDK
build openj9-0.19.0 (JIT enabled, AOT enabled)



Tue, 05 May 2020 03:56:38 GMT

MAKE:
mv spectralnorm.openj9-2.openj9 spectralnorm.java
/opt/src/openj9-openjdk-14/bin/javac -d .  spectralnorm.java

5.07s to complete and log all make actions

COMMAND LINE:
/opt/src/openj9-openjdk-14/bin/java -Xshareclasses   spectralnorm 5500

PROGRAM OUTPUT:
1.274224153