which leJOS user may provide data about the leJOS progamming environment for NXT and EV§? (the question marks in the second part of the table)?
http://www.mindstormsforum.de/viewtopic ... 095#p64772
hw brickbench: Benchmark test for NXT and EV3
Re: hw brickbench: Benchmark test for NXT and EV3
Last edited by HaWe on 04 Jan 2015, 14:23, edited 1 time in total.
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Re: hw brickbench: Benchmark test for NXT and EV3
Interesting! I have access to neither NXT nor EV3, but I'm hoping to eventually have my NXT shipped back here. I may just have to write all my code in NXC and then attempt to port/rewrite it for RobotC and switch firmwares back and forth for testing... Mainly I do lots of heavy calculations: 2-dimensional balancing/object tracking/obstacle avoidance, realtime inverse kinatics/object tracking/trajectory computing ... etc. Obviously this is math-heavy, so deals with variables, but also needs to be quite snappy...HaWe wrote:(RobotC firmware and original Lego/NXC firmware are incompatible)—note that Robotc on EV3 just has 15 kbytes RAM for variables just like on the NXT (others have 40+ Mbyte RAM) and additionally no double-precision float (= 64bit) like all others for EV3 (what both is indispensible IMO for a 32bit platform).
Ahh. Things are complicated now, but eventually they will be simplified, when I get my hands back on my NXT. Or have a few hundred dollars to throw away on a EV3... Perhaps next Black Friday? :p
—Jag
Re: hw brickbench: Benchmark test for NXT and EV3
just not to get this issue lost:
HaWe wrote:which leJOS user may provide data about the leJOS progamming environment for NXT and EV§? (the question marks in the second part of the table)?
http://www.mindstormsforum.de/viewtopic ... 095#p64772
Last edited by HaWe on 04 Jan 2015, 14:23, edited 1 time in total.
Re: hw brickbench: Benchmark test for NXT and EV3
BTW,
there are also some code issues about the Java version - at least 1 test does not match exactly the reference code (Integer algebra, IIRC).
Maybe a Java expert could fix this, too ?
http://www.mindstormsforum.de/viewtopic ... 501#p64501
For the moment the Java results are not 100% comparable to the others.
there are also some code issues about the Java version - at least 1 test does not match exactly the reference code (Integer algebra, IIRC).
Maybe a Java expert could fix this, too ?
http://www.mindstormsforum.de/viewtopic ... 501#p64501
For the moment the Java results are not 100% comparable to the others.
Re: hw brickbench: Benchmark test for NXT and EV3
hi,
is anyone around here who already the new leJOS 0.9 beta?
would you please be so kind and test the following code?
a) just 1 run
b) maybe additionally for the 3rd of 3 runs or for the mean of overall 3 runs
just compile, upload, and copy the program output . that's it!
this is the test code - thanks in advance!
is anyone around here who already the new leJOS 0.9 beta?
would you please be so kind and test the following code?
a) just 1 run
b) maybe additionally for the 3rd of 3 runs or for the mean of overall 3 runs
just compile, upload, and copy the program output . that's it!
this is the test code - thanks in advance!
Code: Select all
import lejos.hardware.Button;
import lejos.hardware.ev3.LocalEV3;
import lejos.hardware.lcd.GraphicsLCD;
import lejos.hardware.lcd.LCD;
// hw brickbench
// benchmark test for NXT/EV3 and similar Micro Controllers
// PL: leJOS/EV3 0.9.x
// Autor: (C) Helmut Wunder 2013,2014
// Ported to leJOS by Andy Shaw.
// freie Verwendung für private Zwecke
// für kommerzielle Zwecke nur nach Genehmigung durch den Autor.
// protected under the friendly Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License
// http://creativecommons.org/licenses/by-nc-sa/3.0/
// version 1.09.2.ev3 release 2015-02
// PLEASE NOTE: This is not a good example of a Java program. It is a simple port of a C program.
// No attempt has been made to make use of Java features.
public class MBBenchmark
{
static long[] runtime = new long[8];
static int[] a = new int[500], b = new int[500], c = new int[500],
t = new int[500];
// --------------------------------------------
// Mersenne Twister
// --------------------------------------------
static int[] y = new int[25];
static int index = 25 + 1;
static final int M = 7;
static final int[] A = { 0, 0x8ebfd028 };
static int randM()
{
if (index >= 25)
{
int k;
if (index > 25)
{
int r = 9, s = 3402;
for (k = 0; k < 25; ++k)
{
r = 509845221 * r + 3;
s *= s + 1;
y[k] = s + (r >> 10);
}
}
for (k = 0; k < 25 - M; ++k)
y[k] = y[k + M] ^ (y[k] >> 1) ^ A[y[k] & 1];
for (; k < 25; ++k)
y[k] = y[k + (M - 25)] ^ (y[k] >> 1) ^ A[y[k] & 1];
index = 0;
}
int e = y[index++];
e ^= (e << 7) & 0x2b5b2500;
e ^= (e << 15) & 0xdb8b0000;
e ^= (e >> 16);
return e;
}
// --------------------------------------------
// Matrix Algebra
// --------------------------------------------
// matrix * matrix multiplication (matrix product)
static void MatrixMatrixMult(int N, int M, int K, double A[][],
double B[][], double C[][])
{
int i, j, s; // matrix A: N x M // B: M x K // C: N x K
for (i = 0; i < N; ++i)
{
for (j = 0; j < K; ++j)
{
C[i][j] = 0;
for (s = 0; s < M; ++s)
{
C[i][j] = C[i][j] + A[i][s] * B[s][j];
}
}
}
}
// matrix determinant
static double MatrixDet(int N, double A[][])
{
int i, j, i_count, j_count, count = 0;
double[][] Asub = new double[N - 1][N - 1];
double det = 0;
if (N == 1)
return A[0][0];
if (N == 2)
return (A[0][0] * A[1][1] - A[0][1] * A[1][0]);
for (count = 0; count < N; count++)
{
i_count = 0;
for (i = 1; i < N; i++)
{
j_count = 0;
for (j = 0; j < N; j++)
{
if (j == count)
continue;
Asub[i_count][j_count] = A[i][j];
j_count++;
}
i_count++;
}
det += Math.pow(-1, count) * A[0][count] * MatrixDet(N - 1, Asub);
}
return det;
}
// --------------------------------------------
// shell sort
// --------------------------------------------
static void shellsort(int size, int[] A)
{
int i, j, increment;
int temp;
increment = size / 2;
while (increment > 0)
{
for (i = increment; i < size; i++)
{
j = i;
temp = A[i];
while ((j >= increment) && (A[j - increment] > temp))
{
A[j] = A[j - increment];
j = j - increment;
}
A[j] = temp;
}
if (increment == 2)
increment = 1;
else
increment = (int) (increment / 2.2);
}
}
// --------------------------------------------
// benchmark test procedures
// --------------------------------------------
static int test_Int_Add()
{
int i = 1, j = 11, k = 112, l = 1111, m = 11111, n = -1, o = -11, p = -111, q = -1112, r = -11111;
int x;
int s = 0;
for (x = 0; x < 10000; ++x)
{
s += i;
s += j;
s += k;
s += l;
s += m;
s += n;
s += o;
s += p;
s += q;
s += r;
}
return s;
}
static int test_Int_Mult()
{
int x, y;
int s = 0;
for (y = 0; y < 2000; ++y)
{
s = 1;
for (x = 1; x <= 13; ++x)
{
s *= x;
}
for (x = 13; x > 0; --x)
{
s /= x;
}
}
return s;
}
static float test_float_math()
{
float s = (float) Math.PI;
int y;
for (y = 0; y < 1000; ++y)
{
s *= Math.sqrt(s);
s = (float) Math.sin(s);
s = (float) Math.exp(s);
s *= s;
}
return s;
}
static int test_rand_MT()
{
int s = 0;
int y;
for (y = 0; y < 5000; ++y)
{
s = randM() % 10001;
}
return s;
}
static float test_matrix_math()
{
int x;
double[][] A = new double[2][2], B = new double[2][2], C = new double[2][2];
double[][] O = new double[3][3], T = new double[3][3];
int s;
for (x = 0; x < 250; ++x)
{
A[0][0] = 1;
A[0][1] = 3;
A[1][0] = 2;
A[1][1] = 4;
B[0][0] = 10;
B[0][1] = 30;
B[1][0] = 20;
B[1][1] = 40;
MatrixMatrixMult(2, 2, 2, A, B, C);
A[0][0] = 1;
A[0][1] = 3;
A[1][0] = 2;
A[1][1] = 4;
MatrixDet(2, A);
O[0][0] = 1;
O[0][1] = 4;
O[0][2] = 7;
O[1][0] = 2;
O[1][1] = 5;
O[1][2] = 8;
O[2][0] = 3;
O[2][1] = 6;
O[2][2] = 9;
MatrixDet(3, O);
}
s = (int) (O[0][0] * O[1][1] * O[2][2]);
return s;
}
static int test_Sort()
{
int y;
int[] t = new int[500];
for (y = 0; y < 50; ++y)
{
System.arraycopy(a, 0, t, 0, t.length);
shellsort(500, t);
System.arraycopy(b, 0, t, 0, t.length);
shellsort(500, t);
System.arraycopy(c, 0, t, 0, t.length);
shellsort(500, t);
}
return y;
}
static long test_TextOut()
{
int y;
for (y = 0; y < 20; ++y)
{
LCD.clear();
LCD.drawString("" + 0 + " " + 1000 + " int_Add", 0, 0);
LCD.drawString("" + 0 + " " + 1010 + " int_Mult", 0, 1);
LCD.drawString("" + 0 + " " + 1020 + " float_op", 0, 2);
LCD.drawString("" + 0 + " " + 1030 + " randomize", 0, 3);
LCD.drawString("" + 0 + " " + 1040 + " matrix_algb", 0, 4);
LCD.drawString("" + 0 + " " + 1050 + " arr_sort", 0, 5);
LCD.drawString("" + 0 + " " + 1060 + " display_text", 0, 6);
LCD.drawString("" + 0 + " " + 1070 + " testing...", 0, 7);
}
return 99;
}
static int test_graphics()
{
int x = 1, y;
GraphicsLCD g = LocalEV3.get().getGraphicsLCD();
for (y = 0; y < 100; ++y)
{
g.clear();
g.drawArc(50, 40, 10, 10, 0, 360);
g.fillArc(30, 24, 10, 10, 0, 360);
g.drawLine(10, 10, 60, 60);
g.drawLine(50, 20, 90, 70);
g.drawRect(20, 20, 40, 40);
g.fillRect(65, 25, 20, 30);
g.drawArc(100, 30, 15, 20, 0, 360);
}
return x;
}
static void displayValue(int testNo, long testTime, String testName)
{
LCD.drawInt(testNo, 2, 0, testNo);
LCD.drawInt((int) testTime, 6, 3, testNo);
LCD.drawString(testName, 10, testNo);
}
static void displayValues()
{
displayValue(0, runtime[0], "int_Add");
displayValue(1, runtime[1], "int_Mult");
displayValue(2, runtime[2], "float_op");
displayValue(3, runtime[3], "randomize");
displayValue(4, runtime[4], "matrix_algb");
displayValue(5, runtime[5], "arr_sort");
displayValue(6, runtime[6], "displ_txt");
displayValue(7, runtime[7], "graphics");
}
static public void main(String[] args)
{
long time0;
int x, y;
float s;
int i;
LCD.clear();
LCD.drawString("hw brickbench", 0, 1);
LCD.drawString("(C)H.Wunder 2013", 0, 2);
LCD.drawString("initializing...", 0, 4);
// Java on the EV3 uses a JIT compiler, run the test multiple times to
// allow the results to be stable
for (int ii = 0; ii < 20; ii++)
{
for (y = 0; y < 500; ++y)
{
a[y] = randM() % 30000;
b[y] = randM() % 30000;
c[y] = randM() % 30000;
}
LCD.clear();
time0 = System.currentTimeMillis();
s = test_Int_Add();
runtime[0] = System.currentTimeMillis() - time0;
displayValue(0, runtime[0], "int_Add ");
System.out.println("int_Add " + runtime[0]);
time0 = System.currentTimeMillis();
s = test_Int_Mult();
runtime[1] = System.currentTimeMillis() - time0;
displayValue(1, runtime[1], "int_Mult");
System.out.println("int_Mult " + runtime[1]);
time0 = System.currentTimeMillis();
s = test_float_math();
runtime[2] = System.currentTimeMillis() - time0;
displayValue(2, runtime[2], "float_op");
System.out.println("float_op " + runtime[2]);
time0 = System.currentTimeMillis();
s = test_rand_MT();
runtime[3] = System.currentTimeMillis() - time0;
displayValue(3, runtime[3], "randomize");
System.out.println("randomize " + runtime[3]);
time0 = System.currentTimeMillis();
s = test_matrix_math();
runtime[4] = System.currentTimeMillis() - time0;
displayValue(4, runtime[4], "matrix_algb");
System.out.println("matrx_algb " + runtime[4]);
time0 = System.currentTimeMillis();
s = test_Sort();
runtime[5] = System.currentTimeMillis() - time0;
displayValue(5, runtime[5], "arr_sort");
System.out.println("arr_sort " + runtime[5]);
time0 = System.currentTimeMillis();
s = test_TextOut();
runtime[6] = System.currentTimeMillis() - time0;
System.out.println("text " + runtime[6]);
LCD.clear();
displayValues();
time0 = System.currentTimeMillis();
s = test_graphics();
runtime[7] = System.currentTimeMillis() - time0;
System.out.println("graphics " + runtime[7]);
LCD.clear();
displayValues();
}
Button.waitForAnyPress();
LCD.clear();
y = 0;
for (x = 0; x < 8; ++x)
{
y += runtime[x];
}
LCD.drawString("Total ms: " + y, 0, 0);
LCD.drawString("Benchmark: " + (50000000 / y), 0, 1);
System.out.println("total ms: " + y);
System.out.println("benchmark: " + 50000000 / y);
Button.waitForAnyPress();
LCD.clear();
}
}
Last edited by HaWe on 17 Feb 2015, 11:04, edited 2 times in total.
Re: hw brickbench: Benchmark test for NXT and EV3
runtime results for java 0.9.0 EV3 now already have been provided:
Output redirected
Executing jrun -cp /home/lejos/programs/MBBenchmark.jar lejos.internal.ev3.EV3Wrapper MBBenchmark in /home/lejos/programs
int_Add 62
int_Mult 61
float_op 195
randomize 20
matrx_algb 159
arr_sort 180
text 277
graphics 689
int_Add 70
int_Mult 91
float_op 267
randomize 25
matrx_algb 47
arr_sort 134
text 174
graphics 364
int_Add 2
int_Mult 15
float_op 159
randomize 5
matrx_algb 42
arr_sort 129
text 174
graphics 364
int_Add 2
int_Mult 10
float_op 88
randomize 4
matrx_algb 47
arr_sort 141
text 194
graphics 333
int_Add 2
int_Mult 9
float_op 48
randomize 5
matrx_algb 49
arr_sort 136
text 200
graphics 539
overview: http://www.mindstormsforum.de/viewtopic ... 772#p64772
Output redirected
Executing jrun -cp /home/lejos/programs/MBBenchmark.jar lejos.internal.ev3.EV3Wrapper MBBenchmark in /home/lejos/programs
int_Add 62
int_Mult 61
float_op 195
randomize 20
matrx_algb 159
arr_sort 180
text 277
graphics 689
int_Add 70
int_Mult 91
float_op 267
randomize 25
matrx_algb 47
arr_sort 134
text 174
graphics 364
int_Add 2
int_Mult 15
float_op 159
randomize 5
matrx_algb 42
arr_sort 129
text 174
graphics 364
int_Add 2
int_Mult 10
float_op 88
randomize 4
matrx_algb 47
arr_sort 141
text 194
graphics 333
int_Add 2
int_Mult 9
float_op 48
randomize 5
matrx_algb 49
arr_sort 136
text 200
graphics 539
overview: http://www.mindstormsforum.de/viewtopic ... 772#p64772
Re: hw brickbench: Benchmark test for NXT and EV3
Now for leJOS for NXT:
is someone around who would test the following fixed test on an NXT?
thanks in advance!
is someone around who would test the following fixed test on an NXT?
thanks in advance!
Code: Select all
import javax.microedition.lcdui.Graphics;
import lejos.nxt.Button;
import lejos.nxt.LCD;
// hw brickbench
// benchmark test for NXT/EV3 and similar Micro Controllers
// PL: leJOS/NXT 0.9.1beta
// Autor: (C) Helmut Wunder 2013,2014
// Ported to leJOS by Andy Shaw.
// freie Verwendung für private Zwecke
// für kommerzielle Zwecke nur nach Genehmigung durch den Autor.
// protected under the friendly Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License
// http://creativecommons.org/licenses/by-nc-sa/3.0/
// version 1.09.2.nxt
// PLEASE NOTE: This is not a good example of a Java program. It is a simple port of a C program.
// No attempt has been made to make use of Java features.
public class MBBenchmark
{
static long[] runtime = new long[8];
static int[] a = new int[500], b = new int[500], c = new int[500],
t = new int[500];
// --------------------------------------------
// Mersenne Twister
// --------------------------------------------
static int[] y = new int[25];
static int index = 25 + 1;
static final int M = 7;
static final int[] A = { 0, 0x8ebfd028 };
static int randM()
{
if (index >= 25)
{
int k;
if (index > 25)
{
int r = 9, s = 3402;
for (k = 0; k < 25; ++k)
{
r = 509845221 * r + 3;
s *= s + 1;
y[k] = s + (r >> 10);
}
}
for (k = 0; k < 25 - M; ++k)
y[k] = y[k + M] ^ (y[k] >> 1) ^ A[y[k] & 1];
for (; k < 25; ++k)
y[k] = y[k + (M - 25)] ^ (y[k] >> 1) ^ A[y[k] & 1];
index = 0;
}
int e = y[index++];
e ^= (e << 7) & 0x2b5b2500;
e ^= (e << 15) & 0xdb8b0000;
e ^= (e >> 16);
return e;
}
// --------------------------------------------
// Matrix Algebra
// --------------------------------------------
// matrix * matrix multiplication (matrix product)
static void MatrixMatrixMult(int N, int M, int K, double A[][],
double B[][], double C[][])
{
int i, j, s; // matrix A: N x M // B: M x K // C: N x K
for (i = 0; i < N; ++i)
{
for (j = 0; j < K; ++j)
{
C[i][j] = 0;
for (s = 0; s < M; ++s)
{
C[i][j] = C[i][j] + A[i][s] * B[s][j];
}
}
}
}
// matrix determinant
static double MatrixDet(int N, double A[][])
{
int i, j, i_count, j_count, count = 0;
double[][] Asub = new double[N - 1][N - 1];
double det = 0;
if (N == 1)
return A[0][0];
if (N == 2)
return (A[0][0] * A[1][1] - A[0][1] * A[1][0]);
for (count = 0; count < N; count++)
{
i_count = 0;
for (i = 1; i < N; i++)
{
j_count = 0;
for (j = 0; j < N; j++)
{
if (j == count)
continue;
Asub[i_count][j_count] = A[i][j];
j_count++;
}
i_count++;
}
det += Math.pow(-1, count) * A[0][count] * MatrixDet(N - 1, Asub);
}
return det;
}
// --------------------------------------------
// shell sort
// --------------------------------------------
static void shellsort(int size, int[] A)
{
int i, j, increment;
int temp;
increment = size / 2;
while (increment > 0)
{
for (i = increment; i < size; i++)
{
j = i;
temp = A[i];
while ((j >= increment) && (A[j - increment] > temp))
{
A[j] = A[j - increment];
j = j - increment;
}
A[j] = temp;
}
if (increment == 2)
increment = 1;
else
increment = (int) (increment / 2.2);
}
}
// --------------------------------------------
// benchmark test procedures
// --------------------------------------------
static int test_Int_Add()
{
int i = 1, j = 11, k = 112, l = 1111, m = 11111, n = -1, o = -11, p = -111, q = -1112, r = -11111;
int x;
int s = 0;
for (x = 0; x < 10000; ++x)
{
s += i;
s += j;
s += k;
s += l;
s += m;
s += n;
s += o;
s += p;
s += q;
s += r;
}
return s;
}
static int test_Int_Mult()
{
int x, y;
int s = 0;
for (y = 0; y < 2000; ++y)
{
s = 1;
for (x = 1; x <= 13; ++x)
{
s *= x;
}
for (x = 13; x > 0; --x)
{
s /= x;
}
}
return s;
}
static float test_float_math()
{
float s = (float) Math.PI;
int y;
for (y = 0; y < 1000; ++y)
{
s *= Math.sqrt(s);
s = (float) Math.sin(s);
s = (float) Math.exp(s);
s *= s;
}
return s;
}
static int test_rand_MT()
{
int s = 0;
int y;
for (y = 0; y < 5000; ++y)
{
s = randM() % 10001;
}
return s;
}
static float test_matrix_math()
{
int x;
double[][] A = new double[2][2], B = new double[2][2], C = new double[2][2];
double[][] O = new double[3][3], T = new double[3][3];
int s;
for (x = 0; x < 250; ++x)
{
A[0][0] = 1;
A[0][1] = 3;
A[1][0] = 2;
A[1][1] = 4;
B[0][0] = 10;
B[0][1] = 30;
B[1][0] = 20;
B[1][1] = 40;
MatrixMatrixMult(2, 2, 2, A, B, C);
A[0][0] = 1;
A[0][1] = 3;
A[1][0] = 2;
A[1][1] = 4;
MatrixDet(2, A);
O[0][0] = 1;
O[0][1] = 4;
O[0][2] = 7;
O[1][0] = 2;
O[1][1] = 5;
O[1][2] = 8;
O[2][0] = 3;
O[2][1] = 6;
O[2][2] = 9;
MatrixDet(3, O);
}
s = (int) (O[0][0] * O[1][1] * O[2][2]);
return s;
}
static int test_Sort()
{
int y;
int[] t = new int[500];
for (y = 0; y < 50; ++y)
{
System.arraycopy(a, 0, t, 0, t.length);
shellsort(500, t);
System.arraycopy(b, 0, t, 0, t.length);
shellsort(500, t);
System.arraycopy(c, 0, t, 0, t.length);
shellsort(500, t);
}
return y;
}
static long test_TextOut()
{
int y;
for (y = 0; y < 20; ++y)
{
LCD.clear();
LCD.drawString("" + 0 + " " + 1000 + " int_Add", 0, 0);
LCD.drawString("" + 0 + " " + 1010 + " int_Mult", 0, 1);
LCD.drawString("" + 0 + " " + 1020 + " float_op", 0, 2);
LCD.drawString("" + 0 + " " + 1030 + " randomize", 0, 3);
LCD.drawString("" + 0 + " " + 1040 + " matrix_algb", 0, 4);
LCD.drawString("" + 0 + " " + 1050 + " arr_sort", 0, 5);
LCD.drawString("" + 0 + " " + 1060 + " display_text", 0, 6);
LCD.drawString("" + 0 + " " + 1070 + " testing...", 0, 7);
}
return 99;
}
static int test_graphics()
{
int x = 1, y;
Graphics g = new Graphics();;
for (y = 0; y < 100; ++y)
{
g.clear();
g.drawArc(50, 40, 10, 10, 0, 360);
g.fillArc(30, 24, 10, 10, 0, 360);
g.drawLine(10, 10, 60, 60);
g.drawLine(50, 20, 90, 70);
g.drawRect(20, 20, 40, 40);
g.fillRect(65, 25, 20, 30);
g.drawArc(100, 30, 15, 20, 0, 360);
}
return x;
}
static void displayValue(int testNo, long testTime, String testName)
{
LCD.drawInt(testNo, 2, 0, testNo);
LCD.drawInt((int) testTime, 6, 3, testNo);
LCD.drawString(testName, 10, testNo);
}
static void displayValues()
{
displayValue(0, runtime[0], "int_Add");
displayValue(1, runtime[1], "int_Mult");
displayValue(2, runtime[2], "float_op");
displayValue(3, runtime[3], "randomize");
displayValue(4, runtime[4], "matrix_algb");
displayValue(5, runtime[5], "arr_sort");
displayValue(6, runtime[6], "displ_txt");
displayValue(7, runtime[7], "graphics");
}
static public void main(String[] args)
{
long time0;
int x, y;
float s;
int i;
LCD.clear();
LCD.drawString("hw brickbench", 0, 1);
LCD.drawString("(C)H.Wunder 2013", 0, 2);
LCD.drawString("initializing...", 0, 4);
for (y = 0; y < 500; ++y)
{
a[y] = randM() % 30000;
b[y] = randM() % 30000;
c[y] = randM() % 30000;
}
LCD.clear();
time0 = System.currentTimeMillis();
s = test_Int_Add();
runtime[0] = System.currentTimeMillis() - time0;
displayValue(0, runtime[0], "int_Add ");
System.out.println("int_Add " + runtime[0]);
time0 = System.currentTimeMillis();
s = test_Int_Mult();
runtime[1] = System.currentTimeMillis() - time0;
displayValue(1, runtime[1], "int_Mult");
System.out.println("int_Mult " + runtime[1]);
time0 = System.currentTimeMillis();
s = test_float_math();
runtime[2] = System.currentTimeMillis() - time0;
displayValue(2, runtime[2], "float_op");
System.out.println("float_op " + runtime[2]);
time0 = System.currentTimeMillis();
s = test_rand_MT();
runtime[3] = System.currentTimeMillis() - time0;
displayValue(3, runtime[3], "randomize");
System.out.println("randomize " + runtime[3]);
time0 = System.currentTimeMillis();
s = test_matrix_math();
runtime[4] = System.currentTimeMillis() - time0;
displayValue(4, runtime[4], "matrix_algb");
System.out.println("matrx_algb " + runtime[4]);
time0 = System.currentTimeMillis();
s = test_Sort();
runtime[5] = System.currentTimeMillis() - time0;
displayValue(5, runtime[5], "arr_sort");
System.out.println("arr_sort " + runtime[5]);
time0 = System.currentTimeMillis();
s = test_TextOut();
runtime[6] = System.currentTimeMillis() - time0;
System.out.println("text " + runtime[6]);
LCD.clear();
displayValues();
time0 = System.currentTimeMillis();
s = test_graphics();
runtime[7] = System.currentTimeMillis() - time0;
System.out.println("graphics " + runtime[7]);
LCD.clear();
displayValues();
Button.waitForAnyPress();
LCD.clear();
y = 0;
for (x = 0; x < 8; ++x)
{
y += runtime[x];
}
LCD.drawString("Total ms: " + y, 0, 0);
LCD.drawString("Benchmark: " + (50000000 / y), 0, 1);
System.out.println("total ms: " + y);
System.out.println("benchmark: " + 50000000 / y);
Button.waitForAnyPress();
LCD.clear();
}
}
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