gtsam/timing/timeMatrix.cpp

/* ----------------------------------------------------------------------------

 * GTSAM Copyright 2010, Georgia Tech Research Corporation,
 * Atlanta, Georgia 30332-0415
 * All Rights Reserved
 * Authors: Frank Dellaert, et al. (see THANKS for the full author list)

 * See LICENSE for the license information

 * -------------------------------------------------------------------------- */

/*
 * @file timeMatrix.cpp
 * @brief Performs timing and profiling for Matrix operations
 * @author Alex Cunningham
 */

#include <iostream>
#include <gtsam/base/timing.h>
#include <gtsam/base/Matrix.h>

using namespace std;
using namespace gtsam;

/*
 * Results:
 * Alex's Machine:
 * (using p = 100000 m = 10 n = 12 reps = 50) - Average times
 *  - (1st pass of simple changes) no pass: 0.184  sec , pass: 0.181 sec
 *  - (1st rev memcpy)             no pass: 0.181  sec , pass: 0.180 sec
 *  - (1st rev matrix_range)       no pass: 0.186  sec , pass: 0.184 sec
 * (using p = 10 m = 10 n = 12 reps = 10000000)
 *  - (matrix_range version)       no pass: 24.21  sec , pass: 23.97 sec
 *  - (memcpy version)             no pass: 18.96  sec , pass: 18.39 sec
 *  - (original version)           no pass: 23.45  sec , pass: 22.80 sec
 *  - rev 2100                     no pass: 18.45  sec , pass: 18.35 sec
 */
double timeCollect(size_t p, size_t m, size_t n, bool passDims, size_t reps) {
  // create a large number of matrices
  // p =  number of matrices
  // m =  rows per matrix
  // n =  columns per matrix
  // reps = number of repetitions

  // fill the matrices with identities
  vector<const Matrix *> matrices;
  for (size_t i=0; i<p;++i) {
    Matrix * M = new Matrix;
    (*M) = Matrix::Identity(m,n);
    matrices.push_back(M);
  }

  // start timing
  Matrix result;
  double elapsed;
  {
    gttic_(elapsed);

    if (passDims)
      for (size_t i=0; i<reps; ++i)
        result = collect(matrices, m, n);
    else
      for (size_t i=0; i<reps; ++i)
        result = collect(matrices);

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }
  // delete the matrices
  for (size_t i=0; i<p;++i) {
    delete matrices[i];
  }

  return elapsed;
  //return elapsed/reps;
}

/*
 * Results:
 * Alex's Machine:
 *  - Original : 0.60 sec (x1000)
 *  - 1st Rev  : 0.49 sec (x1000)
 *  - rev 2100 : 0.52 sec (x1000)
 */
double timeVScaleColumn(size_t m, size_t n, size_t reps) {
  // make a matrix to scale
  Matrix M(m, n);
  for (size_t i=0; i<m; ++i)
    for (size_t j=0; j<n; ++j)
      M(i,j) = 2*i+j;

  // make a vector to use for scaling
  Vector V(m);
  for (size_t i=0; i<m; ++i)
    V(i) = i*2;

  double elapsed;
  Matrix result;
  {
    gttic_(elapsed);

    for (size_t i=0; i<reps; ++i)
      Matrix result = vector_scale(M,V);

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }

  return elapsed;
}

/*
 * Results:
 * Alex's Machine:
 *  - Original : 0.54 sec (x1000)
 *  - 1st rev  : 0.44 sec (x1000)
 *  - rev 2100 : 1.69 sec (x1000)
 */
double timeVScaleRow(size_t m, size_t n, size_t reps) {
  // make a matrix to scale
  Matrix M(m, n);
  for (size_t i=0; i<m; ++i)
    for (size_t j=0; j<n; ++j)
      M(i,j) = 2*i+j;

  // make a vector to use for scaling
  Vector V(n);
  for (size_t i=0; i<n; ++i)
    V(i) = i*2;

  double elapsed;
  Matrix result;
  {
    gttic_(elapsed);

    for (size_t i=0; i<reps; ++i)
      result = vector_scale(V,M);

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }

  return elapsed;
}

/**
 * Results:
 * Alex's Machine (reps = 200000)
 *  - ublas matrix_column  : 4.63 sec
 *  - naive implementation : 4.70 sec
 *
 * reps = 2000000
 *  - rev 2100             : 45.11 sec
 */
double timeColumn(size_t reps) {
  // create a matrix
  size_t m = 100; size_t n = 100;
  Matrix M(m, n);
  for (size_t i=0; i<m; ++i)
      for (size_t j=0; j<n; ++j)
        M(i,j) = 2*i+j;

  // extract a column
  double elapsed;
  Vector result;
  {
    gttic_(elapsed);

    for (size_t i=0; i<reps; ++i)
      for (size_t j = 0; j<n; ++j)
        //result = ublas::matrix_column<Matrix>(M, j);
        result = column(M, j);

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }
  return elapsed;
}

/*
 * Results
 * Alex's machine
 *
 * Runs at reps = 500000
 * Baseline (no householder, just matrix copy) : 0.05 sec
 * Initial                                     : 8.20 sec
 * All in one function                         : 7.89 sec
 * Replace householder update with GSL, ATLAS  : 0.92 sec
 *
 * Runs at reps = 2000000
 * Baseline (GSL/ATLAS householder update)     : 3.61 sec
 *
 * Runs at reps = 5000000
 * Baseline                                    : 8.76 sec
 * GSL/Atlas version of updateAb               : 9.03 sec // Why does this have an effect?
 * Inlining house()                            : 6.33 sec
 * Inlining householder_update [GSL]           : 6.15 sec
 * Rev 2100                                    : 5.75 sec
 *
 */
double timeHouseholder(size_t reps) {
  // create a matrix
  Matrix Abase = (Matrix(4, 7) <<
      -5,  0, 5, 0,  0,  0,  -1,
      00, -5, 0, 5,  0,  0, 1.5,
      10,  0, 0, 0,-10,  0,   2,
      00, 10, 0, 0,  0,-10,  -1).finished();

  // perform timing
  double elapsed;
  {
    gttic_(elapsed);

    for (size_t i=0; i<reps; ++i) {
      Matrix A = Abase;
      householder_(A,3);
    }

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }
  return elapsed;
}
/**
 * Results: (Alex's machine)
 * reps: 200000
 *
 * Initial (boost matrix proxies) - 12.08
 * Direct pointer method          - 4.62
 */
double timeMatrixInsert(size_t reps) {
  // create a matrix
  Matrix bigBase = Matrix::Zero(100, 100);
  Matrix small = Matrix::Identity(5,5);

  // perform timing
  double elapsed;
  {
    gttic_(elapsed);

    Matrix big = bigBase;
    for (size_t rep=0; rep<reps; ++rep)
      for (size_t i=0; i<100; i += 5)
        for (size_t j=0; j<100; j += 5)
          insertSub(big, small, i,j);

    gttoc_(elapsed);
    tictoc_getNode(elapsedNode, elapsed);
    elapsed = elapsedNode->secs();
    tictoc_reset_();
  }
  return elapsed;
}

int main(int argc, char ** argv) {

  // Time collect()
  cout << "Starting Matrix::collect() Timing" << endl;
  //size_t p = 100000; size_t m = 10; size_t n = 12; size_t reps = 50;
  size_t p = 10; size_t m = 10; size_t n = 12; size_t reps = 10000000;
  double collect_time1 = timeCollect(p, m, n, false, reps);
  double collect_time2 = timeCollect(p, m, n, true, reps);
  cout << "Average Elapsed time for collect (no pass) [" << p << " (" << m << ", " << n << ") matrices] : " << collect_time1 << endl;
  cout << "Average Elapsed time for collect (pass)    [" << p << " (" << m << ", " << n << ") matrices] : " << collect_time2 << endl;

  // Time vector_scale_column
  cout << "Starting Matrix::vector_scale(column) Timing" << endl;
  size_t m1 = 400; size_t n1 = 480; size_t reps1 = 1000;
  double vsColumn_time = timeVScaleColumn(m1, n1, reps1);
  cout << "Elapsed time for vector_scale(column) [(" << m1 << ", " << n1 << ") matrix] : " << vsColumn_time << endl;

  // Time vector_scale_row
  cout << "Starting Matrix::vector_scale(row)    Timing" << endl;
  double vsRow_time = timeVScaleRow(m1, n1, reps1);
  cout << "Elapsed time for vector_scale(row)    [(" << m1 << ", " << n1 << ") matrix] : " << vsRow_time << endl;

  // Time column() NOTE: using the ublas version
  cout << "Starting column() Timing" << endl;
  size_t reps2 = 2000000;
  double column_time = timeColumn(reps2);
  cout << "Time: " << column_time << " sec" << endl;

  // Time householder_ function
  cout << "Starting householder_() Timing" << endl;
  size_t reps_house = 5000000;
  double house_time = timeHouseholder(reps_house);
  cout << "Elapsed time for householder_() : " << house_time << " sec" << endl;

  // Time matrix insertion
  cout << "Starting insertSub() Timing" << endl;
  size_t reps_insert = 200000;
  double insert_time = timeMatrixInsert(reps_insert);
  cout << "Elapsed time for insertSub() : " << insert_time << " sec" << endl;

  return 0;
}
prepend license information on all the codes 2010-10-14 12:54:38 +08:00			`/* ----------------------------------------------------------------------------`

remove trailing spaces 2019-02-11 22:39:48 +08:00			`* GTSAM Copyright 2010, Georgia Tech Research Corporation,`
prepend license information on all the codes 2010-10-14 12:54:38 +08:00			`* Atlanta, Georgia 30332-0415`
			`* All Rights Reserved`
			`* Authors: Frank Dellaert, et al. (see THANKS for the full author list)`

			`* See LICENSE for the license information`

			`* -------------------------------------------------------------------------- */`

Added timeMatrix.cpp to test specific matrix operations 2010-01-20 04:59:22 +08:00			`/*`
			`* @file timeMatrix.cpp`
			`* @brief Performs timing and profiling for Matrix operations`
			`* @author Alex Cunningham`
			`*/`

			`#include <iostream>`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`#include <gtsam/base/timing.h>`
Installing headers in subdirectories and converted include directives to match the subdirectory structure (also see email to frankcvs) 2010-08-20 01:23:19 +08:00			`#include <gtsam/base/Matrix.h>`
Added timeMatrix.cpp to test specific matrix operations 2010-01-20 04:59:22 +08:00
			`using namespace std;`
			`using namespace gtsam;`

Small optimizations on Matrix::collect(), additional timing capabilities, and now collect() can have dimensions specified to avoid need for lookup. 2010-01-20 05:49:22 +08:00			`/*`
			`* Results:`
			`* Alex's Machine:`
Checked Matrix::collect() with different timing metric, and memcpy has approx 25% speedup over original version. Matrix_range is slower or the same speed as the original version. 2010-01-20 21:45:22 +08:00			`* (using p = 100000 m = 10 n = 12 reps = 50) - Average times`
Tried noalias() for collect(), but no real improvement 2010-01-20 11:25:55 +08:00			`* - (1st pass of simple changes) no pass: 0.184 sec , pass: 0.181 sec`
			`* - (1st rev memcpy) no pass: 0.181 sec , pass: 0.180 sec`
			`* - (1st rev matrix_range) no pass: 0.186 sec , pass: 0.184 sec`
Checked Matrix::collect() with different timing metric, and memcpy has approx 25% speedup over original version. Matrix_range is slower or the same speed as the original version. 2010-01-20 21:45:22 +08:00			`* (using p = 10 m = 10 n = 12 reps = 10000000)`
			`* - (matrix_range version) no pass: 24.21 sec , pass: 23.97 sec`
			`* - (memcpy version) no pass: 18.96 sec , pass: 18.39 sec`
			`* - (original version) no pass: 23.45 sec , pass: 22.80 sec`
Added updated timing results. 2010-01-27 13:08:54 +08:00			`* - rev 2100 no pass: 18.45 sec , pass: 18.35 sec`
Small optimizations on Matrix::collect(), additional timing capabilities, and now collect() can have dimensions specified to avoid need for lookup. 2010-01-20 05:49:22 +08:00			`*/`
			`double timeCollect(size_t p, size_t m, size_t n, bool passDims, size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// create a large number of matrices`
			`// p = number of matrices`
			`// m = rows per matrix`
			`// n = columns per matrix`
			`// reps = number of repetitions`

			`// fill the matrices with identities`
			`vector<const Matrix *> matrices;`
			`for (size_t i=0; i<p;++i) {`
			`Matrix * M = new Matrix;`
Deprecated all inline functions in Matrix.h. 2016-04-12 03:11:29 +08:00			`(*M) = Matrix::Identity(m,n);`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`matrices.push_back(M);`
			`}`

			`// start timing`
			`Matrix result;`
			`double elapsed;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00
			`if (passDims)`
			`for (size_t i=0; i<reps; ++i)`
			`result = collect(matrices, m, n);`
			`else`
			`for (size_t i=0; i<reps; ++i)`
			`result = collect(matrices);`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`
			`// delete the matrices`
			`for (size_t i=0; i<p;++i) {`
			`delete matrices[i];`
			`}`

			`return elapsed;`
			`//return elapsed/reps;`
Small optimizations on Matrix::collect(), additional timing capabilities, and now collect() can have dimensions specified to avoid need for lookup. 2010-01-20 05:49:22 +08:00			`}`

Added vector_scale timing benchmarks 2010-01-20 09:05:40 +08:00			`/*`
			`* Results:`
			`* Alex's Machine:`
Added updated timing results. 2010-01-27 13:08:54 +08:00			`* - Original : 0.60 sec (x1000)`
			`* - 1st Rev : 0.49 sec (x1000)`
			`* - rev 2100 : 0.52 sec (x1000)`
Added vector_scale timing benchmarks 2010-01-20 09:05:40 +08:00			`*/`
			`double timeVScaleColumn(size_t m, size_t n, size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// make a matrix to scale`
			`Matrix M(m, n);`
			`for (size_t i=0; i<m; ++i)`
			`for (size_t j=0; j<n; ++j)`
			`M(i,j) = 2*i+j;`

			`// make a vector to use for scaling`
			`Vector V(m);`
			`for (size_t i=0; i<m; ++i)`
			`V(i) = i*2;`

			`double elapsed;`
			`Matrix result;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`for (size_t i=0; i<reps; ++i)`
			`Matrix result = vector_scale(M,V);`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`

			`return elapsed;`
Added vector_scale timing benchmarks 2010-01-20 09:05:40 +08:00			`}`

			`/*`
			`* Results:`
			`* Alex's Machine:`
Added updated timing results. 2010-01-27 13:08:54 +08:00			`* - Original : 0.54 sec (x1000)`
			`* - 1st rev : 0.44 sec (x1000)`
			`* - rev 2100 : 1.69 sec (x1000)`
Added vector_scale timing benchmarks 2010-01-20 09:05:40 +08:00			`*/`
			`double timeVScaleRow(size_t m, size_t n, size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// make a matrix to scale`
			`Matrix M(m, n);`
			`for (size_t i=0; i<m; ++i)`
			`for (size_t j=0; j<n; ++j)`
			`M(i,j) = 2*i+j;`

			`// make a vector to use for scaling`
			`Vector V(n);`
			`for (size_t i=0; i<n; ++i)`
			`V(i) = i*2;`

			`double elapsed;`
			`Matrix result;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`for (size_t i=0; i<reps; ++i)`
			`result = vector_scale(V,M);`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`

			`return elapsed;`
Added vector_scale timing benchmarks 2010-01-20 09:05:40 +08:00			`}`

Changed the interface on Matrix::column() so that it uses the one in our library (now called column_() ) rather than the boost default. Currently, our implementation just uses the boost default, but this may change due to timing results. 2010-01-21 00:08:14 +08:00			`/**`
			`* Results:`
Improved performance of updateAb in NoiseModel with GSL/ATLAS. Various other small optimizations were made. 2010-01-22 02:51:59 +08:00			`* Alex's Machine (reps = 200000)`
Changed the interface on Matrix::column() so that it uses the one in our library (now called column_() ) rather than the boost default. Currently, our implementation just uses the boost default, but this may change due to timing results. 2010-01-21 00:08:14 +08:00			`* - ublas matrix_column : 4.63 sec`
			`* - naive implementation : 4.70 sec`
Improved performance of updateAb in NoiseModel with GSL/ATLAS. Various other small optimizations were made. 2010-01-22 02:51:59 +08:00			`*`
			`* reps = 2000000`
Added updated timing results. 2010-01-27 13:08:54 +08:00			`* - rev 2100 : 45.11 sec`
Changed the interface on Matrix::column() so that it uses the one in our library (now called column_() ) rather than the boost default. Currently, our implementation just uses the boost default, but this may change due to timing results. 2010-01-21 00:08:14 +08:00			`*/`
			`double timeColumn(size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// create a matrix`
			`size_t m = 100; size_t n = 100;`
			`Matrix M(m, n);`
			`for (size_t i=0; i<m; ++i)`
			`for (size_t j=0; j<n; ++j)`
			`M(i,j) = 2*i+j;`

			`// extract a column`
			`double elapsed;`
			`Vector result;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`for (size_t i=0; i<reps; ++i)`
			`for (size_t j = 0; j<n; ++j)`
			`//result = ublas::matrix_column<Matrix>(M, j);`
			`result = column(M, j);`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`
			`return elapsed;`
Changed the interface on Matrix::column() so that it uses the one in our library (now called column_() ) rather than the boost default. Currently, our implementation just uses the boost default, but this may change due to timing results. 2010-01-21 00:08:14 +08:00			`}`

Added timing script for Matrix::householder_() 2010-01-21 02:52:31 +08:00			`/*`
			`* Results`
			`* Alex's machine`
Improved performance of updateAb in NoiseModel with GSL/ATLAS. Various other small optimizations were made. 2010-01-22 02:51:59 +08:00			`*`
			`* Runs at reps = 500000`
Added timing script for Matrix::householder_() 2010-01-21 02:52:31 +08:00			`* Baseline (no householder, just matrix copy) : 0.05 sec`
			`* Initial : 8.20 sec`
Reimplemented matrix::householder_update using GSL and BLAS, you'll need to edit Makefile.am to enable the new version -- see email 2010-01-21 08:59:33 +08:00			`* All in one function : 7.89 sec`
			`* Replace householder update with GSL, ATLAS : 0.92 sec`
Improved performance of updateAb in NoiseModel with GSL/ATLAS. Various other small optimizations were made. 2010-01-22 02:51:59 +08:00			`*`
			`* Runs at reps = 2000000`
			`* Baseline (GSL/ATLAS householder update) : 3.61 sec`
			`*`
			`* Runs at reps = 5000000`
			`* Baseline : 8.76 sec`
			`* GSL/Atlas version of updateAb : 9.03 sec // Why does this have an effect?`
			`* Inlining house() : 6.33 sec`
			`* Inlining householder_update [GSL] : 6.15 sec`
Added updated timing results. 2010-01-27 13:08:54 +08:00			`* Rev 2100 : 5.75 sec`
Improved performance of updateAb in NoiseModel with GSL/ATLAS. Various other small optimizations were made. 2010-01-22 02:51:59 +08:00			`*`
Added timing script for Matrix::householder_() 2010-01-21 02:52:31 +08:00			`*/`
			`double timeHouseholder(size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// create a matrix`
Building timing scripts using new timing script support in GtsamTesting.cmake. Fixed compile errors in timing scripts but disabled a couple. 2014-06-08 10:02:11 +08:00			`Matrix Abase = (Matrix(4, 7) <<`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`-5, 0, 5, 0, 0, 0, -1,`
			`00, -5, 0, 5, 0, 0, 1.5,`
			`10, 0, 0, 0,-10, 0, 2,`
Updated all comma initializer usages to use .finished() 2014-11-23 08:35:27 +08:00			`00, 10, 0, 0, 0,-10, -1).finished();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00
			`// perform timing`
			`double elapsed;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`for (size_t i=0; i<reps; ++i) {`
			`Matrix A = Abase;`
			`householder_(A,3);`
			`}`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`
			`return elapsed;`
Added timing script for Matrix::householder_() 2010-01-21 02:52:31 +08:00			`}`
Added in-place insertion functions to Matrix, as well as a #define flag to enable or disable GSL code without a reconfigure. 2010-02-01 01:21:07 +08:00			`/**`
			`* Results: (Alex's machine)`
			`* reps: 200000`
			`*`
			`* Initial (boost matrix proxies) - 12.08`
			`* Direct pointer method - 4.62`
			`*/`
			`double timeMatrixInsert(size_t reps) {`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// create a matrix`
Deprecated all inline functions in Matrix.h. 2016-04-12 03:11:29 +08:00			`Matrix bigBase = Matrix::Zero(100, 100);`
			`Matrix small = Matrix::Identity(5,5);`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00
			`// perform timing`
			`double elapsed;`
			`{`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00			`gttic_(elapsed);`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`Matrix big = bigBase;`
			`for (size_t rep=0; rep<reps; ++rep)`
			`for (size_t i=0; i<100; i += 5)`
			`for (size_t j=0; j<100; j += 5)`
			`insertSub(big, small, i,j);`
update timing to use internal timing.h api 2020-05-10 09:29:08 +08:00
			`gttoc_(elapsed);`
			`tictoc_getNode(elapsedNode, elapsed);`
			`elapsed = elapsedNode->secs();`
			`tictoc_reset_();`
changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`}`
			`return elapsed;`
Added in-place insertion functions to Matrix, as well as a #define flag to enable or disable GSL code without a reconfigure. 2010-02-01 01:21:07 +08:00			`}`
Added timing script for Matrix::householder_() 2010-01-21 02:52:31 +08:00
Small optimizations on Matrix::collect(), additional timing capabilities, and now collect() can have dimensions specified to avoid need for lookup. 2010-01-20 05:49:22 +08:00			`int main(int argc, char ** argv) {`

changed tabs to spaces for consistent indentation in all of GTSAM 2012-10-02 22:40:07 +08:00			`// Time collect()`
			`cout << "Starting Matrix::collect() Timing" << endl;`
			`//size_t p = 100000; size_t m = 10; size_t n = 12; size_t reps = 50;`
			`size_t p = 10; size_t m = 10; size_t n = 12; size_t reps = 10000000;`
			`double collect_time1 = timeCollect(p, m, n, false, reps);`
			`double collect_time2 = timeCollect(p, m, n, true, reps);`
			`cout << "Average Elapsed time for collect (no pass) [" << p << " (" << m << ", " << n << ") matrices] : " << collect_time1 << endl;`
			`cout << "Average Elapsed time for collect (pass) [" << p << " (" << m << ", " << n << ") matrices] : " << collect_time2 << endl;`

			`// Time vector_scale_column`
			`cout << "Starting Matrix::vector_scale(column) Timing" << endl;`
			`size_t m1 = 400; size_t n1 = 480; size_t reps1 = 1000;`
			`double vsColumn_time = timeVScaleColumn(m1, n1, reps1);`
			`cout << "Elapsed time for vector_scale(column) [(" << m1 << ", " << n1 << ") matrix] : " << vsColumn_time << endl;`

			`// Time vector_scale_row`
			`cout << "Starting Matrix::vector_scale(row) Timing" << endl;`
			`double vsRow_time = timeVScaleRow(m1, n1, reps1);`
			`cout << "Elapsed time for vector_scale(row) [(" << m1 << ", " << n1 << ") matrix] : " << vsRow_time << endl;`

			`// Time column() NOTE: using the ublas version`
			`cout << "Starting column() Timing" << endl;`
			`size_t reps2 = 2000000;`
			`double column_time = timeColumn(reps2);`
			`cout << "Time: " << column_time << " sec" << endl;`

			`// Time householder_ function`
			`cout << "Starting householder_() Timing" << endl;`
			`size_t reps_house = 5000000;`
			`double house_time = timeHouseholder(reps_house);`
			`cout << "Elapsed time for householder_() : " << house_time << " sec" << endl;`

			`// Time matrix insertion`
			`cout << "Starting insertSub() Timing" << endl;`
			`size_t reps_insert = 200000;`
			`double insert_time = timeMatrixInsert(reps_insert);`
			`cout << "Elapsed time for insertSub() : " << insert_time << " sec" << endl;`

			`return 0;`
Added timeMatrix.cpp to test specific matrix operations 2010-01-20 04:59:22 +08:00			`}`