Package org.ejml.dense.row.decomposition.qr

Class QrHelperFunctions_FDRM

java.lang.Object
org.ejml.dense.row.decomposition.qr.QrHelperFunctions_FDRM
@Generated("org.ejml.dense.row.decomposition.qr.QrHelperFunctions_DDRM") public class QrHelperFunctions_FDRM extends Object

Contains different functions that are useful for computing the QR decomposition of a matrix.

Two different families of functions are provided for help in computing reflectors. Internally both of these functions switch between normalization by division or multiplication. Multiplication is most often significantly faster than division (2 or 3 times) but produces less accurate results on very small numbers. It checks to see if round off error is significant and decides which one it should do.

Tests were done using the stability benchmark in jmatbench and there doesn't seem to be any advantage to always dividing by the max instead of checking and deciding. The most noticeable difference between the two methods is with very small numbers.

  • Constructor Summary

    Constructors
    Constructor
    Description
    QrHelperFunctions_FDRM()
     

  • Method Summary

    Modifier and Type
    Method
    Description
    static float
    computeTauAndDivide(int j, int numRows, float[] u, float max)
    Normalizes elements in 'u' by dividing by max and computes the norm2 of the normalized array u.
    static float
    computeTauAndDivide(int j, int numRows, float[] u, int startU, float max)
     
    static void
    divideElements(int j, int numRows, float[] u, float u_0)
     
    static void
    divideElements(int j, int numRows, float[] u, int startU, float u_0)
     
    static void
    divideElements_Bcol(int j, int numRows, int numCols, float[] u, float[] b, int startB, float u_0)
     
    static void
    divideElements_Brow(int j, int numRows, float[] u, float[] b, int startB, float u_0)
     
    static float
    findMax(float[] u, int startU, int length)
     
    static void
    rank1UpdateMultL(FMatrixRMaj A, float[] u, float gamma, int colA0, int w0, int w1)
    Performs a rank-1 update operation on the submatrix specified by w with the multiply on the left.

    A = A(I - γ*u*uT)
    static void
    rank1UpdateMultR(FMatrixRMaj A, float[] u, float gamma, int colA0, int w0, int w1, float[] _temp)
    Performs a rank-1 update operation on the submatrix specified by w with the multiply on the right.

    A = (I - γ*u*uT)*A
    static void
    rank1UpdateMultR(FMatrixRMaj A, float[] u, int offsetU, float gamma, int colA0, int w0, int w1, float[] _temp)
     
    static void
    rank1UpdateMultR_u0(FMatrixRMaj A, float[] u, float u_0, float gamma, int colA0, int w0, int w1, float[] _temp)
     

    Methods inherited from class java.lang.Object

    clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

  • Constructor Details

    • QrHelperFunctions_FDRM

      public QrHelperFunctions_FDRM()

  • Method Details

    • findMax

      public static float findMax(float[] u, int startU, int length)

    • divideElements

      public static void divideElements(int j, int numRows, float[] u, float u_0)

    • divideElements

      public static void divideElements(int j, int numRows, float[] u, int startU, float u_0)

    • divideElements_Brow

      public static void divideElements_Brow(int j, int numRows, float[] u, float[] b, int startB, float u_0)

    • divideElements_Bcol

      public static void divideElements_Bcol(int j, int numRows, int numCols, float[] u, float[] b, int startB, float u_0)

    • computeTauAndDivide

      public static float computeTauAndDivide(int j, int numRows, float[] u, int startU, float max)

    • computeTauAndDivide

      public static float computeTauAndDivide(int j, int numRows, float[] u, float max)
      Normalizes elements in 'u' by dividing by max and computes the norm2 of the normalized array u. Adjust the sign of the returned value depending on the size of the first element in 'u'. Normalization is done to avoid overflow. 
       for i=j:numRows
   u[i] = u[i] / max
   tau = tau + u[i]*u[i]
 end
 tau = sqrt(tau)
 if( u[j] < 0 )
    tau = -tau;
      Parameters:
      j - Element in 'u' that it starts at.
      numRows - Element in 'u' that it stops at.
      u - Array
      max - Max value in 'u' that is used to normalize it.
      Returns:
      norm2 of 'u'

    • rank1UpdateMultR

      public static void rank1UpdateMultR(FMatrixRMaj A, float[] u, float gamma, int colA0, int w0, int w1, float[] _temp)

      Performs a rank-1 update operation on the submatrix specified by w with the multiply on the right.

      A = (I - γ*u*uT)*A

      The order that matrix multiplies are performed has been carefully selected to minimize the number of operations.

      Before this can become a truly generic operation the submatrix specification needs to be made more generic.

    • rank1UpdateMultR_u0

      public static void rank1UpdateMultR_u0(FMatrixRMaj A, float[] u, float u_0, float gamma, int colA0, int w0, int w1, float[] _temp)

    • rank1UpdateMultR

      public static void rank1UpdateMultR(FMatrixRMaj A, float[] u, int offsetU, float gamma, int colA0, int w0, int w1, float[] _temp)

    • rank1UpdateMultL

      public static void rank1UpdateMultL(FMatrixRMaj A, float[] u, float gamma, int colA0, int w0, int w1)

      Performs a rank-1 update operation on the submatrix specified by w with the multiply on the left.

      A = A(I - γ*u*uT)

      The order that matrix multiplies are performed has been carefully selected to minimize the number of operations.

      Before this can become a truly generic operation the submatrix specification needs to be made more generic.