| Package | Description |
|---|---|
| ej.numeric | |
| ej.numeric.linear | |
| ej.numeric.signal |
| Modifier and Type | Method and Description |
|---|---|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloat scalar)
Add a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix matrix)
Add a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the addition of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current (sub) matrix be the result of the addition of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloat scalar)
In place add a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix matrix)
In place add a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayDiv(ComplexFloatMatrix matrix)
Element-wise divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayDivi(ComplexFloatMatrix matrix)
In place element-wise divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayMul(ComplexFloatMatrix matrix)
Element-wise multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayMuli(ComplexFloatMatrix matrix)
In place element-wise multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayTranspose()
Transpose.
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayTransposei()
Transpose in place.
|
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix v)
Create a diagonal matrix with vector v on the main diagonal
|
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix v,
int k)
Create a diagonal matrix with vector v on the diagonal k
|
ComplexFloatMatrix |
ComplexFloatMatrix.diag(int k)
Return the k-th diagonal of the matrix.
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloat scalar)
Divide by a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix matrix)
Divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the division of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloat scalar)
In place divide by a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix matrix)
In place divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.duplicate(ComplexFloatMatrix A)
Copy the data of a matrix to the current matrix.
|
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloat scalar)
Element-wise equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloatMatrix matrix)
Element-wise equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloat scalar)
In place element-wise equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix matrix)
In place element-wise equals between matrices elements
|
static ComplexFloatMatrix |
ComplexFloatMatrix.eye(int dim)
Create a square identity matrix
|
static ComplexFloatMatrix |
ComplexFloatMatrix.eye(int rows,
int cols)
Create an identity matrix with the given dimensions
|
ComplexFloatMatrix |
ComplexFloatMatrix.ge(ComplexFloat scalar)
Element-wise greater or equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.ge(ComplexFloatMatrix matrix)
Element-wise greater or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.gei(ComplexFloat scalar)
In place element-wise greater or equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.gei(ComplexFloatMatrix matrix)
In place element-wise greater or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(Range range)
Get a vector of the elements at the given linear index range
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(Range rowsRange,
Range colsRange)
Get a matrix of the elements at the given index ranges
|
ComplexFloatMatrix |
ComplexFloatMatrix.getColumn(int column)
Get a vector of the elements at the given column
|
ComplexFloatMatrix |
ComplexFloatMatrix.getRow(int row)
Get a vector of the elements at the given row
|
ComplexFloatMatrix |
ComplexFloatMatrix.gt(ComplexFloat scalar)
Element-wise greater than between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.gt(ComplexFloatMatrix matrix)
Element-wise greater than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.gti(ComplexFloat scalar)
In place element-wise greater than between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.gti(ComplexFloatMatrix matrix)
In place element-wise greater than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.le(ComplexFloat scalar)
Element-wise lower or equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.le(ComplexFloatMatrix matrix)
Element-wise lower or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lei(ComplexFloat scalar)
In place element-wise lower or equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.lei(ComplexFloatMatrix matrix)
In place element-wise lower or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lt(ComplexFloat scalar)
Element-wise lower than between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.lt(ComplexFloatMatrix matrix)
Element-wise lower than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lti(ComplexFloat scalar)
In place element-wise lower than between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.lti(ComplexFloatMatrix matrix)
In place element-wise lower than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.max(ComplexFloat scalar)
Element-wise maximum between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.max(ComplexFloatMatrix matrix)
Element-wise maximum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.maxi(ComplexFloat scalar)
In place element-wise maximum between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.maxi(ComplexFloatMatrix matrix)
In place element-wise maximum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.min(ComplexFloat scalar)
Element-wise minimum between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.min(ComplexFloatMatrix matrix)
Element-wise minimum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mini(ComplexFloat scalar)
In place element-wise minimum between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.mini(ComplexFloatMatrix matrix)
In place element-wise minimum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloat scalar)
Multiply by a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix matrix)
Multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the multiplication of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int colsRows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current matrix be the result of the multiplication of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloat scalar)
In place multiply by a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix matrix)
In place multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloat scalar)
Element-wise not-equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloatMatrix matrix)
Element-wise not-equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloat scalar)
In place element-wise not-equals between matrix elements and a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix matrix)
In place element-wise not-equals between matrices elements
|
static ComplexFloatMatrix |
ComplexFloatMatrix.ones(int dim)
Create a square matrix filled with ones
|
static ComplexFloatMatrix |
ComplexFloatMatrix.ones(int rows,
int cols)
Create a matrix filled with ones with the given dimensions
|
static ComplexFloatMatrix |
ComplexFloatMatrix.rand(int dim)
Create a square matrix filled with random elements uniformly distributed ont the interval (0, 1)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.rand(int rows,
int cols)
Create a matrix filled with random elements uniformly distributed on the interval (0, 1)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.randn(int dim)
Create a square matrix filled with random elements normally distributed on the interval (0, 1)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.randn(int dim,
ComplexFloat realMean,
ComplexFloat realStandardDeviation,
ComplexFloat imaginaryMean,
ComplexFloat imaginaryStandardDeviation)
Create a square matrix filled with random elements normally distributed on the interval [minInterval, maxInterval]
|
static ComplexFloatMatrix |
ComplexFloatMatrix.randn(int rows,
int cols)
Create a matrix filled with random elements normally distributed on the interval (0, 1)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.randn(int rows,
int cols,
ComplexFloat realMean,
ComplexFloat realStandardDeviation,
ComplexFloat imaginaryMean,
ComplexFloat imaginaryStandardDeviation)
Create a matrix filled with random elements normally distributed on the interval [minInterval, maxInterval]
|
static ComplexFloatMatrix |
ComplexFloatMatrix.repmat(ComplexFloat scalar,
int rows,
int cols)
Create a matrix of dimensions rows by columns containing the given scalar
|
static ComplexFloatMatrix |
ComplexFloatMatrix.repmat(ComplexFloatMatrix matrix,
int rows,
int cols)
Create a matrix containing rows by columns replications of the given matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.resize(int rows,
int columns)
Resize the matrix whith the given dimensions.
|
ComplexFloatMatrix |
ComplexFloatMatrix.resizei(int rows,
int columns)
In-place resize the matrix whith the given dimensions.
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloat scalar)
Subtract a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix matrix)
Subtract a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the subtraction of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current (sub) matrix be the result of the subtraction of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloat scalar)
In place subtract a scalar
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix matrix)
In place subtract a matrix
|
ComplexFloatMatrix |
Matrix.toComplexFloatMatrix()
Convert the current matrix to ComplexFloatMatrix
|
ComplexFloatMatrix |
FloatMatrix.toComplexFloatMatrix()
Convert the current matrix to ComplexFloatMatrix
|
ComplexFloatMatrix |
DoubleMatrix.toComplexFloatMatrix()
Convert the current matrix to ComplexFloatMatrix
|
ComplexFloatMatrix |
ComplexDoubleMatrix.toComplexFloatMatrix()
Convert the current matrix to ComplexFloatMatrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.toComplexFloatMatrix()
Convert the current matrix to ComplexFloatMatrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.transpose()
Transpose.
|
ComplexFloatMatrix |
ComplexFloatMatrix.transpose(ComplexFloatMatrix matrix)
Transpose a matrix and store the result into the current matrix.
|
ComplexFloatMatrix |
ComplexFloatMatrix.transposei()
Transpose in place.
|
static ComplexFloatMatrix |
ComplexFloatMatrix.zeros(int dim)
Create a square matrix filled with zeros
|
static ComplexFloatMatrix |
ComplexFloatMatrix.zeros(int rows,
int cols)
Create a matrix filled with zeros with the given dimensions
|
| Modifier and Type | Method and Description |
|---|---|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix matrix)
Add a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the addition of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current (sub) matrix be the result of the addition of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix matrix)
In place add a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayDiv(ComplexFloatMatrix matrix)
Element-wise divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayDivi(ComplexFloatMatrix matrix)
In place element-wise divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayMul(ComplexFloatMatrix matrix)
Element-wise multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.arrayMuli(ComplexFloatMatrix matrix)
In place element-wise multiply by a matrix
|
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix v)
Create a diagonal matrix with vector v on the main diagonal
|
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix v,
int k)
Create a diagonal matrix with vector v on the diagonal k
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix matrix)
Divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the division of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix matrix)
In place divide by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.duplicate(ComplexFloatMatrix A)
Copy the data of a matrix to the current matrix.
|
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloatMatrix matrix)
Element-wise equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix matrix)
In place element-wise equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.ge(ComplexFloatMatrix matrix)
Element-wise greater or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.gei(ComplexFloatMatrix matrix)
In place element-wise greater or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.gt(ComplexFloatMatrix matrix)
Element-wise greater than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.gti(ComplexFloatMatrix matrix)
In place element-wise greater than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.le(ComplexFloatMatrix matrix)
Element-wise lower or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lei(ComplexFloatMatrix matrix)
In place element-wise lower or equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lt(ComplexFloatMatrix matrix)
Element-wise lower than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.lti(ComplexFloatMatrix matrix)
In place element-wise lower than between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.max(ComplexFloatMatrix matrix)
Element-wise maximum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.maxi(ComplexFloatMatrix matrix)
In place element-wise maximum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.min(ComplexFloatMatrix matrix)
Element-wise minimum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mini(ComplexFloatMatrix matrix)
In place element-wise minimum between matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix matrix)
Multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the multiplication of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int colsRows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current matrix be the result of the multiplication of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix matrix)
In place multiply by a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloatMatrix matrix)
Element-wise not-equals between matrices elements
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix matrix)
In place element-wise not-equals between matrices elements
|
static ComplexFloatMatrix |
ComplexFloatMatrix.repmat(ComplexFloatMatrix matrix,
int rows,
int cols)
Create a matrix containing rows by columns replications of the given matrix
|
void |
ComplexFloatMatrix.setColumn(int column,
ComplexFloatMatrix vector)
Set the elements at the given column
|
void |
ComplexFloatMatrix.setRow(int row,
ComplexFloatMatrix vector)
Set the elements at the given row
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix matrix)
Subtract a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Make the current matrix be the result of the subtraction of two matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix A,
ComplexFloatMatrix B,
int rows,
int cols,
int RrowStart,
int RcolStart,
int ArowStart,
int AcolStart,
int BrowStart,
int BcolStart)
Make the current (sub) matrix be the result of the subtraction of two sub matrices
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix matrix)
In place subtract a matrix
|
ComplexFloatMatrix |
ComplexFloatMatrix.transpose(ComplexFloatMatrix matrix)
Transpose a matrix and store the result into the current matrix.
|
| Modifier and Type | Method and Description |
|---|---|
static ComplexFloatMatrix |
Eigen.eigenvalues(ComplexFloatMatrix A)
Computes the eigenvalues of a square matrix.
|
static ComplexFloatMatrix |
Eigen.eigenvalues(FloatMatrix A)
Computes the eigenvalues of a square matrix.
|
static ComplexFloatMatrix |
Factorization.getInverse(ComplexFloatMatrix matrix)
Returns the inverse of the
ComplexFloatMatrix or
null if the determinant cannot be calculated. |
static ComplexFloatMatrix |
Factorization.getInverse(ComplexFloatMatrix toInverse,
ComplexFloatMatrix result)
Gets the inverse of
toInverse, places it in result
and returns result. |
static ComplexFloatMatrix |
Factorization.hessenberg(ComplexFloatMatrix matrix)
The Hessenberg decomposition is `p * h * p' = a' where `p'
is a square unitary matrix (`p' * p = I', using complex-conjugate
transposition) and `h' is upper Hessenberg (`i >= j+1 => h (i, j) = 0').
|
static ComplexFloatMatrix[] |
Factorization.lu(ComplexFloatMatrix A)
Produce two matrices L and U such that A = L*U, with U upper triangular and L a general matrix without any particular structure.
|
static ComplexFloatMatrix[] |
Factorization.lup(ComplexFloatMatrix A)
Produce three matrices L, U and P such that L*U = P*A, with U
upper triangular and P*L lower triangular for a permutation matrix P.
|
static ComplexFloatMatrix |
Solve.solve(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Solve the linear equation A*X = B.
|
| Modifier and Type | Method and Description |
|---|---|
static ComplexFloatMatrix |
Eigen.eigenvalues(ComplexFloatMatrix A)
Computes the eigenvalues of a square matrix.
|
static ComplexFloat |
Factorization.getDeterminant(ComplexFloatMatrix matrix)
Returns the determinant of the
ComplexFloatMatrix. |
static ComplexFloatMatrix |
Factorization.getInverse(ComplexFloatMatrix matrix)
Returns the inverse of the
ComplexFloatMatrix or
null if the determinant cannot be calculated. |
static ComplexFloatMatrix |
Factorization.getInverse(ComplexFloatMatrix toInverse,
ComplexFloatMatrix result)
Gets the inverse of
toInverse, places it in result
and returns result. |
static ComplexFloatMatrix |
Factorization.hessenberg(ComplexFloatMatrix matrix)
The Hessenberg decomposition is `p * h * p' = a' where `p'
is a square unitary matrix (`p' * p = I', using complex-conjugate
transposition) and `h' is upper Hessenberg (`i >= j+1 => h (i, j) = 0').
|
static ComplexFloatMatrix[] |
Factorization.lu(ComplexFloatMatrix A)
Produce two matrices L and U such that A = L*U, with U upper triangular and L a general matrix without any particular structure.
|
static ComplexFloatMatrix[] |
Factorization.lup(ComplexFloatMatrix A)
Produce three matrices L, U and P such that L*U = P*A, with U
upper triangular and P*L lower triangular for a permutation matrix P.
|
static ComplexFloatMatrix |
Solve.solve(ComplexFloatMatrix A,
ComplexFloatMatrix B)
Solve the linear equation A*X = B.
|
| Modifier and Type | Method and Description |
|---|---|
static ComplexFloatMatrix |
Transforms.fft(ComplexFloatMatrix X)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.fft(ComplexFloatMatrix X,
ComplexFloatMatrix R)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.fft(FloatMatrix X)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.fft(FloatMatrix X,
ComplexFloatMatrix R)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.ifft(ComplexFloatMatrix X)
Inverse fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.ifft(ComplexFloatMatrix X,
ComplexFloatMatrix R)
Inverse fast Fourier transform
|
| Modifier and Type | Method and Description |
|---|---|
static ComplexFloatMatrix |
Transforms.fft(ComplexFloatMatrix X)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.fft(ComplexFloatMatrix X,
ComplexFloatMatrix R)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.fft(FloatMatrix X,
ComplexFloatMatrix R)
Fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.ifft(ComplexFloatMatrix X)
Inverse fast Fourier transform
|
static ComplexFloatMatrix |
Transforms.ifft(ComplexFloatMatrix X,
ComplexFloatMatrix R)
Inverse fast Fourier transform
|