Work with subfactors of factors.

Framework

- Accelerate

Work with subfactors of factors.

Framework

- Accelerate

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X** *in place on a dense matrix of double-precision values.

`Sparse`Multiply

Performs the multiply operation *Y** **= Subfactor * X* in place on a dense matrix of single-precision values.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* on a dense matrix of double-precision values.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* on a dense matrix of single-precision values.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* in place on a dense matrix of double-precision values, without any internal memory allocations.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* in place on a dense matrix of single-precision values, without any internal memory allocations.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* on a dense matrix of double-precision values, without any internal memory allocations.

`Sparse`Multiply

Performs the multiply operation *Y** = Subfactor * X* on a dense matrix of single-precision values, without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the matrix of double-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the matrix of single-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the matrix of double-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the matrix of single-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the matrix of double-precision values *X* without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the matrix of single-precision values *X* without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the matrix of double-precision values *X* without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the matrix of single-precision values *X* without any internal memory allocations.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* in place on a vector of double-precision values.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* in place on a vector of single-precision values.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* on a vector of double-precision values.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * **X* on a vector of single-precision values.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* on a vector of double-precision values *X*, in place and without any internal memory allocations.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* on a vector of single-precision values *X*, in place and without any internal memory allocations.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X *on a vector of double-precision values *X*, without any internal memory allocations.

`Sparse`Multiply

Perform the multiply operation *Y = Subfactor * X* on a vector of double-precision values *X*, without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the vector of double-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the vector of single-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the vector of double-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* in place for the vector of single-precision values *X*.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the vector of double-precision values *X*, in place and without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the vector of single-precision values *X*, in place and without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the vector of double-precision values *X*, without any internal memory allocations.

`Sparse`Solve

Solves the equation *Subfactor * X = B* for the vector of single-precision values *X*, without any internal memory allocations.

`Sparse`OpaqueSubfactor_Double

A structure representing the factorization of a matrix of double-precision, floating-point values.

`Sparse`OpaqueSubfactor_Float

A structure representing the factorization of a matrix of single-precision, floating-point values.

`Sparse`Subfactor_t

Defines the subfactor of a factorization.

Subfactor Extraction

Extract subfactors of factors.