Forward Substitution
Solve LX = B for X when L is lower triangular matrix
Libraries:
DSP System Toolbox /
Math Functions /
Matrices and Linear Algebra /
Linear System Solvers
Description
The Forward Substitution block solves the linear system LX = B by simple forward substitution of variables, where:
L is the lower triangular MbyM matrix input to the L port.
B is the MbyN matrix input to the B port.
X is the MbyN output matrix and is the solution of the system of equations.
The block does not check the rank of the inputs. The block only uses the elements in the lower triangle of input L and ignores the upper elements. When you select Input L is unitlower triangular, the block assumes the elements on the diagonal of L are 1s. This is useful when matrix L is the result of another operation, such as an LDL decomposition, that uses the diagonal elements to represent the D matrix.
Examples
Ports
Input
L — Input lower triangular matrix
MbyM matrix
Specify the input lower triangular MbyM matrix L through this port. Inputs L and B must have the same number of rows.
When the input L is fixedpoint, it is signed only.
Data Types: single
 double
 int8
 int16
 int32
 fixed point
Complex Number Support: Yes
B — B matrix
MbyN matrix  Mby1 vector
Specify the B matrix in the LX = B equation as an MbyN matrix or a Mby1 vector.
When you specify an Mby1 vector, the block treats the lengthM vector input at port B as an Mby1 matrix. Inputs L and B must have the same number of rows.
When the input B is fixedpoint, it is signed only.
Data Types: single
 double
 int8
 int16
 int32
 fixed point
Complex Number Support: Yes
Output
X — Solution of system of equations
MbyN matrix  Mby1 matrix
The block returns the output as an MbyN matrix or an Mby1 matrix. The size of X matrix is same as the size of the B matrix.
When the inputs are fixedpoint, the output matrix X is signed only fixedpoint.
Data Types: single
 double
 int8
 int16
 int32
 fixed point
Complex Number Support: Yes
Parameters
Main Tab
Input L is unitlower triangular — Diagonal elements of input matrix have a value of 1
off
(default)  on
Select this check box only when all elements on the diagonal of
L have a value of 1
. When you
do so, the block optimizes its behavior by skipping an unnecessary
division operation.
Do not select this check box if any elements on the diagonal of L do
not have a value of 1
. When you clear the
Input L is unitlower triangular check box, the
block always performs the division operation.
Diagonal of complex input L is real — Diagonal elements of complex input are real
off
(default)  on
Select to optimize simulation speed when the diagonal elements of complex input L are real.
Note
When L is a complex fixedpoint signal, you must select either Input L is unitlower triangular or Diagonal of complex input L is real. In these cases, the block ignores any imaginary part of the diagonal of L.
Dependencies
This parameter is visible only when Input L is unitupper triangular is not selected.
Data Types Tab
Note
Floatingpoint inheritance takes precedence over the data type settings defined on this pane. When inputs are floating point, the block ignores these settings, and all internal data types are floating point.
Rounding mode — Method of rounding operation
Floor
(default)  Ceiling
 Convergent
 Nearest
 Round
 Simplest
 Zero
Specify the rounding mode for fixedpoint operations as one of the following:
Floor
Ceiling
Convergent
Nearest
Round
Simplest
Zero
For more details, see rounding mode.
Saturate on integer overflow — Method of overflow action
off (default)  on
When you select this parameter, the block saturates the result of its
fixedpoint operation. When you clear this parameter, the block wraps
the result of its fixedpoint operation. For details on
saturate
and wrap
, see overflow
mode for fixedpoint operations.
Product output — Product output data type
Inherit: Inherit via internal
rule
(default)  Inherit: Same as first input
 fixdt(1,16,0)
Product output specifies the data type of the output of a product operation in the Backward Substitution block. For more information on the product output data type, see Fixed Point and Multiplication Data Types.
Inherit: Inherit via internal rule
— The block inherits the product output data type based on an internal rule. For more information on this rule, see Inherit via Internal Rule.Inherit: Same as first input
— The block specifies the product output data type to be the same as the first input data type.fixdt(1,16,0)
— The block specifies a signed, binarypoint, scaled, fixedpoint data type with a word length of 16 bits and a fraction length of 0.
Alternatively, you can set the Product output data type by using the Data Type Assistant. To use the assistant, click the Show data type assistant button .
For more information on the data type assistant, see Specify Data Types Using Data Type Assistant (Simulink).
Accumulator — Accumulator data type
Inherit: Inherit via internal
rule
(default)  Inherit: Same as product output
 Inherit: Same as first input
 fixdt(1,16,0)
Accumulator specifies the data type of the output of an accumulation operation in the Backward Substitution block. For illustrations on how to use the accumulator data type in this block, see the Fixed Point section.
Inherit: Inherit via internal rule
— The block inherits the accumulator data type based on an internal rule. For more information on this rule, see Inherit via Internal Rule.Inherit: Same as product output
— The block specifies the accumulator data type to be the same as the product output data type.Inherit: Same as first input
— The block specifies the accumulator data type to be the same as the first input data type.fixdt(1,16,0)
— The block specifies a signed, binarypoint scaled, fixedpoint data type with a word length of 16 bits and a fraction length of 0.
Alternatively, you can set the Accumulator data type by using the Data Type Assistant. To use the assistant, click the Show data type assistant button .
For more information on the data type assistant, see Specify Data Types Using Data Type Assistant (Simulink).
Output — Output data type
Inherit: Same as first
input
(default)  fixdt(1,16,0)
Output specifies the data type of the output of the Backward Substitution block. For more information on the output data type, see the Fixed Point section.
Inherit: Same as first input
— The block specifies the output data type to be the same as the first input data type.fixdt(1,16,0)
— The block specifies a signed, binarypoint scaled, fixedpoint data type with a word length of 16 bits and a fraction length of 0.
Alternatively, you can set the Output data type by using the Data Type Assistant. To use the assistant, click the Show data type assistant button.
For more information on the data type assistant, see Specify Data Types Using Data Type Assistant (Simulink).
Output Minimum — Minimum value the block can output
[]
(default)  scalar
Specify the minimum value the block can output. Simulink^{®} software uses this minimum value to perform:
Simulation range checking. See Specify Signal Ranges (Simulink).
Automatic scaling of fixedpoint data types.
Output Maximum — Maximum value block can output
[]
(default)  scalar
Specify the maximum value the block can output. Simulink software uses this maximum value to perform:
Simulation range checking. See Specify Signal Ranges (Simulink).
Automatic scaling of fixedpoint data types.
Lock data type settings against changes by the fixedpoint tools — Prevent fixedpoint tools from overriding data types
off
(default)  on
Select this parameter to prevent the fixedpoint tools from overriding the data types you specify in the block dialog box.
Block Characteristics
Data Types 

Direct Feedthrough 

Multidimensional Signals 

VariableSize Signals 

ZeroCrossing Detection 

Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.
Generated code relies on the memcpy
or
memset
function (string.h
) under certain
conditions.
FixedPoint Conversion
Design and simulate fixedpoint systems using FixedPoint Designer™.
If the input is fixed point, it must be a signed integer or a signed fixed point value with a poweroftwo slope and zero bias.
The following diagrams show the data types used within the Forward Substitution block for fixedpoint signals.
You can set the product output, accumulator, and output data types in the block dialog box.
The output of the multiplier is in the product output data type when the input is real. When the input is complex, the result of the multiplication is in the accumulator data type. For details on the complex multiplication performed, see Multiplication Data Types.
Version History
Introduced before R2006a
See Also
Blocks
Topics
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