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Normalization

Perform vector normalization along rows, columns, or specified dimension

Library

Math Functions / Math Operations

dspmathops

  • Normalization block

Description

The Normalization block independently normalizes each row, column, or vector of the specified dimension of the input. The block accepts both fixed- and floating-point signals in the squared 2-norm mode, but only floating-point signals in the 2-norm mode. The output always has the same dimensions as the input.

This block treats an arbitrarily dimensioned input U as a collection of vectors oriented along the specified dimension. The block normalizes these vectors by either their norm or the square of their norm.

For example, consider a 3-dimensional input U(i,j,k) and assume that you want to normalize along the second dimension. First, define the 2-dimensional intermediate quantity V(i,k) such that each element of V is the norm of one of the vectors in U:

V(i,k)=(j=1JU2(i,j,k))1/2

Given V, the output of the block Y(i, j,k) in 2-norm mode is

Y(i,j,k)=U(i,j,k)V(i,k)+b

In squared 2-norm mode, the block output is

Y(i,j,k)=U(i,j,k)V(i,k)2+b

The normalization bias, b, is typically chosen to be a small positive constant (for example, 1e-10) that prevents potential division by zero.

Fixed-Point Data Types

The following diagram shows the data types used within the Normalization block for fixed-point signals (squared 2-norm mode only).

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. You can set the accumulator, product output, and output data types in the block dialog as discussed in Parameters.

Examples

See Zero Algorithmic Delay in the DSP System Toolbox™ User's Guide for an example.

Parameters

Main Tab

Norm

Specify the type of normalization to perform, 2-norm or Squared 2-norm. 2-norm mode supports floating-point signals only. Squared 2-norm supports both fixed-point and floating-point signals.

Normalization bias

Specify the real value b to be added in the denominator to avoid division by zero. Tunable (Simulink).

Normalize over

Specify whether to normalize along rows, columns, or the dimension specified in the Dimension parameter.

Dimension

Specify the one-based value of the dimension over which to normalize. The value of this parameter cannot exceed the number of dimensions in the input signal. This parameter is only visible if Specified dimension is selected for the Normalize over parameter.

Data Types Tab

Note

The parameters on this pane are only applicable to fixed-point signals when the block is in squared 2-norm mode. See Fixed-Point Data Types for a diagram of how the product output, accumulator, and output data types are used in this case.

Rounding mode

Specify the rounding mode for fixed-point operations as one of the following:

  • Floor

  • Ceiling

  • Convergent

  • Nearest

  • Round

  • Simplest

  • Zero

For more details, see rounding mode.

Saturate on integer overflow

When you select this parameter, the block saturates the result of its fixed-point operation. When you clear this parameter, the block wraps the result of its fixed-point operation. For details on saturate and wrap, see overflow mode for fixed-point operations.

Product output

Specify the product output data type. See Fixed-Point Data Types and Multiplication Data Types for illustrations depicting the use of the product output data type in this block. You can set it to:

  • A rule that inherits a data type, for example, Inherit: Same as input

  • An expression that evaluates to a valid data type, for example, fixdt([],16,0)

Click the Show data type assistant button to display the Data Type Assistant, which helps you set the Product output parameter.

See Specify Data Types Using Data Type Assistant (Simulink) for more information.

Accumulator

Specify the accumulator data type. See Fixed-Point Data Types for illustrations depicting the use of the accumulator data type in this block. You can set this parameter to:

  • A rule that inherits a data type, for example, Inherit: Same as product output

  • A rule that inherits a data type, for example, Inherit: Same as input

  • An expression that evaluates to a valid data type, for example, fixdt([],16,0)

Click the Show data type assistant button to display the Data Type Assistant, which helps you set the Accumulator parameter.

See Specify Data Types Using Data Type Assistant (Simulink) for more information.

Output

Specify the output data type. See Fixed-Point Data Types for illustrations depicting the use of the output data type in this block. You can set it to:

  • A rule that inherits a data type, for example, Inherit: Same as product output

  • A rule that inherits a data type, for example, Inherit: Same as input

  • A rule that inherits a data type, for example, Inherit: Same as accumulator

  • An expression that evaluates to a valid data type, for example, fixdt([],16,0)

Click the Show data type assistant button to display the Data Type Assistant, which helps you set the Output parameter.

See Control Data Types of Signals (Simulink) for more information.

Output Minimum

Specify the minimum value that the block should output. The default value is [] (unspecified). Simulink® software uses this value to perform:

  • Simulation range checking (see Specify Signal Ranges (Simulink))

  • Automatic scaling of fixed-point data types

Output Maximum

Specify the maximum value that the block should output. The default value is [] (unspecified). Simulink software uses this value to perform:

  • Simulation range checking (see Specify Signal Ranges (Simulink))

  • Automatic scaling of fixed-point data types

Lock data type settings against changes by the fixed-point tools

Select this parameter to prevent the fixed-point tools from overriding the data types you specify on the block mask.

Product Output Data Type Assistant Parameters

Mode

Select how you would like to specify the data type properties of the Product output data type. You can choose:

  • Inherit — Lets you specify a rule for inheriting a data type, for example, Inherit: Inherit via internal rule

  • Fixed point — Lets you specify the fixed-point attributes of the data type.

  • Expression — Lets you specify an expression that evaluates to a valid data type, for example, fixdt([],16,0)

Signedness

Specify the Signedness for the Product output data type.

Scaling

Specify the Scaling for the Product output data type.

For more information see Scaling in the DSP System Toolbox User's Guide.

Word length

Specify the Word length for the Product output data type.

Fraction length

Specify the Fraction length for the Product output data type.

Data type override

Specify the data type override mode. You can select one of the following options:

  • Inherit — Inherits the data type override setting specified for the model.

  • Off — Ignores the data type override setting specified for the model and uses the fixed-point data type you specify

This parameter appears only when you set the Mode parameter to Built in or Fixed Point. For more information, see Specify Data Types Using Data Type Assistant (Simulink).

Accumulator Data Type Assistant Parameters

Mode

Select how you would like to specify the data type properties of the Accumulator data type. You can choose:

  • Inherit — Lets you specify a rule for inheriting a data type, for example, Inherit: Inherit via internal rule

  • Fixed point — Lets you specify the fixed-point attributes of the data type.

  • Expression — Lets you specify an expression that evaluates to a valid data type, for example, fixdt([],16,0)

Signedness

Specify the Signedness for the Accumulator data type.

Scaling

Specify the Scaling for the Accumulator data type.

For more information see Scaling in the DSP System Toolbox User's Guide.

Word length

Specify the Word length for the Accumulator data type.

Fraction length

Specify the Fraction length for the Accumulator data type.

Data type override

Specify the data type override mode. You can select one of the following options:

  • Inherit — Inherits the data type override setting specified for the model.

  • Off — Ignores the data type override setting specified for the model and uses the fixed-point data type you specify

This parameter appears only when you set the Mode parameter to Built in or Fixed Point. For more information, see Specify Data Types Using Data Type Assistant (Simulink).

Output Data Type Assistant Parameters

Mode

Select how you would like to specify the data type properties of the Output data type. You can choose:

  • Inherit — Lets you specify a rule for inheriting a data type, for example, Inherit: Inherit via internal rule

  • Fixed point — Lets you specify the fixed-point attributes of the data type.

  • Expression — Lets you specify an expression that evaluates to a valid data type, for example, fixdt([],16,0)

Signedness

Specify the Signedness for the Output data type.

Scaling

Specify the Scaling for the Output data type.

For more information see Scaling in the DSP System Toolbox User's Guide.

Word length

Specify the Word length for the Output data type.

Fraction length

Specify the Fraction length for the Output data type.

Data type override

Specify the data type override mode. You can select one of the following options:

  • Inherit — Inherits the data type override setting specified for the model.

  • Off — Ignores the data type override setting specified for the model and uses the fixed-point data type you specify

This parameter appears only when you set the Mode parameter to Built in or Fixed Point. For more information, see Specify Data Types Using Data Type Assistant (Simulink).

Supported Data Types

PortSupported Data Types

Input

  • Double-precision floating point

  • Single-precision floating point

  • Fixed point (signed and unsigned)

  • 8-, 16-, and 32-bit signed integers

  • 8-, 16-, and 32-bit unsigned integers

Output

  • Double-precision floating point

  • Single-precision floating point

  • Fixed point (signed and unsigned)

  • 8-, 16-, and 32-bit signed integers

  • 8-, 16-, and 32-bit unsigned integers

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Fixed-Point Conversion
Design and simulate fixed-point systems using Fixed-Point Designer™.

Version History

Introduced before R2006a