DSP Blockset: Index

architectures, filter. See filter realizations

arithmetic, matrix

arrays

exporting matrix data to <1> <2> <3>

importing matrix data from <1> <2>

three-dimensional

attenuation, stopband

audio

exporting <1> <2> <3>

importing <1> <2>

autocorrelation

and Levinson-Durbin recursion

of a real vector

sequence

Autocorrelation block

using Burg AR Estimator block

autocorrelation method

auto-promoting rates

autoregressive models

using Burg Method block

using the Covariance AR Estimator block

using the Covariance Method block

using the Modified Covariance AR Estimator block

using the Modified Covariance Method block

using the Yule-Walker AR Estimator block

using the Yule-Walker Method block

B

Backward Substitution block

band configurations

See filter band configurations

Band edge frequencies parameter

length of <1> <2>

See also parameters

bandpass filter designs

analog, available parameters

digital, available parameters

example of

analog, available parameters

bandstop filter designs

digital, available parameters

Bartlett windows <1> <2>

basic operations <1> <2>

batch processing

binary clock signals

bins, histogram

Biquadratic Filter block

Blackman windows <1> <2>

block diagrams, creating

blocks

Boxcar windows <1> <2>

Buffer block <1> <2> <3> <4> <5>

and initial zeros

frame period of

initial state of <1> <2> <3> <4> <5>

Buffered FFT Scope block <1> <2>

Buffer overlap parameter <1> <2> <3> <4> <5> <6>

negative values for

Buffer size parameter <1> <2> <3> <4>

buffering <1> <2> <3>

frame-based signals. See rebuffering

initial state

internally

into a FIFO (first input, first output) register

into a LIFO (last input, first output) register

order of elements

overlapping <1> <2>

scalar samples

to create a frame-based signal <1> <2> <3>

with alteration of the signal <1> <2>

with Buffer block

with preservation of the signal

with Queue block

with Rebuffer block <1> <2>

with Shift Register block

with Stack block

with Triggered Shift Register block

Buffers library <1> <2>

Burg AR Estimator block

Burg Method block

butter <1> <2>

Butterworth filter designs

See also filter designs, Butterworth

C

C code, generating

canonical forms <1> <2>

central tendency, blocks for

channels

of a sample-based signal

cheby1 <1> <2>

cheby2 <1> <2>

Chebyshev approximation

Chebyshev filter designs

See also filter designs

Chebyshev type I filter designs

Chebyshev type II filter designs

Chebyshev windows <1> <2>

Chirp block

Cholesky Factorization block

Cholesky Solver block

clocks

binary

multiphase

code generation

and contiguous memory

generic real-time (GRT)

minimizing size of

using RTW <1> <2>

color coding sample periods

column vectors

as frame vectors

columns, of a frame-matrix

Commutator block

compared to Unbuffer block

Complex Exponential block

complex analytic signal

Complex Cepstrum block

Complex From Workspace block

compound filters

Constant Diagonal Matrix block

constants

generating

invariant (non-tunable)

Contiguous Copy block

contiguous memory

See filter designs, continuous-time

list of blocks requiring

continuous-time filter designs

continuous-time source blocks

control signals

for Sample and Hold block

for Triggered Matrix To Workspace block

for Triggered Shift Register block

for Triggered Signal From Workspace block

for Triggered Signal To Workspace block

controller canonical forms

conventions

Convert Complex DSP To Simulink block

Convert Complex Simulink To DSP block

converting

frame rates. See rate conversion

sample rates. See rate conversion

convolution

correlation

Covariance AR Estimator block

Covariance Method block

Create Diagonal Matrix block

cutoff frequencies

D

dB block

dB Gain block

dB, converting to

DC component of an analytic signal

DCTs

decimation

using FIR Decimation block

using FIR Rate Conversion block

Decimation factor parameter

decomposing matrices

default settings, Simulink

delay

detecting events, blocks for

buffering

fractional <1> <2>

generating <1> <2> <3>

integer

rebuffering <1> <2> <3>

demos

Detrend block

diagonal matrix constants

dialog boxes, opening

Difference block

difference, between elements in a vector

differentiator filter designs

band configuration of

digital filter designs <1> <2>

Digital FIR Filter Design block <1> <2> <3>

digital frequency

Digital IIR Filter Design block <1> <2> <3> <4>

dimensions of a matrix. See matrices

direct feedthrough

and Histogram block

and Integer Delay block <1> <2>

and Shift Register block

and Triggered Shift Register block

and Variable Fractional Delay block

and Variable Integer Delay block

Direct-Form II Transpose Filter block

and discrete-time filter designs

and filter

as used by Digital FIR Filter Design block <1> <2>

as used by Least Squares FIR Filter Design block

initial conditions for

Discrete Constant block

discrete cosine transforms. See DCTs

Discrete Filter block

discrete sample time, defined

discrete-time filter designs

See filter designs, discrete-time

discrete-time nonsource blocks

discrete-time signals

discrete-time source blocks

discretizing a continuous-time signal

displaying

frequency content <1> <2>

frame-based data <1> <2> <3>

matrices as images

distributing samples

Distributor block

compared to Buffer block

Signal Processing Toolbox

doc

documentation

MATLAB

Real-Time Workshop

Simulink

Downsample block <1> <2> <3>

downsampling <1> <2> <3>

DSP Sinks library <1> <2> <3>

DSP Blockset

DSP Sources library <1> <2> <3>

dsp_links

dsplib <1> <2> <3>

dspstartup M-file <1> <2> <3>

editing

t (sample period)

Dyadic Analysis Filter Bank block <1> <2>

dyadic analysis, blocks for

Dyadic Synthesis Filter Bank block <1> <2>

dyadic synthesis, blocks for

E

Edge Detector block

Elementary Functions library <1> <2>

and element-oriented blocks

element-oriented operations

on matrix inputs

See also operations, element-oriented

ellip <1> <2>

elliptic filter designs

See also filter designs, elliptic

equiripple filter designs <1> <2>

frequency response of

error minimization <1> <2>

errors

discrete-time source block

due to continuous-time input to a discrete-time block <1> <2>

due to direct feedthrough of Integer Delay block

due to incompatible matrix-size parameter settings

due to insufficient audio buffer size

due to matrix inputs to scalar-oriented blocks

incompatible matrix-size parameter settings

partial unbuffering

sample-rate mismatch

estimation

nonparametric <1> <2>

parametric

using Burg AR Estimator block

using Burg Method block

using Covariance AR Estimator block

using Covariance Method block

using Modified Covariance AR Estimator block

using Modified Covariance Method block

using Yule-Walker AR Estimator block

using Yule-Walker Method block

Estimation library <1> <2>

Event-Count Comparator block

events, triggering

for Counter block

for N-Sample Enable block

for N-Sample Switch block

for Sample and Hold block

for Stack block <1> <2>

for Triggered Matrix To Workspace

for Triggered Shift Register block

for Triggered Signal From Workspace block

for Triggered Signal To Workspace block

examples

using Signal To Workspace block

using Triggered Signal To Workspace block

vectors

Extract Diagonal block

Extract Triangular Matrix block

F

f (frequency)

factorizing matrices, blocks for

features of DSP Blockset

FFT block

FFT length parameter <1> <2>

FFT Scope block <1> <2>

FFTs

and overlap-add filtering

and overlap-save filtering

See first-input, first-output registers

computing

displaying

FIFO registers

filter architectures. See filter realizations <1> <2>

filter band configurations

bandpass <1> <2>

bandstop <1> <2>

highpass <1> <2>

lowpass <1> <2>

multiband

adaptive. See adaptive filter designs

table of

filter designs

analog. See filter designs, continuous-time

and frame-based processing

Butterworth

using butter <1> <2>

categories of

characteristics of

Chebyshev type I

using cheby1 <1> <2>

Chebyshev type II

example of

using cheby2 <1> <2>

continuous-time <1> <2> <3>

available parameters

differentiator <1> <2>

digital. See filter designs, discrete-time

discrete-time <1> <2> <3>

magnitude response of <1> <2>

FIR

passband ripple for

stopband attenuation for

elliptic

arbitrary magnitude response

using ellip <1> <2>

FIR

block for

discrete-time

Remez

using fir1

using least-squares technique

using Parks-McClellan technique

Hilbert transformer <1> <2>

IIR <1> <2>

continuous-time

discrete-time

using Yule-Walker IIR Filter Design block

least-squares, example of

linear phase <1> <2>

table of

with multichannel signals

working with

Filter Designs library <1> <2>

filter orders

and Digital FIR Filter Design block

and Digital IIR Filter Design block

Filter Realization Wizard

filter realizations

transposed direct-form II IIR <1> <2>

canonical forms <1> <2>

lattice

using Filter Realization Wizard

Filter Realizations library <1> <2>

Filter type parameter

filtering

adaptive. See adaptive filter designs

by overlap-add method

by overlap-save method

using Direct-Form II Transpose Filter block <1> <2>

using Time-Varying Lattice Filter block

Filtering library <1> <2>

FIR Decimation block <1> <2>

FIR filter designs

algorithm for

discrete-time <1> <2>

equiripple

least-squares <1> <2>

linear phase

using Parks-McClellan technique

See also filter designs, FIR

FIR Interpolation block <1> <2>

FIR Rate Conversion block <1> <2>

First output index parameter <1> <2> <3>

fir1 <1> <2>

firls <1> <2>

first-input, first-output (FIFO) registers

fixed-step solvers <1> <2>

Flip block

f_n (normalized frequency)

f_n0 (normalized cutoff frequency)

f_n1 (normalized lower cutoff frequency)

f_n2 (normalized upper cutoff frequency)

Forward Substitution block

frame periods

altered by buffering

altered by partial unbuffering

altered by rebuffering

altered by unbuffering

constant <1> <2>

converting. See rate conversion

inspecting, using the Simulink Probe block

frame rates

frame sizes

constant <1> <2>

converting

by direct rate conversion

by rebuffering <1> <2>

to maintain constant frame rate <1> <2>

to maintain constant sample rate <1> <2>

Frame-based inputs parameter <1> <2> <3> <4>

of Buffer block

frame-based processing

changing frame size <1> <2>

converting to sample-based signals

creating from sample-based signals

as column vectors <1> <2>

unbuffering

partial

to sample-based signals

frame-matrices <1> <2>

frames

as matrix columns <1> <2>

changing size of

creating

displaying frequency content of

importing

unbuffering to scalars <1> <2>

zero-padding

frame-vectors

as column vectors

as matrix columns <1> <2>

frequencies

normalized <1> <2> <3>

frequency distributions <1> <2>

of Yule-Walker IIR Filter Design block

computing

Frequency Frame Scope block <1> <2> <3> <4> <5>

frequency response

equiripple

specifying

example of

See also magnitude response

Frequency Vector Scope block

From Wave Device block

From Wave File block

F_s (sample frequency or rate)

General DSP library <1> <2>

functions, utility

dsp_links

dsplib

dspstartup <1> <2> <3>

rebuffer_delay

startup

startupsav

G

gain, applying in dB

generalized-cosine windows

generated code

and contiguous memory

generic real-time (GRT)

size of

H

Hamming windows <1> <2>

Hanning windows <1> <2>

Help Desk facility, accessing

help, accessing <1> <2>

helpdesk

highpass filter designs

Hilbert transformer filter designs <1> <2>

band configuration of

Histogram block <1> <2>

histograms, computing

Hz (Hertz)

I

IFFTs

IIR filter designs

discrete-time <1> <2> <3>

using Yule-Walker IIR Filter Design block

See also filter designs, IIR

images, displaying matrices as

vectors <1> <2> <3> <4>

Index menu option

inf parameter setting <1> <2>

info

Inherit Complexity block

inheriting sample periods

Initial condition parameter <1> <2> <3>

Inline Parameters check box

input frame periods

input frame sizes. See frame sizes

input periods. See frame periods

input sample periods. See sample periods

installing the DSP Blockset

Integer Delay block

initial conditions for <1> <2>

interpolating <1> <2>

InvariantConstants parameter

inverse discrete cosine transforms. See IDCTs

K

Kaiser windows <1> <2>

Kalman Adaptive Filter block

L

Last output index parameter <1> <2> <3>

last-input, first-output (LIFO) registers

latency

due to frame-based processing

in To Wave Device block

lattice filters

LDL Factorization block

LDL Solver block

least mean-square algorithm

Least Squares FIR Filter Design block <1> <2> <3> <4> <5>

algorithm

and firls

least-squares technique

length of a vector

displaying link information

See also frame sizes

Levinson Solver block

libraries

Adaptive Filters <1> <2>

Buffers <1> <2>

Demos <1> <2>

DSP Sinks <1> <2> <3>

DSP Sources <1> <2> <3>

Elementary Functions <1> <2>

Estimation <1> <2>

Filter Designs <1> <2>

Filter Realizations <1> <2>

Filtering <1> <2>

General DSP <1> <2>

Linear Algebra <1> <2>

listed

Math Functions <1> <2>

Matrix Functions <1> <2>

Multirate Filters <1> <2>

opening

Parametric Estimation <1> <2>

Power Spectrum Estimation <1> <2>

Signal Operations <1> <2>

Simulink <1> <2>

Statistics <1> <2> <3>

structure

Switches and Counters <1> <2>

See last-input, first-output registers

Transforms <1> <2>

true

Vector Functions <1> <2>

Library Browser, using

LIFO registers

line widths

Linear Algebra library <1> <2>

linear phase FIR filters

linear prediction, using LPC block

LMS Adaptive Filter block

LMS algorithm

loop-rolling

lowpass filter designs

M (frame size). See frame sizes

LPC block

LU Factorization block

LU Solver block

M

Magnitude FFT block

magnitude response

arbitrary <1> <2> <3> <4>

equiripple <1> <2>

multiband <1> <2> <3> <4>

of Butterworth filters <1> <2>

of Chebyshev type I filters <1> <2>

of Chebyshev type II filters <1> <2>

of elliptic filters <1> <2>

of Yule-Walker IIR Filter Design block

magnitudes

of frequency response

Magnitudes parameter

length of <1> <2>

Math Functions library <1> <2>

math operations, blocks for

MATLAB

Demos window <1> <2>

matrices

arithmetic, blocks for

as input to element-oriented blocks

columns as frames <1> <2>

dimensions

displaying

using Matrix To Workspace block

using Signal To Workspace block

using Triggered Matrix To Workspace block

factoring, blocks for

See also frame-matrices

generated by buffering

identity

importing <1> <2> <3> <4>

multiplying

number of channels in

operations on

overview

permuting, blocks for

rebuffering

resizing

rows as sample-vectors

sample-based <1> <2> <3> <4>

processing

See also sample-matrices

scaling, blocks for

selecting elements of

Toeplitz

tracking dimensions of

transposing

with element-oriented blocks

treated as vectors <1> <2> <3> <4> <5> <6>

with scalar-oriented blocks

with vector-oriented blocks

Matrix 1-Norm block

Matrix Constant block

Matrix From Workspace block <1> <2> <3>

Matrix Functions library <1> <2>

Matrix Multiplication block

Matrix size parameter

format

Matrix Sum block

Matrix To Workspace block <1> <2> <3>

Matrix Transpose block

Matrix Viewer block <1> <2>

maximum

Maximum block <1> <2>

memory

list of blocks requiring contiguous

menus, Simulation

M-files

dspstartup <1> <2> <3>

running simulations from

startup

startupsav

M_i (input frame size). See frame sizes

minimum

Minimum block <1> <2>

M_o (output frame size). See frame sizes

MMSE

Mode parameter <1> <2>

models

Modified Covariance AR Estimator block

Modified Covariance Method block

mono inputs

multiband filter designs

multichannel signals <1> <2>

filtering

importing

See also signals

Multiphase Clock block

multiplexing

to create frame-matrices

to create sample-matrices <1> <2>

to create sample-vectors

multiplying

by dB gain

matrices

multirate filtering

Multirate Filters library <1> <2>

multirate models

N

normalization

to the Nyquist frequency <1> <2>

to the sample frequency

Normalization block

normalized angular frequency

normalized frequency

N-Sample Enable block

N-Sample Switch block

Number of channels parameter

Number of columns parameter

Number of rows parameter

Nyquist frequency <1> <2>

and normalized frequencies

related to sample frequency

O

(angular frequency)

₀ (angular cutoff frequency)

₁ (angular lower cutoff frequency)

₂ (angular upper cutoff frequency)

_n (digital frequency)

one-step forward linear predictors

ones, outputting

operations

Out block, suppressing output

Output check box

output frame periods

Output frame size parameter

output frame sizes. See frame sizes

output periods. See frame periods

output sample periods. See sample periods

Overlap-Add FFT Filter block

overlap-add method

overlapping buffers <1> <2>

and power spectrum estimation

Overlap-Save FFT Filter block

overlap-save method

overview of DSP Blockset

P

pages of an array

parallel-to-serial conversion

parameters

Band edge frequencies <1> <2> <3>

Buffer overlap, negative values for

continuous-time filter

normalized frequency <1> <2>

RTWOptions

SaveOutput

SaveTime

setting

Simulink <1> <2>

Solver

StopTime

tuning <1> <2>

Weights

and Least Squares FIR Filter Design block

and Remez FIR Filter Design block

Parameters menu option

parametric estimation

Parametric Estimation library <1> <2>

Parks-McClellan algorithm <1> <2>

Partial Unbuffer block <1> <2> <3> <4>

performance, improving <1> <2> <3>

delay

passband ripple

analog filter

digital filter

periodic windows

periodograms

periods

See sample periods and frame periods

Permute Matrix block

permuting matrices, blocks for

phase angles, unwrapping

polyphase filter structures <1> <2> <3>

ports, connecting

power spectrum estimation

and overlapping buffers

using the Burg method <1> <2> <3>

using the short-time, fast Fourier transform (ST-FFT)

using the Yule-Walker AR method

Power Spectrum Estimation library <1> <2>

Q

QR Factorization block

QR Solver block

Queue block

Quicksort algorithm

R

rads (radians), as angular measure

random-walk Kalman filter

rapid prototyping

rate conversion <1> <2>

blocks for <1> <2>

by buffering

by partial unbuffering

to avoid rate-mismatch errors

unintentional <1> <2>

rates

auto-promoting

Real Cepstrum block

realizations, filter. See filter realizations

Real-Time Workshop

and Autocorrelation block

and Biquadratic Filter block

and Buffer block

and contiguous memory

and Convolution block

and Create Diagonal Matrix block

and Difference block

and Direct-Form II Transpose Filter block

and Dyadic Analysis Filter Bank block

and Dyadic Synthesis Filter Bank block

and Extract Diagonal block

and Extract Triangular Matrix block

and FIR Decimation block

and FIR Interpolation block

and FIR Rate Conversion block

and Histogram block

and Integer Delay block

and loop-rolling

and Matrix Multiplication block

and Matrix Scaling block

and Matrix To Workspace block

and Matrix Transpose block

and Partial Unbuffer block

and Permute Matrix block

and Rebuffer block

and RMS block

and Shift Register block

and Signal To Workspace block

and Sort block

and Standard Deviation block

and Time-Varying Direct-Form II Transpose Filter block

and Time-Varying Lattice Filter block

and Toeplitz block

and Triggered Matrix To Workspace block

and Triggered Shift Register block

and Unbuffer block

and Variable Fractional Delay block

and Variable Integer Delay block

generating generic real-time (GRT) code

Real-Time Workshop panel

Rebuffer block <1> <2> <3> <4> <5>

rebuffer_delay <1> <2>

rebuffering <1> <2> <3> <4> <5>

and initial state

and rate conversion

blocks for <1> <2> <3> <4>

delay

computing

with alteration of the signal <1> <2>

with preservation of the signal <1> <2>

with Rebuffer block <1> <2>

Reciprocal Condition block

recursive least-squares (RLS) algorithm

remez <1> <2>

Remez exchange algorithm <1> <2>

Remez FIR Filter Design block <1> <2> <3> <4> <5> <6>

algorithm

and remez

Repeat block <1> <2>

resampling <1> <2> <3> <4> <5>

by inserting zeros

reversing elements in a vector

Reshape block <1> <2>

resizing a matrix

ripple

passband <1> <2>

stopband

RLS (recursive least-squares) algorithm

RLS Adaptive Filter block

RMS block <1> <2>

RTW. See Real-Time Workshop

RMS, computing

root-mean-square. See RMS

row vectors

as sample vectors

rows, of a frame-matrix

R_p (passband ripple)

See passband ripple

R_s (stopband attenuation or ripple)

See stopband

RTWOptions parameter

Running menu option

running operations <1> <2>

demo

Running parameter

S

Sample and Hold block

sample frequency

definition

related to Nyquist frequency

altered by partial unbuffering

sample periods

altered by buffering

altered by rebuffering

altered by unbuffering

color coding

continuous-time

converting <1> <2>

for Partial Unbuffer block

defined <1> <2> <3> <4>

discrete-time

for Buffer block

for frame-based signals

for nonsource blocks

using the Simulink Probe block

maintaining constant <1> <2> <3> <4> <5> <6>

of source blocks

output, defined

types of

sample rates

and partial unbuffering

Sample time colors option

Sample time of original time series parameter

Sample time parameter

sample times

color coding

defined <1> <2> <3>

saving a record of <1> <2>

shifting with sample-time offsets

sample-based signals

converting to frame-based signals

creating from frame-based signals

as a special case of matrices

sample-matrices <1> <2> <3> <4>

samples

sample-vectors

as matrix rows <1> <2>

as row vectors <1> <2>

SaveOutput parameter

SaveTime parameter

scalar-oriented blocks

scalars

as output of Matrix Constant block

constant

converting to vectors <1> <2> <3> <4> <5>

creating from vectors <1> <2> <3>

exporting <1> <2>

importing <1> <2> <3>

with element-oriented blocks

with scalar-oriented blocks

scaling matrices, blocks for

Scope block

scopes

Frequency Vector Scope block

Time Vector Scope block

scripts

sec (seconds), as unit of time

selecting

elements of a matrix

elements of a vector

sequence sample periods

See sample periods

sequences

defining a discrete-time signal

frame-based

sample-based

serial-to-parallel conversion

settings, Simulink <1> <2>

Shift Register block <1> <2> <3>

Short-Time FFT block <1> <2>

short-time, fast Fourier transform (ST-FFT) method

Signal From Workspace block <1> <2>

compared to Simulink From Workspace block

compared to Simulink To Workspace block

Signal Generator block

Signal Operations library <1> <2>

Signal Processing Toolbox <1> <2> <3>

description

documentation

signal processing, key operations

Signal To Workspace block <1> <2>

signals

control <1> <2> <3> <4> <5>

discrete-time

characteristics

inspecting the sample period of

terminology <1> <2>

exporting

frame-based

benefits

converting frame sizes

converting to sample-based

frequency of, defined <1> <2>

multichannel <1> <2>

single-channel

importing

multichannel <1> <2> <3> <4>

converting to frame-based

Simulation Parameters dialog box <1> <2> <3> <4>

single-channel

Simulation menu

simulations

accelerating <1> <2> <3>

running

from M-file

from the command line

size of generated code

stopping <1> <2>

Simulink

accessing

configuring for DSP <1> <2>

simulink

Sine Wave block <1> <2>

size

See also frame sizes

of a matrix

of a vector

of an array

sliding windows

and overlapping buffers

snapshot of multiple channels <1> <2> <3>

Solver options panel, recommended settings

Solver parameter

solvers

fixed-step

variable-step

solving linear equations, blocks for

Sort block

Standard Deviation block <1> <2>

sorting, blocks for

sound

exporting <1> <2> <3>

spectrum analysis <1> <2> <3> <4> <5> <6>

speed, improving <1> <2> <3>

state-space forms <1> <2>

statistics

RMS

Statistics library <1> <2> <3>

stopband

stopping a simulation <1> <2>

StopTime parameter

structures, filter. See filter realizations

Submatrix block

Switches and Counters library <1> <2>

switching

between two inputs

symbols, time and frequency

symmetric windows

synthesis, dyadic. See dyadic synthesis

T

T (signal period)

terminology, time and frequency <1> <2>

T (tunable) icon <1> <2>

technical conventions

T_f (frame period)

T_fi (input frame period)

T_fo (output frame period)

throughput rates, increasing

three-dimensional arrays

Time check box

Time Frame Scope block <1> <2>

Time Vector Scope block

time-step vector, saving to workspace

Time-Varying Direct-Form II Transpose Filter

initial conditions for

Time-Varying Direct-Form II Transpose Filter block

Time-Varying Lattice Filter block

To Wave Device block <1> <2>

initial conditions for

To Wave File block <1> <2>

Toeplitz block

Transforms library <1> <2>

tout vector, suppressing

transforms

discrete cosine

Fourier

transition regions <1> <2>

transposed direct-form II IIR filter <1> <2>

transposing

triangular windows <1> <2>

matrices

trends, removing

triggered blocks

Triggered Matrix To Workspace block <1> <2>

Triggered Shift Register block

Triggered Signal From Workspace block

Triggered Signal To Workspace block <1> <2>

triggering

for Counter block

for N-Sample Enable block

for Sample and Hold block

for sink blocks

for Triggered Matrix To Workspace block

for Triggered Shift Register block

for Triggered Signal From Workspace block

for Triggered Signal To Workspace block

T_s (sample period)

T_si (input sample period)

T_so (output sample period)

tuning parameters <1> <2>

typographical conventions

U

Unbuffer block <1> <2> <3>

and initial zeros

and Partial Unbuffer block

compared to Commutator block

initial state of <1> <2>

and calculating vector indices

unbuffering <1> <2> <3>

and errors

and rate conversion <1> <2>

frame-based signals <1> <2> <3>

See also rebuffering

initial state of <1> <2>

overlapping buffers

partial <1> <2> <3>

to a frame-based signal. See rebuffering

to a sample-based signal <1> <2>

with Rebuffer block <1> <2>

units of time and frequency measures

Unwrap block

unwrapping radian phase angles

Upsample block <1> <2>

upsampling <1> <2> <3> <4>

by inserting zeros

User-Defined Frame Scope block <1> <2> <3>

utility blocks

utility functions

dsp_links

dsplib

dspstartup

rebuffer_delay

V

Value and Index menu option

Value menu option

Variable Fractional Delay block

initial conditions for <1> <2>

Variable Integer Delay block

initial conditions for <1> <2>

Variable Selector block <1> <2> <3> <4>

variable-step solver <1> <2>

variance <1> <2>

tracking

Variance block <1> <2>

Vector Functions library <1> <2>

Vector Line Widths option

vector-oriented operations

See also operations, vector-oriented

vectors

as a special case of matrices

as frames

as output of Matrix Constant block

column, format of

constant

converting to scalars <1> <2> <3>

creating

by buffering

from scalars <1> <2> <3> <4>

displaying <1> <2> <3> <4>

exporting <1> <2> <3>

flipping

frame-based, defined

importing <1> <2> <3> <4>

partially unbuffering

row, format of

sample-based, defined

selecting elements of

with element-oriented blocks

unbuffering

with scalar-oriented blocks

with vector-oriented blocks

zero-padding

versions

displaying information about

opening

viewing data

on screen

with scopes

W

Weights parameter

and Least Squares FIR Filter Design block

and Remez FIR Filter Design block

for differentiator

for Hilbert transformer

length of

width of a vector

Window Function block <1> <2>

icon ports

windows

and Window Function block

generating and applying

workspace

suppressing output to <1> <2>

Workspace I/O panel <1> <2>

Y

yout, suppressing

yulewalk <1> <2>

Yule-Walker Estimator block

Yule-Walker IIR Filter Design block <1> <2> <3> <4>

characteristics of

Yule-Walker Method block

Z

Zero Pad block <1> <2> <3>

zero-order hold

applied to outputs

Zero-Order Hold block

zero-padding