Analysis: Too many decimal points. Analysis: Not a valid function. Analysis: Incomplete function expression. Analysis: Incomplete expression. Analysis: Variables output problem. Analysis: Inconsistency in variables or numbers. Analysis: Contains more than one variable. Analysis: Contains variables. Analysis: Wrong variable name. Analysis: Wrong letter. Analysis: Wrong function call. Analysis: Wrong number format. Analysis: Wrong decimal point. Analysis: Bracket problem at the end. Analysis: Bracket problem at the beginning. Analysis: Bracket problem. Analysis: Argument out of range [0,1). Analysis: Non-unique variables. Analysis: Signal length not a power of two and >= 4. Analysis: Signal length not a prime and >= 5. Analysis: Signal length not a power of two. Analysis: Signal length not a multiple of number. Analysis: Invalid window length. Analysis: Invalid time increment. Analysis: Argument out of range [0,100]. Analysis: Empty array. Analysis: n < k Analysis: Argument out of range [0,1]. Analysis: Argument out of range (0,1]. Analysis: Negative argument. Analysis: Not exactly two variables. Analysis: Derivative out of range. Analysis: Parameter problem. Analysis: No variables in expression. Analysis: Not exactly two functions. Analysis: Different parameters. Analysis: Nonpositive number. Analysis: Ill conditioned system Analysis: Vectors have different dimensions or empty vectors. Analysis: Maximum does not exist. Analysis: No valid point. Analysis: m >= n >= 0 is violated or the matrix of derivatives has the wrong dimension. Analysis: The Levenberg Marquardt VI has failed. Analysis: Wrong model equation. Analysis: Not exactly one variable. Analysis: No optimum found. Analysis: Invalid triplet (a,b,c). Analysis: No root found. Analysis: Wrong dimension of start. Analysis: Nonpositive accuracy or nonpositive delta x(h). Analysis: Both function values have the same sign. Analysis: Left point greater than right point. Analysis: Right point is a root. Analysis: Left point is a root. Analysis: Multiple roots. Analysis: Singular eigenvector matrix. Analysis: Empty X0. Analysis: A and X0 have different dimensions. Analysis: Matrix vector conflict. Analysis: Nonpositive accuracy. Analysis: Nonpositive step rate. Analysis: Wrong input, Cash Karp method. Analysis: Wrong input, Runge Kutta method. Analysis: Wrong input, Euler method. Analysis: Not a graphs file. Analysis: Not a valid path. Analysis: Negative distance. Analysis: Number of color palettes out of range. Analysis: Number of contours out of range. Analysis: Discrepancy between function, variables and coordinates. Analysis: Syntax error of parser. Analysis: The starting error codes of engineering math. Analysis: Serious algorithm failure. Call National Instruments support. Analysis: The format of the data file for the wavelet filter bank is invalid. Analysis: Cannot open the data file for the wavelet filter bank. Analysis: The wavelet packet session or handle must refer to a full tree. Analysis: The wavelet packet handle or session is invalid or the data space it refers to does not contain the necessary information. Analysis: Invalid dimensions of the wavelet coefficients. Analysis: Invalid optional parameter to find the optimal path. Analysis: The trend level must be no less than zero and no greater than 1.0. Analysis: The time step must be greater than zero. Analysis: The node must be a terminal node. Analysis: The node must not be a terminal node. Analysis: The path or node string must contain only "0" or "1". Analysis: The lengths of the analysis filters or synthesis filters must be greater than zero. Analysis: The refinement level for computing the mother wavelet must be greater than zero. Analysis: Shift must be 0 or 1. Analysis: Shift must be no less than zero and less than the decimation factor or interpolation factor. Analysis: The interpolation factor must be greater than or equal to two. Analysis: The decimation factor must be greater than or equal to two. Analysis: The scale of the wavelet decomposition must be greater than zero. Analysis: The selection of the wavelet type is invalid. Analysis: The largest order must be greater than the initial order and no greater than two-thirds of the length of the input signal. Analysis: The initial order must be no less than 1. Analysis: The AR order must be greater than or equal to the number of complex sinusoids. Analysis: The number of complex sinusoids must be greater than zero and no greater than two-thirds of the length of the input signal. Analysis: The order for the AR model must be greater than zero and no greater than two-thirds of the length of the input signal. Analysis: The index of the 2D array stored in the refnum is out of range. Analysis: The refnum does not support this operation. Analysis: The refnum is invalid. Analysis: Failure to create the refnum. Analysis: The parameters of the frequency information are invalid for further computation. Analysis: The parameters of the window information are invalid for further computation. Analysis: The dimensions of the kernel must be greater than zero and power of two values. The column size of the kernel must be 2^(ceil(log2(Ls-1))), where Ls is the length of the input signal. Analysis: The variance of the Gaussian window must be greater than zero. Analysis: The size of the window must be greater than zero. Analysis: The number of terms must be greater than zero. Analysis: The oversampling rate must be greater than or equal to one. Analysis: The order must be greater than or equal to zero. Analysis: The time interval must be a power of two. Analysis: The time interval must be greater than zero. Analysis: The selection for the enumerated data type parameter is invalid. Analysis: The number of frequency bins must be greater than zero and a power of two. Analysis: The sample rate must be greater than zero. Analysis: The input signal is empty. Analysis: CVI Could not create the required mutex. Analysis: CVI Could not find specified function in the DLL Analysis: CVI Could not load Spectral Measurement Toolset DLL Analysis: Invalid SMT session handle. Analysis: Incorrect averaging type specified. Analysis: Incorrect type of the input spectrum data. Analysis: You must specify either FFT bins or RBW. Analysis: Sampling frequency should be greater than zero. Analysis: The internal buffer is overflowed by input data. Analysis: FFT size must be greater than zero. Analysis: The zoom factor must be greater than zero. Analysis: The specified time stamp is after the end of the limit. Analysis: Values of the X array contained in the Limit Specification cluster are not monotonically increasing. Analysis: Waveforms are not contiguous. Analysis: Cannot align waveforms because their time stamps are separated by more than 10 times the duration of the longest waveform. Analysis: Cannot align two waveforms with same dt if their samples are not clocked in-phase. Analysis: Internal error: The number of threads attribute is less than zero. If the problem persists, contact National Instruments technical support. Analysis: Internal error: The parameter struct pointer is Null, possibly because of changes to the calling VI block diagram. If the problem persists, contact National Instruments technical support. Analysis: Internal error: The cursor struct pointer is Null, possibly because of a change to the calling VI block diagram. If the problem persists, contact National Instruments technical support. Analysis: Internal error: The result pointer is Null, possibly because of changes to the calling VI block diagram. If the problem persists, contact National Instruments technical support. Analysis: Failure initializing a critical section in measurement code, possibly due to low memory. If the problem persists, contact National Instruments technical support. Analysis: An exception occurred in the measurement code, possibly due to low memory. If the problem persists, contact National Instruments technical support. Analysis: Internal error: Invalid measurement ID number. Contact National Instruments technical support. Analysis: Internal error: Two measurements share the same ID number. If the problem persists, contact National Instruments technical support. Analysis: The edge number, pulse number, or cycle parameter value must be greater than zero. Analysis: Internal error: The attribute number does not refer to a valid parameter. Check the input parameters reference levels, percent level settings, and state settings. Analysis: Internal Error: The measurement session handle is invalid. If the problem persists, contact National Instruments technical support. Analysis: Internal error: The requested measurement is not available. If the problem persists, contact National Instruments technical support. Analysis: The period of the waveform is too short to perform the measurement. Analysis: The result is not a number (NaN) or infinite. Analysis: The histogram size parameter value is less than or equal to zero. Analysis: The slew rate is infinite because the rise or fall time is zero. Analysis: Illegal percent method parameter. Check the method enum input. Analysis: The waveform dt parameter is <= 0. Analysis: Illegal reference level units parameter. Check the ref units text ring input. Analysis: Reference levels must satisfy: low ref <= mid ref <= high ref. Analysis: The input waveform size is zero. Analysis: Insufficient memory available for waveform measurement. Analysis: The waveform did not have enough edges to perform this measurement. An edge is defined as a crossing of both the low and high reference levels. Check the signal length, reference levels, and ref level units. Analysis: The amplitude of the waveform is zero, so the histogram method cannot be used. Analysis: The waveform did not cross the mid reference level enough times to perform this measurement. Check the signal length, reference levels, and ref level units. Analysis: Frequency not a multiple of (Sampling Rate)/Samples. Analysis: The two time signal waveforms contain different dt. Analysis: The two time signal waveforms contain different number of data points. Analysis: At least one of the time signal waveforms does not contain the correct dt to continue the averaging process. Analysis: At least one of the time signal waveforms does not contain the correct number of data points to continue the averaging process. Analysis: The time signal waveform does not contain the correct dt to continue the averaging process. Analysis: The time signal waveform does not contain the correct number of data points to continue the averaging process. Analysis: The upper limit is less than the lower limit. Analysis: Shifts: n is negative. Analysis: The sample length is less than the window length. Analysis: The window length is not positive. Analysis: The time increment is not positive. Analysis: The sample length is negative. Analysis: The sample length is not positive. Analysis: The input must be non-zero. Analysis: The input must be greater than zero. Analysis: Loss of Significance Analysis: Feasible solution not found. Analysis: The FFT size must be greater than zero. Analysis: The start value wired to the Polynomial Real Zeros Counter VI is greater than the end value. Analysis: The end value wired to the Polynomial Real Zeros Counter VI is a root. Analysis: The start value wired to the Polynomial Real Zeros Counter VI is a root. Analysis: The input polynomial coefficients are all zeros. Analysis: Input parameters have at least one NaN element. Analysis: The order must be greater than or equal to zero. Analysis: The shifts must meet: |shifts| < samples. Analysis: Parameter must meet the condition Top > Base Analysis: The AR order must be greater than or equal to the number of complex sinusoids. Analysis: The AR order must not be greater than two-thirds of the number of samples. Analysis: The number of complex sinusoids must not be greater than two thirds of the number of samples. Analysis: The AR order must be > 0. Analysis: The number of complex sinusoids must be > 0. Analysis: The size of the initial or final condition array is not correct. Analysis: df must be > 0. Analysis: The dual function does not exist. Analysis: The Gabor coefficient array does not have the correct dimension. Analysis: The order of the Gabor spectrogram must be >=0. Analysis: The oversampling rate, N / dM, must be >=1. Analysis: The length of the analysis or synthesis window must be evenly divisible by the number of frequency bins, N, which must be a power of 2. Analysis: The length of the analysis or synthesis window must be evenly divisible by the Gabor time sampling interval, dM. Analysis: Window length must be > 2 and a power of 2. Analysis: The size of the input array and its Hilbert transform must be equal. Analysis: Time increment must not be greater than (window length)/4. Analysis: Window length must be > 4 and a power of 2. Analysis: Time increment must not be greater than dM. Analysis: dN or time interval must be greater than zero. Analysis: Time increment must be greater than the (window length)/16 Analysis: The seed is invalid. Analysis: This functionality is not supported on this platform. Analysis: The time points are not in ascending order. Analysis: The resample point cannot be calculated with the signal behind that of the input. Analysis: The filter buffer overflows. Analysis: Reordering eigenvalues changed some complex ones. Analysis: The eigenvalues cannot be reordered because some of them are too close. Analysis: The logarithm of the input matrix cannot be computed. Analysis: The input matrix is not positive definite. Analysis: Matrices must have the same size. Analysis: The number of samples must be greater than or equal to four. Analysis: Input parameters has at least one element that is Inf, NaN, DBL_MAX, or DBL_MIN Analysis: The input fundamental frequency or sampling rate is equal to zero. Analysis: The information in IIR filter structure is not correct. Analysis: The elements in the vector can not be all zero. Analysis: The internal memory state of this function was not initialized correctly. Analysis: The coefficients of the polynomial are invalid. Analysis: The maximum number of iterations was exceeded. Analysis: The selection is invalid. Analysis: Divide by zero error. Analysis: Negative number error Analysis: Invalid number of dimensions or dependent variables Analysis: The parameter to the beta function should be 0 < p < 1 Analysis: The contingency table has a negative number. Analysis: The number of categories or samples must be greater than one. Analysis: The probability must be greater than or equal to zero and less than one. Analysis: The probability must be between zero and one. Analysis: The degree of freedom must be greater than zero and less than the length of the input sequence. Analysis: All values in the first column of X matrix must be one. Analysis: The interpolating function has a pole at the requested value. Analysis: The x-values must be distinct. Analysis: The Random Effect model was requested when the Fixed Effect model is required. Analysis: The data is unbalanced. All cells must contain the same number of observations. Analysis: There is an overflow in the calculation. Analysis: The total number of data points must be equal to the product of levels/each factor * observations/cell. Analysis: Zero observations were made at some level of a factor. Analysis: The level of factors is outside the allowable range of some data. Analysis: The number of levels is out of range. Analysis: The system of equations cannot be solved because the input matrix is singular. Analysis: The input matrix must be a square matrix. Analysis: The number of columns in the first matrix is not equal to the number of rows in the second matrix or vector. Analysis: The number of intervals must be > 0. Analysis: The number of data points in the Y Values array must be greater than the order. Analysis: The elements of the Y Values array must be nonzero and either all positive or all negative. Analysis: The standard deviation must be greater than zero for normalization. Analysis: The number of coefficients must be even for this filter. Analysis: The number of coefficients must be odd for this filter. Analysis: The rank of the filter must meet: 1 <= (2*rank + 1) <= size. Analysis: The filter cannot be designed with the specified input values. Analysis: The leakage coefficient, leak, and step-size parameter, u, must meet: 0 <= leak <= u. Analysis: The step-size, u, must meet: 0 <= u <= 0.1. Analysis: The attenuation value must be greater than the ripple amplitude. Analysis: The final value must be > 0. Analysis: The width must be > 0. Analysis: The attenuation must be > 0. Analysis: The ripple amplitude must be > 0. Analysis: The following conditions must be met: 0 < f_low <= f_high <= fs/2. Analysis: The decimating factor must meet: 0 < decimating factor <= samples. Analysis: The order must be > 0. Analysis: The cut-off frequency, fc, must meet: 0 <= fc <= fs/2. Analysis: The upper value must be >= the lower value. Analysis: The following condition must be met: 0 <= (index + length) < samples. Analysis: The following condition must be met: 0 <= index < samples. Analysis: dt must be > 0. Analysis: dt must be >= 0. Analysis: The following conditions must be met: 0 <= (delay + width) < samples. Analysis: The width must meet: 0 < width < samples. Analysis: The number of cycles must be > 0 and <= the number of samples. Analysis: The duty cycle must be equal to or fall between 0 and 100: 0 <= duty cycle <= 100. Analysis: The maximum allowable transform size has been exceeded. Analysis: The size of the input array must be a power of two: size = 2^m, 0 < m < 23. Analysis: The input arrays do not contain the correct number of data values for this function. Analysis: The number of samples must be >= 3. Analysis: The number of samples must be >= 2. Analysis: The number of samples must be greater than or equal to 1. Analysis: The number of samples must be >= 0. Analysis: The number of samples must be > 0. Analysis: The input sequences must be the same size. Analysis: There is not enough memory to perform the specified routine. Analysis: The matrix is rank deficient. Analysis: The number of samples must be greater than zero. Analysis: The matrix is singular. Analysis: Matrices or vectors do not have the same size. Analysis: LabVIEW cannot reorder the generalized eigenvalues. Analysis: The computation result might be inaccurate. Analysis: The sizes of the input arrays do not meet the specified conditions. Analysis: The input standard deviation is invalid. Analysis: The input polynomial is empty. Analysis: Some frequencies violate Nyquist criteria. Analysis: The input matrix has at least one element with a value of Inf or NaN. Analysis: Frequency was coerced to the nearest multiple of (sampling rate)/samples. Analysis: Waveforms are not overlapping. Analysis: The averaging process was automatically restarted to respond to a change in the averaging parameters. Analysis: Current and previous waveforms are not contiguous. Analysis: Current and previous dt not equal.