Version:

Last Modified: January 9, 2017

Generates a continuous noise waveform with a power spectral density that is inversely proportional to frequency over a specified frequency range.

Frequency in Hz at which the spectral density of the ideal inverse-f noise waveform is equal to the noise density you specified.

The actual inverse-f noise waveform source is designed to approximate the ideal inverse-f noise waveform over the frequency range defined in **filter specifications**. Therefore, the actual spectral density of the inverse-f noise waveform at **reference freq** is near **noise density** if **reference freq** is within the design frequency range specified in **filter specifications**.

**Default: **1

A Boolean that controls the reseeding of the noise sample generator after the first execution of the node. By default, this node maintains the initial internal seed state.

True | Accepts a new seed and begins producing noise samples based on the seed. If the given seed is less than or equal to 0, the node ignores a reset value of True and resumes producing noise samples as a continuation of the previous sequence. |

False | Resumes producing noise samples as a continuation of the previous noise sequence. The node ignores new seed inputs while reset is False. |

**Default: **False

Spectral density (V/root Hz) of the ideal inverse-f noise waveform at the reference frequency.

The actual inverse-f noise waveform approximates the ideal inverse-f noise over the frequency range defined by **filter specifications**. Therefore, the actual spectral density of the inverse-f noise waveform at **reference freq** is near **noise density** only if **reference freq** is within the design frequency range specified in **filter specifications**.

**Default: **0.1

Exponent of the desired inverse-f spectral shape. This node designs a digital filter with the desired magnitude-squared response of 1/frequency^{exponent}.

**Default: **1

Operating frequency range and the filter order of the filter.

Lower frequency edge of the operating frequency range of the filter.

**Default: **0.1

Higher frequency edge of the operating frequency range of the filter.

**Default: **100

Number of first order stages of the inverse-f filter.

Increasing **order** improves the inverse-f spectral shape but requires more computation time during the filter operation.

**Default: **5

A number that initializes the noise generator.

The value of **seed** cannot be a multiple of 16364. If **reset** is unwired, this node maintains the internal seed state.

seed is greater than 0 |
Generates noise samples based on the given seed value. For multiple calls to the node, the node accepts or rejects new seed inputs based on the given reset value. |

seed is less than or equal to 0 |
Generates a random seed value and produces noise samples based on that seed value. For multiple calls to the node, if seed remains less than or equal to 0, the node ignores the reset input and produces noise samples as a continuation of the initial noise sequence. |

**Default: **-1

Error conditions that occur before this node runs. The node responds to this input according to standard error behavior.

**Default: **No error

Sampling rate in samples per second.

**Default: **1000

Number of samples in the signal.

**Default: **1000

Generated inverse-f noise waveform.

Magnitude of the deviation of the actual inverse-f filter, in decibels, when measured against the ideal inverse-f filter.

The ideal filter has a magnitude-squared response proportional to 1/f ^{exponent} over the frequency range specified by **low cutoff frequency**, **high cutoff frequency**, and **order**.

Frequencies of the magnitude error in Hz.

Magnitudes of the magnitude error in dB.

Expected RMS level of the generated noise waveform.

Magnitude and phase of the frequency response of the designed inverse-f filter.

Magnitude of the frequency response of the designed inverse-f filter in dB.

Frequencies of the frequency response of the designed inverse-f filter in Hz.

Magnitudes of the frequency response of the designed inverse-f filter in dB.

Phase of the frequency response of the designed inverse-f filter in degrees.

Frequencies of the frequency response of the designed inverse-f filter in Hz.

Phases of the frequency response of the designed inverse-f filter in degrees.

**Where This Node Can Run: **

Desktop OS: Windows

FPGA: Not supported