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| AddC |
| Adds a constant value to each sample of a signal.
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| AddProductC |
| Adds product of a constant and each sample of a source signal to the each sample of destination signal.
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| MulC |
| Multiplies each sample of a signal by a constant value.
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| SubC |
| Subtracts a constant from each sample of a signal.
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| SubCRev |
| Subtracts each sample of a signal from a constant.
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| DivC |
| Divides each sample of a signal by a constant.
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| DivCRev |
| Divides a constant by each sample of a signal.
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| Add |
| Sample by sample addition of two signals.
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| AddProduct |
| Adds sample by sample product of two signals to the destination signal.
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| Mul |
| Sample by sample multiplication the samples of two signals.
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| Sub |
| Sample by sample subtraction of the samples of two signals.
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| Div |
| Sample by sample division of the samples of two signals.
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| Div_Round |
| Sample by sample division of the samples of two signals with rounding.
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| Abs |
| Absolute value of each sample of a signal.
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| Sqr |
| Squares each sample of a signal.
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| Sqrt |
| Square root of each sample of a signal.
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| Cubrt |
| Cube root of each sample of a signal.
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| Exp |
| E raised to the power of each sample of a signal.
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| Ln |
| Natural logarithm of each sample of a signal.
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| 10Log10 |
| Ten times the decimal logarithm of each sample of a signal.
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| SumLn |
| Sums up the natural logarithm of each sample of a signal.
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| Arctan |
| Inverse tangent of each sample of a signal.
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| Normalize |
| Normalize each sample of a real or complex signal using offset and division operations.
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| Cauchy, CauchyD, and CauchyDD2 |
| Determine Cauchy robust error function and its first and second derivatives for each sample of a signal.
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