Using CORDIC to perform the QR Factorization System

THE COMPILATION OF COMPLEX MATRICES Using Coordinate Rotation Digital Computer to perform the QR Factorization System
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Aktualisiert 5. Apr 2024

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  • A good way to write an algorithm intended for a fixed-point target is to write it in MATLAB using built-in floating-point types so we can verify that the algorithm works. When we refine the algorithm to work with fixed-point types, then the best thing to do is to write it so that the same code continues working with floating-point. That way, when we are debugging, then we can switch the inputs back and forth between floating-point and fixed-point types to determine if a difference in behavior is because of fixed-point effects such as overflow and quantization versus an algorithmic difference. Even if the algorithm is not well suited for a floating-point target (as is the case of using CORDIC in the following case), it is still advantageous to have your MATLAB code work with floating-point for debugging purposes. In contrast, we may have a completely different strategy if our target is floating point. For example, the QR algorithm is often done in floating-point with Householder transformations and row or column pivoting. But in fixed-point it is often more efficient to use CORDIC to apply Givens rotations with no pivoting.

Zitieren als

BLAISE KEVINE (2024). Using CORDIC to perform the QR Factorization System (https://www.mathworks.com/matlabcentral/fileexchange/162716-using-cordic-to-perform-the-qr-factorization-system), MATLAB Central File Exchange. Abgerufen.

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Erstellt mit R2024a
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1.0.0