Using CORDIC to perform the QR Factorization System

Versione 1.0.0 (743 KB) da BLAISE KEVINE
THE COMPILATION OF COMPLEX MATRICES Using Coordinate Rotation Digital Computer to perform the QR Factorization System
0.0
(0)
4 download
Aggiornato 5 apr 2024

Visualizza la licenza

  • 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.

Cita come

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. Recuperato .

Compatibilità della release di MATLAB
Creato con R2024a
Compatibile con qualsiasi release
Compatibilità della piattaforma
Windows macOS Linux
Tag Aggiungi tag

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!
Versione Pubblicato Note della release
1.0.0