A Lifting-Based Discrete Wavelet Transform and Discrete Wavelet Packet Processor with Support for Higher Order Wavelet Filters
Résumé
The major challenge in the wavelet transforms is
that there exist different classes of wavelet filters for different
kinds of applications. In this chapter, we propose a generalized
lifting-based wavelet processor that can perform various forward and
inverse Discrete Wavelet Transforms (DWTs) and Discrete Wavelet Packets
(DWPs) that also supports higher order wavelet filters. Our architecture
is based on Processing Elements (PEs) which can perform either
prediction or update on a continuous data stream in every two clock
cycles. We also consider the normalization step which takes place at the
end of the forward DWT/DWP or at the beginning of the inverse DWT/DWP.
Because different applications require different number of samples for
the transforms, we propose a flexible memory size that can be
implemented in the design. To cope with different wavelet filters, we
feature a multicontext configuration to select among various forward and
inverse DWTs/DWPs. For the 16-bit implementation, the estimated area of
the proposed wavelet processor with 8 PEs configuration and 2×2×512
words memory in a 0.18-μm technology is 2.5 mm square and the estimated
operating frequency is 319 MHz.
Domaines
Bibliothèque électronique [cs.DL]Origine | Fichiers produits par l'(les) auteur(s) |
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