Title :
Rapid design of biorthogonal wavelet transforms
Author :
Masud, S. ; McCanny, J.V.
Author_Institution :
Queen´´s Univ., Belfast, UK
fDate :
10/1/2000 12:00:00 AM
Abstract :
A rapid design methodology for biorthogonal wavelet transform cores has been developed based on a generic, scaleable architecture for wavelet filters. The architecture offers efficient hardware utilisation by combining the linear phase property of biorthogonal filters with decimation in a MAC-based implementation. The design has been captured in VHDL and parameterised in terms of wavelet type, data word length and coefficient word length. The control circuit is embedded within the cores and allows them to be cascaded without any interface glue logic for any desired level of decomposition. The design time to produce silicon layout of a biorthogonal wavelet system is typically less than a day. The silicon cores produced are comparable in area and performance to hand-crafted designs. The designs are portable across a range of foundries and are also applicable to FPGA and PLD implementations
Keywords :
VLSI; circuit CAD; circuit layout CAD; digital filters; digital signal processing chips; field programmable gate arrays; high level synthesis; integrated circuit design; programmable logic devices; wavelet transforms; DSP chips; FPGA implementation; MAC-based implementation; PLD implementation; Si; Si cores; VHDL; biorthogonal wavelet transform cores; coefficient word length; data word length; decimation; efficient hardware utilisation; embedded control circuit; generic scaleable architecture; linear phase property; rapid design methodology; wavelet filters; wavelet type;
Journal_Title :
Circuits, Devices and Systems, IEE Proceedings -
DOI :
10.1049/ip-cds:20000692
