The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to video and image compression. This transform, by means of the lifting scheme, can be performed in a memory mid computation efficient way on modern, programmable GPUs, which can be regarded as massively parallel co-processors through NVidia's CUDA compute paradigm. The method is scalable and the fastest GP U implementation among the methods considered. We have integrated our DWT into the Dirac Wavelet Video Codec (DWVC), of which the overlapped block motion compensation compensation and frame arithmetic have been accelerated using CUDA as well.</p
This paper presents a flexible hardware architecture for performing the Discrete Wavelet Transform (...
<p>Now a days images are prodigiously and sizably voluminous in size. So, this size is not facilely ...
The Discrete Haar Wavelet Transform has a wide range of applications from signal processing to video...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The DiscreteWavelet Transform (DWT) has a wide range of applications from signal processing to video...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The Discrete Wavelet Transform (DWT) has been extensively used for image compression and denoising i...
The release of the CUDA Kepler architecture in March 2012 has provided Nvidia GPUs with a larger reg...
The discrete wavelet transform (DWT) has been extensively studied and developed in various scientifi...
In order to accelerate the Discrete Wavelet Transform DWT, we have implemented and compared the lift...
AbstractGPUs have recently attracted our attention as accelerators on a wide variety of algorithms, ...
Abstract—The release of the CUDA Kepler architecture in March 2012 has provided Nvidia GPUs with a l...
This paper presents a flexible hardware architecture for performing the Discrete Wavelet Transform (...
<p>Now a days images are prodigiously and sizably voluminous in size. So, this size is not facilely ...
The Discrete Haar Wavelet Transform has a wide range of applications from signal processing to video...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The DiscreteWavelet Transform (DWT) has a wide range of applications from signal processing to video...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The Discrete Wavelet Transform (DWT) has a wide range of applications from signal processing to vide...
The Discrete Wavelet Transform (DWT) has been extensively used for image compression and denoising i...
The release of the CUDA Kepler architecture in March 2012 has provided Nvidia GPUs with a larger reg...
The discrete wavelet transform (DWT) has been extensively studied and developed in various scientifi...
In order to accelerate the Discrete Wavelet Transform DWT, we have implemented and compared the lift...
AbstractGPUs have recently attracted our attention as accelerators on a wide variety of algorithms, ...
Abstract—The release of the CUDA Kepler architecture in March 2012 has provided Nvidia GPUs with a l...
This paper presents a flexible hardware architecture for performing the Discrete Wavelet Transform (...
<p>Now a days images are prodigiously and sizably voluminous in size. So, this size is not facilely ...
The Discrete Haar Wavelet Transform has a wide range of applications from signal processing to video...