·詳細(xì)說明:MP3編碼庫,可直接將wav,aiff格式的音頻文件壓縮成碼流量為128Kbps的mp3文件-Mp3encode is a kind of mp3 encoded library which can comPRESS wav,aiff files to mp3 files of 128kbps data flow.文件列表: mp3encoder-05-07-04 &nbs
Wavelets have widely been used in many signal and image processing applications. In this paper, a new
serial-parallel architecture for wavelet-based image comPRESSion is introduced. It is based on a 4-tap wavelet
transform, which is realised using some FIFO memory modules implementing a pixel-level pipeline
architecture to comPRESS and decomPRESS images. The real filter calculation over 4 · 4 window blocks is
done using a tree of carry save adders to ensure the high speed processing required for many applications.
The details of implementing both comPRESSor and decomPRESSor sub-systems are given. The primarily analysis
reveals that the proposed architecture, implemented using current VLSI technologies, can process a
video stream in real time.
We often get questions about how the deflate() and inflate() functions should be used. Users wonder when they should provide more input, when they should use more output, what to do with a Z_BUF_ERROR, how to make sure the process terminates properly, and so on. So for those who have read zlib.h (a few times), and would like further edification, below is an annotated example in C of simple routines to comPRESS and decomPRESS from an input file to an output file using deflate() and inflate() respectively. The annotations are interspersed between lines of the code. So please read between the lines. We hope this helps explain some of the intricacies of zlib.
Zlib函數(shù)列表 We often get questions about how the deflate() and inflate() functions should be used. Users wonder when they should provide more input, when they should use more output, what to do with a Z_BUF_ERROR, how to make sure the process terminates properly, and so on. So for those who have read zlib.h (a few times), and would like further edification, below is an annotated example in C of simple routines to comPRESS and decomPRESS from an input file to an output file using deflate() and inflate() respectively. The annotations are interspersed between lines of the code. So please read between the lines. We hope this helps explain some of the intricacies of zlib.
In this report
we provide an overview of several closely related methods developed during the last few yers, to smooth, denoise,
edit, comPRESS, transmit, and animate very large polygonal models.
I think this the first time every one can look at a PE crypter source
in top level language such VC++.
So as I promised ... if some one sent me one nice comPRESS source I would
publish my source.
I dedicate this source to all people who involve in this field.
I hope it helps someone.
Have good days
ashkbiz
Check: yodap.cjb.net
