Introduction

AAC - Advanced Audio Coding - the logical successor to MP3 (ISO/MPEG Audio Layer-3) for audio coding at medium to high bit rates. Here links are provided to get songs in AAC format with 5.1 (Surround) at 128Kbps with very smaller size (05MB or even less). AAC is the default or standard audio format for YouTube, iPhone, iPod, iPad, Nintendo DSi, Nintendo 3DS, iTunes, DivX Plus Web Player and PlayStation 3.

About - AAC

Advanced Audio Coding (AAC) is a multi-channel perceptual audio coder that provides excellent compression of music signals while achieving transparent quality for audio material when coded at 128 kb/s.
AAC is appropriate for applications involving storage or transmission of mono, stereo or multi-channel music or other audio signals where quality of the reconstructed audio is paramount.
AAC is a wideband perceptual audio coding algorithm that provides state of the art levels of compression for audio signals.
AAC is primarily available as MPEG AAC Profile technology, which comprises the AAC Low Complexity technology.
The MPEG-2 AAC standardization to broadcast quality compression performance for 5-channel music signals at a total bit rate of 320 kb/s.
MPEG-4 AAC incorporates MPEG-2 AAC, with the addition of the Perceptual Noise Substitution (PNS) tool.

AAC achieves coding gain primary through three strategies.
-  it uses a high-resolution transform (a 1024-frequency-bins) to achieve redundancy removal. This is the invertible removal of information based on purely statistical properties of a signal.
 it uses a continuously signal-adaptive model of the human auditory system to determine a threshold for the perception of quantization noise and thereby achieve irrelevancy reduction. This is the irretrievable removal of information based on the fact that it is not perceivable.
entropy coding is used to match the actual entropy of the quantized values with the entropy of their representation in the bitstream. Additionally, AAC provided tools for the joint coding of stereo signals and other coding tools for special classes of signals.

AAC has seen considerable adoption by industry.  It has application in compression for PC-based and portable devices, compression for terrestrial digital audio broadcast, streaming of compressed media for both Internet and mobile telephone channels. Additionally if functions as a core coder for other MPEG technology (i.e. HE-AAC) that has application in both satellite-delivered digital audio broadcast and mobile telephony audio streaming.

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