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███ ▀▀▀▀▀▀▀ PROUDLY PRESENTS ▀▀▀▀▀▀▀▀ ███
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█▄ Refined.Audiometrics.PLPar.EQ.VST.v2.21.Incl.Keygen ▄█
█ █
▀█ █▀
█ SUPPLIER ..: TEAM AiR █
█ PROTECTION : PROTECTION PLUS 4 █
█ SIZE ......: 01 * 2,78MB █
█ DATE ......: 09/2006 █
█ █
█ PLParEQ is a 10-band Phase-Linear Parametric █
█ Equalizer of the highest quality. Each filter may █
█ assume any of many different filter characteristics, █
█ and operate in either traditional phase-warping mode, █
█ or our phase-linear mode. It uses the same internal █
█ DSP core as all of our other high-end products. Audio █
█ streams are treated in either stereo or mono. █
█ Individual filters can be applied to either both █
█ stereo channels, middle only, or side only. █
█ █
█ This PC VST plugin can operate in traditional 32-bit █
█ mode (24-bit audio) or as a 64-bit plugin for █
█ Cakewalks new Sonar 5. All internal processing is █
█ carried out in double-precision 64-bit floating █
█ point, regardless of external host mode. █
█ █
█ For audio streams at sample rates below 80 kHz the █
█ DSP engine internally upsamples with high-quality █
█ Sinc interpolation, applies its filtering, and then █
█ downsamples back to your system sample rate. █
█ █
█ █
█ Available filter types include all of the █
█ conventional resonant 2-pole lowpass, highpass, █
█ bandpass, band-reject, all-pass, high and low █
█ shelving, and the three Oxford variants of █
█ peaking/dipping filters. Also included are 1-pole █
█ lowpass and highpass, 4-pole resonant Butterworth █
█ lowpass and highpass, 6-pole notch for killing 50/60 █
█ Hz and other troublesome spurs (very tight and █
█ narrow), 1/F pinking filter, tunable 1/F lowpass (-3 █
█ dB/octave), tunable F-highpass (+3 dB/octave), and A, █
█ B, and C weighting filters. The list of filters █
█ continues to grow as we identify more useful █
█ variations. █
█ █
█ You can run all of the filters at native sample rates █
█ higher than 80 kHz, and forego the internal █
█ upsampling conversions. Upper limits on the sample █
█ rate (> 96 kHz) are dicted primarily by your █
█ computer's capacity, and your need for high quality █
█ at the very lowest frequencies (below 100 Hz). █
█ █
█ Individual filters can be operated as either █
█ traditional phase-warping, or phase-linear. Our █
█ algorithms employ blocked processing for phase █
█ -linear operation, and produce phase linearity by █
█ sending the signal through each filter twice - once █
█ in the forward time direction, and then again the the █
█ time reversed direction, thereby unwinding the phase █
█ back to zero. █
█ █
█ The blocks are reassembled using very high-quality █
█ windowing and 8-fold temporal overlap. IMD resulting █
█ from phase-linear operation has been measured as -120 █
█ dB from peak signal levels. (IMD test measurements*) █
█ Corner frequencies for filters can be adjusted from █
█ 10 Hz to 30 kHz at all sample rates. █
█ █
█ Computation proceeds in double-precision floating █
█ point throughout the entire DSP core, which uses 56 █
█ -bit mantissas and 80-bit intermediate products and █
█ sums. At the last stage of conversion back to 24-bit █
█ audio, we dither with a carefully crafted white █
█ -Gaussian dither from the 56-bit mantissas to the 24 █
█ -bit mantissas utilized thorughout by VST hosts. Our █
█ noise floor is typically measured at around -180 █
█ dB/Root(Hz). The Gaussian dither distribution is █
█ provably more preserving than more commonly used █
█ triangular distributions. █
█ █
█ Our tests indicate that PLParEQ requires about 5-6% █
█ of our computer speed capacity, with each additional █
█ filter enabled requiring an additional 0.5-1% at the █
█ highest quality levels. These tests were performed on █
█ a 3 GHz Pentium-4 computer with HyperThreading █
█ enabled. Different VST hosts will show varying █
█ requirements. Our tests were performed with Mackie's █
█ Tracktion 2 as the VST host. Performance on a more █
█ modern Pentium IV are likely to show improvements █
█ upon these results. █
█ █
█ *(IMD test measurement statistics - The signal was a █
█ -0.5 dBFS 1 kHz sinewave at 44.1 kHz SR. The █
█ filtering was performed as a Q=20 phase -linear █
█ bandpass filter centered at 1 kHz with unity gain, █
█ and using the highest quality setting = largest █
█ resampling blocksize. █
█ █
█ The test chart exhibits a spectral resolution of 0.67 █
█ Hz, with the IMD spurs spaced by 43.1 Hz. The signal █
█ was internally upsampled to 88.2 kHz for filter █
█ application, then downsampled back to 44.1 kHz for █
█ final output.) █
█ █
█ █
█ http://refinedaudiometrics.com █
█ █
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█ █
█ █
█ Installation Notes : █
█ -------------------- █
█ █
█ 1) Unzip, Unrar and run Setup.exe █
█ █
█ 2) Load plugin, choose activate over phone █
█ █
█ 3) Use Keygen █
█ █
█ 4) Have phun !!! █
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▀▀███▄▄▄▀▀ nFO lAYOUT (c) 2006 bEARCAVE-dESIGN ▀▀▄▄▄███▀▀