Need math formulas for IPP GMM-functions. Like ippsLogGaussMixture_32f_D2() and others

Trying to replace my custom implementation of calculation of the likelihood probability for the Gaussian mixture to IPP procedures, like ippsLogGaussMixture_32f_D2, but i am not satisfied and not undestand results of this function, so i want to know how it treat my input data, so i need formulas.

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Ok this is a bit of a late answer and I guess you've probably moved on since, but I have just had to re-implement these myself. I've noted how much variation I noticed for each of the 4 functions I implemented. I'm unsure why I see such a large variation with `LogGaussMixture` but its the same ballpark.

``````// This produces a similar result to ippsLogGaussMultiMix_32f_D2 with a very small error in the 5th or 6th decimal place.
template< typename Type > void LogGaussMultiMix( Type* pMeans, Type* pCVars, int step, Type* pFeatures, int featureWidth, Type* pDets, Type* pPostProbs, int gaussianNum )
{
for( int g = 0; g < gaussianNum; g++ )
{
Type sum = 0.0f;
for( int f = 0; f < featureWidth; f++ )
{
const Type  kFeaturesMinusMean  = pFeatures[f] - pMeans[(g * step) + f];
sum     += (kFeaturesMinusMean * kFeaturesMinusMean) * pCVars[(g * step) + f];
}

pPostProbs[g]   = (Type( -0.5 ) * sum) + pDets[g];
}
}

// This produces a similar result to ippsLogGaussMixture_32f_D2 but with quite a large error at the second decimal place (~0.05!)
template< typename Type > void LogGaussMixture( Type* pMeans, Type* pCVars, int step, Type* pFeatures, int featureWidth, Type* pDets, int gaussianNum, Type& out )
{
out = 1.0f;
for( int g = 0; g < gaussianNum; g++ )
{
Type sum = 0.0f;
for( int f = 0; f < featureWidth; f++ )
{
const Type  kFeaturesMinusMean  = pFeatures[f] - pMeans[(g * step) + f];
sum     += (kFeaturesMinusMean * kFeaturesMinusMean) * pCVars[(g * step) + f];
}

const Type kPostProb    = (Type( -0.5 ) * sum) + pDets[g];
out     += std::log( Type( 1 ) + std::exp( kPostProb ) );
}
out = std::log( out );
}

// This function is similar to ippsUpdateGConst_32f with difference at the 5th decimal place.
template< typename Type > void UpdateGConst( Type* pCVars, int width, Type& det )
{
Type logSum = 0;
for( int i = 0; i < width; i++ )
{
logSum  += std::log( pCVars[i] );
}

// ln( 2 * pi ) = 1.837877066409346;
det = (width * Type( 1.837877066409346 )) - logSum;
}

// This function is like ippsOutProbPreCalc_32f_I and has no discernible error.
template< typename Type > void OutProbPreCalc( Type* pWeight, Type* pDetIn, Type* pDetOut, int gaussianNum )
{
for( int g = 0; g < gaussianNum; g++ )
{
pDetOut[g]  = pWeight[g] - (Type( 0.5 ) * pDetIn[g]);
}
}
``````
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