NeuralNet updates from Paola
authordsilverm <dsilverm@f7af4fe6-9843-0410-8265-dc069ae4e863>
Tue, 16 Feb 2010 03:47:38 +0000 (03:47 +0000)
committerdsilverm <dsilverm@f7af4fe6-9843-0410-8265-dc069ae4e863>
Tue, 16 Feb 2010 03:47:38 +0000 (03:47 +0000)
EMCAL/AliCaloNeuralFit.cxx
EMCAL/AliCaloNeuralFit.h
EMCAL/AliCaloRawAnalyzerNN.cxx

index a2a9e1b..2027252 100644 (file)
@@ -41,18 +41,18 @@ Double_t AliCaloNeuralFit::Value
    fInput2 = in2;
    fInput3 = in3;
    fInput4 = in4;
-   switch(index)
-   {
+   switch(index) 
+        {
      case 0:
-         return Neuron0x945d4f0();
+         return Neuron0x9fdedf8();
      case 1:
-         return Neuron0x945f490();
+         return Neuron0x9fe0da0();
      default:
          return 0.;
    }
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945cbe8() const
+Double_t AliCaloNeuralFit::Neuron0x9fd0208() const
 {
 //
 // Input neuron.
@@ -62,7 +62,7 @@ Double_t AliCaloNeuralFit::Neuron0x945cbe8() const
    return fInput0;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945cd78() const
+Double_t AliCaloNeuralFit::Neuron0x9fd0398() const
 {
 //
 // Input neuron.
@@ -72,7 +72,7 @@ Double_t AliCaloNeuralFit::Neuron0x945cd78() const
    return fInput1;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945cf50() const
+Double_t AliCaloNeuralFit::Neuron0x9fd0570() const
 {
 //
 // Input neuron.
@@ -82,7 +82,7 @@ Double_t AliCaloNeuralFit::Neuron0x945cf50() const
    return fInput2;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945d128() const
+Double_t AliCaloNeuralFit::Neuron0x9fd0748() const
 {
 //
 // Input neuron.
@@ -92,7 +92,7 @@ Double_t AliCaloNeuralFit::Neuron0x945d128() const
    return fInput3;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945d300() const
+Double_t AliCaloNeuralFit::Neuron0x9fdec20() const
 {
 //
 // Input neuron.
@@ -102,7 +102,7 @@ Double_t AliCaloNeuralFit::Neuron0x945d300() const
    return fInput4;
 }
 
-Double_t AliCaloNeuralFit::Input0x945d620() const
+Double_t AliCaloNeuralFit::Input0x9fdef28() const
 {
 //
 // Hidden/Output neuron
@@ -110,948 +110,947 @@ Double_t AliCaloNeuralFit::Input0x945d620() const
 // all neurons going into this, each one times its synaptic weight
 //
 
-   Double_t input = -0.508174;
-   input += Synapse0x943edb8();
-   input += Synapse0x945d7d0();
-   input += Synapse0x945d7f8();
-   input += Synapse0x945d820();
-   input += Synapse0x945d848();
+   Double_t input = 1.01367;
+   input += Synapse0x9fdf0d8();
+   input += Synapse0x9fdf100();
+   input += Synapse0x9fdf128();
+   input += Synapse0x9fdf150();
+   input += Synapse0x9fdf178();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945d620() const
+Double_t AliCaloNeuralFit::Neuron0x9fdef28() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945d620();
+   Double_t input = Input0x9fdef28();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945d870() const
+Double_t AliCaloNeuralFit::Input0x9fdf1a0() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = 0.29145;
-   input += Synapse0x945da68();
-   input += Synapse0x945da90();
-   input += Synapse0x945dab8();
-   input += Synapse0x945dae0();
-   input += Synapse0x945db08();
+   Double_t input = -0.388335;
+   input += Synapse0x9fdf398();
+   input += Synapse0x9fdf3c0();
+   input += Synapse0x9fdf3e8();
+   input += Synapse0x9fdf410();
+   input += Synapse0x9fdf438();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945d870() const
+Double_t AliCaloNeuralFit::Neuron0x9fdf1a0() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945d870();
+   Double_t input = Input0x9fdf1a0();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945db30() const
+Double_t AliCaloNeuralFit::Input0x9fdf460() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.132489;
-   input += Synapse0x945dd28();
-   input += Synapse0x945dd50();
-   input += Synapse0x945dd78();
-   input += Synapse0x945dda0();
-   input += Synapse0x945ddc8();
+   Double_t input = -0.547781;
+   input += Synapse0x9fdf658();
+   input += Synapse0x9fdf680();
+   input += Synapse0x9fdf6a8();
+   input += Synapse0x9fdf6d0();
+   input += Synapse0x9fdf6f8();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945db30() const
+Double_t AliCaloNeuralFit::Neuron0x9fdf460() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945db30();
+   Double_t input = Input0x9fdf460();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945ddf0() const
+Double_t AliCaloNeuralFit::Input0x9fdf720() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -1.12891;
-   input += Synapse0x945dfe8();
-   input += Synapse0x945e010();
-   input += Synapse0x945e0c0();
-   input += Synapse0x945e0e8();
-   input += Synapse0x945e110();
+   Double_t input = 0.525561;
+   input += Synapse0x9fdf918();
+   input += Synapse0x9fdf940();
+   input += Synapse0x9fdf9f0();
+   input += Synapse0x9fdfa18();
+   input += Synapse0x9fdfa40();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945ddf0() const
+Double_t AliCaloNeuralFit::Neuron0x9fdf720() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945ddf0();
+   Double_t input = Input0x9fdf720();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945e138() const
+Double_t AliCaloNeuralFit::Input0x9fdfa68() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = 0.576896;
-   input += Synapse0x945e2e8();
-   input += Synapse0x945e310();
-   input += Synapse0x945e338();
-   input += Synapse0x945e360();
-   input += Synapse0x945e388();
+   Double_t input = -0.360225;
+   input += Synapse0x9fdfc18();
+   input += Synapse0x9fdfc40();
+   input += Synapse0x9fdfc68();
+   input += Synapse0x9fdfc90();
+   input += Synapse0x9fdfcb8();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945e138() const
+Double_t AliCaloNeuralFit::Neuron0x9fdfa68() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945e138();
+   Double_t input = Input0x9fdfa68();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945e3b0() const
+Double_t AliCaloNeuralFit::Input0x9fdfce0() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = 0.654194;
-   input += Synapse0x945e5a8();
-   input += Synapse0x945e5d0();
-   input += Synapse0x945e5f8();
-   input += Synapse0x945e620();
-   input += Synapse0x945e648();
+   Double_t input = -0.485774;
+   input += Synapse0x9fdfed8();
+   input += Synapse0x9fdff00();
+   input += Synapse0x9fdff28();
+   input += Synapse0x9fdff50();
+   input += Synapse0x9fdff78();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945e3b0() const
+Double_t AliCaloNeuralFit::Neuron0x9fdfce0() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945e3b0();
+   Double_t input = Input0x9fdfce0();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945e670() const
+Double_t AliCaloNeuralFit::Input0x9fdffa0() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.356397;
-   input += Synapse0x945e868();
-   input += Synapse0x945e890();
-   input += Synapse0x945e8b8();
-   input += Synapse0x945e038();
-   input += Synapse0x945e060();
+   Double_t input = 0.467242;
+   input += Synapse0x9fe0198();
+   input += Synapse0x9fe01c0();
+   input += Synapse0x9fe01e8();
+   input += Synapse0x9fdf968();
+   input += Synapse0x9fdf990();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945e670() const
+Double_t AliCaloNeuralFit::Neuron0x9fdffa0() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945e670();
+   Double_t input = Input0x9fdffa0();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945e9e8() const
+Double_t AliCaloNeuralFit::Input0x9fe0318() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.798487;
-   input += Synapse0x945ebe0();
-   input += Synapse0x945ec08();
-   input += Synapse0x945ec30();
-   input += Synapse0x945ec58();
-   input += Synapse0x945ec80();
+   Double_t input = 0.566875;
+   input += Synapse0x9fe04f0();
+   input += Synapse0x9fe0518();
+   input += Synapse0x9fe0540();
+   input += Synapse0x9fe0568();
+   input += Synapse0x9fe0590();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945e9e8() const
+Double_t AliCaloNeuralFit::Neuron0x9fe0318() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945e9e8();
+   Double_t input = Input0x9fe0318();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945eca8() const
+Double_t AliCaloNeuralFit::Input0x9fe05b8() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.934985;
-   input += Synapse0x945eea0();
-   input += Synapse0x945eec8();
-   input += Synapse0x945eef0();
-   input += Synapse0x945ef18();
-   input += Synapse0x945ef40();
+   Double_t input = -0.848776;
+   input += Synapse0x9fe07b0();
+   input += Synapse0x9fe07d8();
+   input += Synapse0x9fe0800();
+   input += Synapse0x9fe0828();
+   input += Synapse0x9fe0850();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945eca8() const
+Double_t AliCaloNeuralFit::Neuron0x9fe05b8() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945eca8();
+   Double_t input = Input0x9fe05b8();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945ef68() const
+Double_t AliCaloNeuralFit::Input0x9fe0878() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.457775;
-   input += Synapse0x945f160();
-   input += Synapse0x945f188();
-   input += Synapse0x945f1b0();
-   input += Synapse0x945f1d8();
-   input += Synapse0x945f200();
+   Double_t input = -0.408427;
+   input += Synapse0x9fe0a70();
+   input += Synapse0x9fe0a98();
+   input += Synapse0x9fe0ac0();
+   input += Synapse0x9fe0ae8();
+   input += Synapse0x9fe0b10();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945ef68() const
+Double_t AliCaloNeuralFit::Neuron0x9fe0878() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945ef68();
+   Double_t input = Input0x9fe0878();
    return (tanh(input) * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945d4f0() const
+Double_t AliCaloNeuralFit::Input0x9fdedf8() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = 0.849942;
-   input += Synapse0x945f300();
-   input += Synapse0x945f328();
-   input += Synapse0x945f350();
-   input += Synapse0x945f378();
-   input += Synapse0x945f3a0();
-   input += Synapse0x945f3c8();
-   input += Synapse0x945f3f0();
-   input += Synapse0x945f418();
-   input += Synapse0x945f440();
-   input += Synapse0x945f468();
+   Double_t input = -0.310322;
+   input += Synapse0x9fe0c10();
+   input += Synapse0x9fe0c38();
+   input += Synapse0x9fe0c60();
+   input += Synapse0x9fe0c88();
+   input += Synapse0x9fe0cb0();
+   input += Synapse0x9fe0cd8();
+   input += Synapse0x9fe0d00();
+   input += Synapse0x9fe0d28();
+   input += Synapse0x9fe0d50();
+   input += Synapse0x9fe0d78();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945d4f0() const
+Double_t AliCaloNeuralFit::Neuron0x9fdedf8() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945d4f0();
+   Double_t input = Input0x9fdedf8();
    return (input * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Input0x945f490() const
+Double_t AliCaloNeuralFit::Input0x9fe0da0() const
 {
 //
 // Hidden/Output neuron
 // Compute the activation from linear combination of
 // all neurons going into this, each one times its synaptic weight
 //
-   Double_t input = -0.147416;
-   input += Synapse0x945f690();
-   input += Synapse0x945f6b8();
-   input += Synapse0x945f6e0();
-   input += Synapse0x945f708();
-   input += Synapse0x945f730();
-   input += Synapse0x936a1f0();
-   input += Synapse0x943ee18();
-   input += Synapse0x945cb70();
-   input += Synapse0x945cb98();
-   input += Synapse0x945cbc0();
+   Double_t input = -0.0574773;
+   input += Synapse0x9fe0fa0();
+   input += Synapse0x9fe0fc8();
+   input += Synapse0x9fe0ff0();
+   input += Synapse0x9fe1018();
+   input += Synapse0x9fe1040();
+   input += Synapse0x9882b78();
+   input += Synapse0x9fd0158();
+   input += Synapse0x9fd0180();
+   input += Synapse0x9fd01a8();
+   input += Synapse0x9fd01d0();
    return input;
 }
 
-Double_t AliCaloNeuralFit::Neuron0x945f490() const
+Double_t AliCaloNeuralFit::Neuron0x9fe0da0() const
 {
 //
 // Hidden/Output neuron
 // Return computed activation
 //
-   Double_t input = Input0x945f490();
+   Double_t input = Input0x9fe0da0();
    return (input * 1)+0;
 }
 
-Double_t AliCaloNeuralFit::Synapse0x943edb8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf0d8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*-0.104546);
+   return (Neuron0x9fd0208()*1.53012);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945d7d0() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf100()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*-0.0905177);
+   return (Neuron0x9fd0398()*-0.316606);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945d7f8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf128()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-0.143637);
+   return (Neuron0x9fd0570()*1.31047);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945d820() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf150()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.413064);
+   return (Neuron0x9fd0748()*0.31846);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945d848() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf178()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*0.883744);
+   return (Neuron0x9fdec20()*-1.43145);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945da68() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf398()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*-1.26724);
+   return (Neuron0x9fd0208()*-0.199402);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945da90() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf3c0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*-0.14136);
+   return (Neuron0x9fd0398()*0.0250046);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dab8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf3e8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*0.27187);
+   return (Neuron0x9fd0570()*0.21622);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dae0() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf410()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*0.563302);
+   return (Neuron0x9fd0748()*0.0240984);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945db08() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf438()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*1.38006);
+   return (Neuron0x9fdec20()*0.492242);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dd28() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf658()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*-0.235737);
+   return (Neuron0x9fd0208()*-2.9778);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dd50() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf680()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*0.715314);
+   return (Neuron0x9fd0398()*-0.598961);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dd78() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf6a8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-0.893506);
+   return (Neuron0x9fd0570()*-0.857305);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dda0() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf6d0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*1.66689);
+   return (Neuron0x9fd0748()*0.58472);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ddc8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf6f8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*0.433463);
+   return (Neuron0x9fdec20()*1.87975);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945dfe8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf918()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*0.198835);
+   return (Neuron0x9fd0208()*0.334053);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e010() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf940()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*1.67429);
+   return (Neuron0x9fd0398()*0.142395);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e0c0() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf9f0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-1.19328);
+   return (Neuron0x9fd0570()*0.293019);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e0e8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfa18()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*2.5465);
+   return (Neuron0x9fd0748()*-0.109163);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e110() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfa40()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*0.153072);
+   return (Neuron0x9fdec20()*0.482151);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e2e8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfc18()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*0.0815823);
+   return (Neuron0x9fd0208()*-0.270303);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e310() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfc40()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*0.0316826);
+   return (Neuron0x9fd0398()*-0.212234);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e338() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfc68()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*0.617448);
+   return (Neuron0x9fd0570()*-0.136993);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e360() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfc90()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.749993);
+   return (Neuron0x9fd0748()*-0.322175);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e388() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfcb8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*-0.980764);
+   return (Neuron0x9fdec20()*-0.137984);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e5a8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdfed8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*-0.453657);
+   return (Neuron0x9fd0208()*0.00656827);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e5d0() const
+Double_t AliCaloNeuralFit::Synapse0x9fdff00()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*0.146578);
+   return (Neuron0x9fd0398()*-0.0405237);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e5f8() const
+Double_t AliCaloNeuralFit::Synapse0x9fdff28()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*0.123041);
+   return (Neuron0x9fd0570()*-0.437988);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e620() const
+Double_t AliCaloNeuralFit::Synapse0x9fdff50()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*0.189871);
+   return (Neuron0x9fd0748()*-0.343747);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e648() const
+Double_t AliCaloNeuralFit::Synapse0x9fdff78()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*-0.153873);
+   return (Neuron0x9fdec20()*-0.168597);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e868() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0198()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*-0.0569668);
+   return (Neuron0x9fd0208()*-0.47585);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e890() const
+Double_t AliCaloNeuralFit::Synapse0x9fe01c0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*-0.0208438);
+   return (Neuron0x9fd0398()*1.7023);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e8b8() const
+Double_t AliCaloNeuralFit::Synapse0x9fe01e8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-0.662575);
+   return (Neuron0x9fd0570()*0.193432);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e038() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf968()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.308952);
+   return (Neuron0x9fd0748()*0.139333);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945e060() const
+Double_t AliCaloNeuralFit::Synapse0x9fdf990()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*-0.0591419);
+   return (Neuron0x9fdec20()*-0.400241);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ebe0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe04f0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*0.203333);
+   return (Neuron0x9fd0208()*0.757465);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ec08() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0518()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*-0.210458);
+   return (Neuron0x9fd0398()*0.070475);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ec30() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0540()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-0.46208);
+   return (Neuron0x9fd0570()*0.412929);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ec58() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0568()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.213809);
+   return (Neuron0x9fd0748()*-0.161017);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ec80() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0590()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*0.652572);
+   return (Neuron0x9fdec20()*-0.168403);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945eea0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe07b0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*0.53005);
+   return (Neuron0x9fd0208()*0.490089);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945eec8() const
+Double_t AliCaloNeuralFit::Synapse0x9fe07d8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*1.97055);
+   return (Neuron0x9fd0398()*-0.193417);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945eef0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0800()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*-0.934772);
+   return (Neuron0x9fd0570()*-0.345063);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ef18() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0828()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.253289);
+   return (Neuron0x9fd0748()*-0.507424);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945ef40() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0850()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*-0.190109);
+   return (Neuron0x9fdec20()*-0.790068);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f160() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0a70()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cbe8()*0.111492);
+   return (Neuron0x9fd0208()*1.717);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f188() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0a98()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cd78()*0.928076);
+   return (Neuron0x9fd0398()*3.29133);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f1b0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0ac0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945cf50()*0.178153);
+   return (Neuron0x9fd0570()*-0.60354);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f1d8() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0ae8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d128()*-0.750558);
+   return (Neuron0x9fd0748()*-0.553822);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f200() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0b10()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d300()*-1.40984);
+   return (Neuron0x9fdec20()*-0.292983);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f300() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0c10()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d620()*-0.838377);
+   return (Neuron0x9fdef28()*0.0177982);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f328() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0c38()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d870()*0.191143);
+   return (Neuron0x9fdf1a0()*0.088043);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f350() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0c60()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945db30()*-0.453988);
+   return (Neuron0x9fdf460()*0.0698223);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f378() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0c88()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945ddf0()*-0.520562);
+   return (Neuron0x9fdf720()*0.609632);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f3a0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0cb0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e138()*-0.995398);
+   return (Neuron0x9fdfa68()*-0.825672);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f3c8() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0cd8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e3b0()*-0.114216);
+   return (Neuron0x9fdfce0()*-0.109339);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f3f0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0d00()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e670()*-0.72899);
+   return (Neuron0x9fdffa0()*-0.498954);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f418() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0d28()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e9e8()*-0.453087);
+   return (Neuron0x9fe0318()*0.346775);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f440() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0d50()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945eca8()*0.0891431);
+   return (Neuron0x9fe05b8()*-0.284703);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f468() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0d78()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945ef68()*0.679937);
+   return (Neuron0x9fe0878()*0.0176923);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f690() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0fa0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d620()*0.806704);
+   return (Neuron0x9fdef28()*-1.65881);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f6b8() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0fc8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945d870()*-1.27447);
+   return (Neuron0x9fdf1a0()*0.0393971);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f6e0() const
+Double_t AliCaloNeuralFit::Synapse0x9fe0ff0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945db30()*1.0306);
+   return (Neuron0x9fdf460()*1.71678);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f708() const
+Double_t AliCaloNeuralFit::Synapse0x9fe1018()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945ddf0()*2.09234);
+   return (Neuron0x9fdf720()*0.408921);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945f730() const
+Double_t AliCaloNeuralFit::Synapse0x9fe1040()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e138()*0.0643316);
+   return (Neuron0x9fdfa68()*-0.508733);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x936a1f0() const
+Double_t AliCaloNeuralFit::Synapse0x9882b78()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e3b0()*-0.204933);
+   return (Neuron0x9fdfce0()*-0.48213);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x943ee18() const
+Double_t AliCaloNeuralFit::Synapse0x9fd0158()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e670()*0.423604);
+   return (Neuron0x9fdffa0()*-1.36281);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945cb70() const
+Double_t AliCaloNeuralFit::Synapse0x9fd0180()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945e9e8()*1.00527);
+   return (Neuron0x9fe0318()*0.102217);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945cb98() const
+Double_t AliCaloNeuralFit::Synapse0x9fd01a8()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945eca8()*-1.54485);
+   return (Neuron0x9fe05b8()*-0.684593);
 }
 
-Double_t AliCaloNeuralFit::Synapse0x945cbc0() const
+Double_t AliCaloNeuralFit::Synapse0x9fd01d0()  const
 {
 //
 // Synaptic connection
 // Multiplies input times synaptic weight
 //
-   return (Neuron0x945ef68()*0.540381);
+   return (Neuron0x9fe0878()*1.99419);
 }
-
index b90cefa..bd58150 100644 (file)
@@ -33,107 +33,107 @@ private:
 
    // private functions as exported by TMultiLayerPerceptron
    // containing the network data processing
-   Double_t Neuron0x945cbe8() const;
-   Double_t Neuron0x945cd78() const;
-   Double_t Neuron0x945cf50() const;
-   Double_t Neuron0x945d128() const;
-   Double_t Neuron0x945d300() const;
-   Double_t Input0x945d620() const;
-   Double_t Neuron0x945d620() const;
-   Double_t Input0x945d870() const;
-   Double_t Neuron0x945d870() const;
-   Double_t Input0x945db30() const;
-   Double_t Neuron0x945db30() const;
-   Double_t Input0x945ddf0() const;
-   Double_t Neuron0x945ddf0() const;
-   Double_t Input0x945e138() const;
-   Double_t Neuron0x945e138() const;
-   Double_t Input0x945e3b0() const;
-   Double_t Neuron0x945e3b0() const;
-   Double_t Input0x945e670() const;
-   Double_t Neuron0x945e670() const;
-   Double_t Input0x945e9e8() const;
-   Double_t Neuron0x945e9e8() const;
-   Double_t Input0x945eca8() const;
-   Double_t Neuron0x945eca8() const;
-   Double_t Input0x945ef68() const;
-   Double_t Neuron0x945ef68() const;
-   Double_t Input0x945d4f0() const;
-   Double_t Neuron0x945d4f0() const;
-   Double_t Input0x945f490() const;
-   Double_t Neuron0x945f490() const;
-   Double_t Synapse0x943edb8() const;
-   Double_t Synapse0x945d7d0() const;
-   Double_t Synapse0x945d7f8() const;
-   Double_t Synapse0x945d820() const;
-   Double_t Synapse0x945d848() const;
-   Double_t Synapse0x945da68() const;
-   Double_t Synapse0x945da90() const;
-   Double_t Synapse0x945dab8() const;
-   Double_t Synapse0x945dae0() const;
-   Double_t Synapse0x945db08() const;
-   Double_t Synapse0x945dd28() const;
-   Double_t Synapse0x945dd50() const;
-   Double_t Synapse0x945dd78() const;
-   Double_t Synapse0x945dda0() const;
-   Double_t Synapse0x945ddc8() const;
-   Double_t Synapse0x945dfe8() const;
-   Double_t Synapse0x945e010() const;
-   Double_t Synapse0x945e0c0() const;
-   Double_t Synapse0x945e0e8() const;
-   Double_t Synapse0x945e110() const;
-   Double_t Synapse0x945e2e8() const;
-   Double_t Synapse0x945e310() const;
-   Double_t Synapse0x945e338() const;
-   Double_t Synapse0x945e360() const;
-   Double_t Synapse0x945e388() const;
-   Double_t Synapse0x945e5a8() const;
-   Double_t Synapse0x945e5d0() const;
-   Double_t Synapse0x945e5f8() const;
-   Double_t Synapse0x945e620() const;
-   Double_t Synapse0x945e648() const;
-   Double_t Synapse0x945e868() const;
-   Double_t Synapse0x945e890() const;
-   Double_t Synapse0x945e8b8() const;
-   Double_t Synapse0x945e038() const;
-   Double_t Synapse0x945e060() const;
-   Double_t Synapse0x945ebe0() const;
-   Double_t Synapse0x945ec08() const;
-   Double_t Synapse0x945ec30() const;
-   Double_t Synapse0x945ec58() const;
-   Double_t Synapse0x945ec80() const;
-   Double_t Synapse0x945eea0() const;
-   Double_t Synapse0x945eec8() const;
-   Double_t Synapse0x945eef0() const;
-   Double_t Synapse0x945ef18() const;
-   Double_t Synapse0x945ef40() const;
-   Double_t Synapse0x945f160() const;
-   Double_t Synapse0x945f188() const;
-   Double_t Synapse0x945f1b0() const;
-   Double_t Synapse0x945f1d8() const;
-   Double_t Synapse0x945f200() const;
-   Double_t Synapse0x945f300() const;
-   Double_t Synapse0x945f328() const;
-   Double_t Synapse0x945f350() const;
-   Double_t Synapse0x945f378() const;
-   Double_t Synapse0x945f3a0() const;
-   Double_t Synapse0x945f3c8() const;
-   Double_t Synapse0x945f3f0() const;
-   Double_t Synapse0x945f418() const;
-   Double_t Synapse0x945f440() const;
-   Double_t Synapse0x945f468() const;
-   Double_t Synapse0x945f690() const;
-   Double_t Synapse0x945f6b8() const;
-   Double_t Synapse0x945f6e0() const;
-   Double_t Synapse0x945f708() const;
-   Double_t Synapse0x945f730() const;
-   Double_t Synapse0x936a1f0() const;
-   Double_t Synapse0x943ee18() const;
-   Double_t Synapse0x945cb70() const;
-   Double_t Synapse0x945cb98() const;
-   Double_t Synapse0x945cbc0() const;
+   Double_t Neuron0x9fd0208() const;
+   Double_t Neuron0x9fd0398() const;
+   Double_t Neuron0x9fd0570() const;
+   Double_t Neuron0x9fd0748() const;
+   Double_t Neuron0x9fdec20() const;
+   Double_t Input0x9fdef28() const;
+   Double_t Neuron0x9fdef28() const;
+   Double_t Input0x9fdf1a0() const;
+   Double_t Neuron0x9fdf1a0() const;
+   Double_t Input0x9fdf460() const;
+   Double_t Neuron0x9fdf460() const;
+   Double_t Input0x9fdf720() const;
+   Double_t Neuron0x9fdf720() const;
+   Double_t Input0x9fdfa68() const;
+   Double_t Neuron0x9fdfa68() const;
+   Double_t Input0x9fdfce0() const;
+   Double_t Neuron0x9fdfce0() const;
+   Double_t Input0x9fdffa0() const;
+   Double_t Neuron0x9fdffa0() const;
+   Double_t Input0x9fe0318() const;
+   Double_t Neuron0x9fe0318() const;
+   Double_t Input0x9fe05b8() const;
+   Double_t Neuron0x9fe05b8() const;
+   Double_t Input0x9fe0878() const;
+   Double_t Neuron0x9fe0878() const;
+   Double_t Input0x9fdedf8() const;
+   Double_t Neuron0x9fdedf8() const;
+   Double_t Input0x9fe0da0() const;
+   Double_t Neuron0x9fe0da0() const;
+   Double_t Synapse0x9fdf0d8() const;
+   Double_t Synapse0x9fdf100() const;
+   Double_t Synapse0x9fdf128() const;
+   Double_t Synapse0x9fdf150() const;
+   Double_t Synapse0x9fdf178() const;
+   Double_t Synapse0x9fdf398() const;
+   Double_t Synapse0x9fdf3c0() const;
+   Double_t Synapse0x9fdf3e8() const;
+   Double_t Synapse0x9fdf410() const;
+   Double_t Synapse0x9fdf438() const;
+   Double_t Synapse0x9fdf658() const;
+   Double_t Synapse0x9fdf680() const;
+   Double_t Synapse0x9fdf6a8() const;
+   Double_t Synapse0x9fdf6d0() const;
+   Double_t Synapse0x9fdf6f8() const;
+   Double_t Synapse0x9fdf918() const;
+   Double_t Synapse0x9fdf940() const;
+   Double_t Synapse0x9fdf9f0() const;
+   Double_t Synapse0x9fdfa18() const;
+   Double_t Synapse0x9fdfa40() const;
+   Double_t Synapse0x9fdfc18() const;
+   Double_t Synapse0x9fdfc40() const;
+   Double_t Synapse0x9fdfc68() const;
+   Double_t Synapse0x9fdfc90() const;
+   Double_t Synapse0x9fdfcb8() const;
+   Double_t Synapse0x9fdfed8() const;
+   Double_t Synapse0x9fdff00() const;
+   Double_t Synapse0x9fdff28() const;
+   Double_t Synapse0x9fdff50() const;
+   Double_t Synapse0x9fdff78() const;
+   Double_t Synapse0x9fe0198() const;
+   Double_t Synapse0x9fe01c0() const;
+   Double_t Synapse0x9fe01e8() const;
+   Double_t Synapse0x9fdf968() const;
+   Double_t Synapse0x9fdf990() const;
+   Double_t Synapse0x9fe04f0() const;
+   Double_t Synapse0x9fe0518() const;
+   Double_t Synapse0x9fe0540() const;
+   Double_t Synapse0x9fe0568() const;
+   Double_t Synapse0x9fe0590() const;
+   Double_t Synapse0x9fe07b0() const;
+   Double_t Synapse0x9fe07d8() const;
+   Double_t Synapse0x9fe0800() const;
+   Double_t Synapse0x9fe0828() const;
+   Double_t Synapse0x9fe0850() const;
+   Double_t Synapse0x9fe0a70() const;
+   Double_t Synapse0x9fe0a98() const;
+   Double_t Synapse0x9fe0ac0() const;
+   Double_t Synapse0x9fe0ae8() const;
+   Double_t Synapse0x9fe0b10() const;
+   Double_t Synapse0x9fe0c10() const;
+   Double_t Synapse0x9fe0c38() const;
+   Double_t Synapse0x9fe0c60() const;
+   Double_t Synapse0x9fe0c88() const;
+   Double_t Synapse0x9fe0cb0() const;
+   Double_t Synapse0x9fe0cd8() const;
+   Double_t Synapse0x9fe0d00() const;
+   Double_t Synapse0x9fe0d28() const;
+   Double_t Synapse0x9fe0d50() const;
+   Double_t Synapse0x9fe0d78() const;
+   Double_t Synapse0x9fe0fa0() const;
+   Double_t Synapse0x9fe0fc8() const;
+   Double_t Synapse0x9fe0ff0() const;
+   Double_t Synapse0x9fe1018() const;
+   Double_t Synapse0x9fe1040() const;
+   Double_t Synapse0x9882b78() const;
+   Double_t Synapse0x9fd0158() const;
+   Double_t Synapse0x9fd0180() const;
+   Double_t Synapse0x9fd01a8() const;
+   Double_t Synapse0x9fd01d0() const;
 
-   ClassDef(AliCaloNeuralFit,1)
+        ClassDef(AliCaloNeuralFit,1)
 };
 
 #endif // AliCaloNeuralFit_h
index 80edcda..997bd0d 100644 (file)
@@ -125,7 +125,7 @@ AliCaloRawAnalyzerNN::Evaluate( const vector<AliCaloBunchInfo> &bunchvector,
          //      double tof = (fNeuralNet->Value( 1,  fNNInput[0],  fNNInput[1], fNNInput[2], fNNInput[3], fNNInput[4]) + maxrev )*256 ;
          
          double amp = (maxamp - ped)*fNeuralNet->Value( 0,  fNNInput[0],  fNNInput[1], fNNInput[2], fNNInput[3], fNNInput[4]);
-         double tof = (fNeuralNet->Value( 1,  fNNInput[0],  fNNInput[1], fNNInput[2], fNNInput[3], fNNInput[4]) + maxrev )*256 ;
+         double tof = (fNeuralNet->Value( 1,  fNNInput[0],  fNNInput[1], fNNInput[2], fNNInput[3], fNNInput[4]) + maxrev ) ;
 
 
          //      double tof = fNeuralNet->Value( 1,  fReversed[maxrev-2]/maxamp, fReversed[maxrev -1]/maxamp,  fReversed[maxrev]/maxamp, fReversed[maxrev+1]/maxamp, fReversed[maxrev+2]/maxamp);