CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_2_7_hltpatch2/src/RecoBTag/SoftLepton/plugins/ElectronIdMLP.cc

Go to the documentation of this file.
00001 #include "ElectronIdMLP.h"
00002 #include <cmath>
00003 
00004 double ElectronIdMLP::value(int index,double in0,double in1,double in2,double in3,double in4,double in5,double in6,double in7,double in8) {
00005    input0 = (in0 - 0)/1;
00006    input1 = (in1 - 0)/1;
00007    input2 = (in2 - 0)/1;
00008    input3 = (in3 - 0)/1;
00009    input4 = (in4 - 0)/1;
00010    input5 = (in5 - 0)/1;
00011    input6 = (in6 - 0)/1;
00012    input7 = (in7 - 0)/1;
00013    input8 = (in8 - 0)/1;
00014    switch(index) {
00015      case 0:
00016          return ((neuron0x9f46aa8()*1)+0);
00017      default:
00018          return 0.;
00019    }
00020 }
00021 
00022 double ElectronIdMLP::neuron0x9f43138() {
00023    return input0;
00024 }
00025 
00026 double ElectronIdMLP::neuron0x9f432c8() {
00027    return input1;
00028 }
00029 
00030 double ElectronIdMLP::neuron0x9f434a0() {
00031    return input2;
00032 }
00033 
00034 double ElectronIdMLP::neuron0x9f43698() {
00035    return input3;
00036 }
00037 
00038 double ElectronIdMLP::neuron0x9f43870() {
00039    return input4;
00040 }
00041 
00042 double ElectronIdMLP::neuron0x9f43a48() {
00043    return input5;
00044 }
00045 
00046 double ElectronIdMLP::neuron0x9f43c20() {
00047    return input6;
00048 }
00049 
00050 double ElectronIdMLP::neuron0x9f43e10() {
00051    return input7;
00052 }
00053 
00054 double ElectronIdMLP::neuron0x9f44008() {
00055    return input8;
00056 }
00057 
00058 double ElectronIdMLP::input0x9f44320() {
00059    double input = -1.22145;
00060    input += synapse0x9f24e98();
00061    input += synapse0x9f444b0();
00062    input += synapse0x9f444d8();
00063    input += synapse0x9f44500();
00064    input += synapse0x9f44528();
00065    input += synapse0x9f44550();
00066    input += synapse0x9f44578();
00067    input += synapse0x9f445a0();
00068    input += synapse0x9f445c8();
00069    return input;
00070 }
00071 
00072 double ElectronIdMLP::neuron0x9f44320() {
00073    double input = input0x9f44320();
00074    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00075 }
00076 
00077 double ElectronIdMLP::input0x9f445f0() {
00078    double input = -2.3169;
00079    input += synapse0x9f447c8();
00080    input += synapse0x9f447f0();
00081    input += synapse0x9f44818();
00082    input += synapse0x9f44840();
00083    input += synapse0x9f44868();
00084    input += synapse0x9f44890();
00085    input += synapse0x9f448b8();
00086    input += synapse0x9f448e0();
00087    input += synapse0x9f44990();
00088    return input;
00089 }
00090 
00091 double ElectronIdMLP::neuron0x9f445f0() {
00092    double input = input0x9f445f0();
00093    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00094 }
00095 
00096 double ElectronIdMLP::input0x9f449b8() {
00097    double input = 0.497047;
00098    input += synapse0x9f44b48();
00099    input += synapse0x9f44b70();
00100    input += synapse0x9f44b98();
00101    input += synapse0x9f44bc0();
00102    input += synapse0x9f44be8();
00103    input += synapse0x9f44c10();
00104    input += synapse0x9f44c38();
00105    input += synapse0x9f44c60();
00106    input += synapse0x9f44c88();
00107    return input;
00108 }
00109 
00110 double ElectronIdMLP::neuron0x9f449b8() {
00111    double input = input0x9f449b8();
00112    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00113 }
00114 
00115 double ElectronIdMLP::input0x9f44cb0() {
00116    double input = -3.54065;
00117    input += synapse0x9f44e88();
00118    input += synapse0x9f44eb0();
00119    input += synapse0x9f44ed8();
00120    input += synapse0x9f44f00();
00121    input += synapse0x9f44f28();
00122    input += synapse0x9f44f50();
00123    input += synapse0x9f44908();
00124    input += synapse0x9f44930();
00125    input += synapse0x9f44958();
00126    return input;
00127 }
00128 
00129 double ElectronIdMLP::neuron0x9f44cb0() {
00130    double input = input0x9f44cb0();
00131    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00132 }
00133 
00134 double ElectronIdMLP::input0x9f45080() {
00135    double input = -2.10164;
00136    input += synapse0x9f45258();
00137    input += synapse0x9f45280();
00138    input += synapse0x9f452a8();
00139    input += synapse0x9f452d0();
00140    input += synapse0x9f452f8();
00141    input += synapse0x9f45320();
00142    input += synapse0x9f45348();
00143    input += synapse0x9f45370();
00144    input += synapse0x9f45398();
00145    return input;
00146 }
00147 
00148 double ElectronIdMLP::neuron0x9f45080() {
00149    double input = input0x9f45080();
00150    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00151 }
00152 
00153 double ElectronIdMLP::input0x9f453c0() {
00154    double input = 0.540837;
00155    input += synapse0x9f455b8();
00156    input += synapse0x9f455e0();
00157    input += synapse0x9f45608();
00158    input += synapse0x9f45630();
00159    input += synapse0x9f45658();
00160    input += synapse0x9f45680();
00161    input += synapse0x9f456a8();
00162    input += synapse0x9f456d0();
00163    input += synapse0x9f456f8();
00164    return input;
00165 }
00166 
00167 double ElectronIdMLP::neuron0x9f453c0() {
00168    double input = input0x9f453c0();
00169    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00170 }
00171 
00172 double ElectronIdMLP::input0x9f45720() {
00173    double input = 0.568144;
00174    input += synapse0x9f45918();
00175    input += synapse0x9f45940();
00176    input += synapse0x9f45968();
00177    input += synapse0x9f45990();
00178    input += synapse0x9f459b8();
00179    input += synapse0x9f459e0();
00180    input += synapse0x9f45a08();
00181    input += synapse0x9f45a30();
00182    input += synapse0x9f45a58();
00183    return input;
00184 }
00185 
00186 double ElectronIdMLP::neuron0x9f45720() {
00187    double input = input0x9f45720();
00188    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00189 }
00190 
00191 double ElectronIdMLP::input0x9f45a80() {
00192    double input = -0.779783;
00193    input += synapse0x9f45d00();
00194    input += synapse0x9f45d28();
00195    input += synapse0x9f24ec0();
00196    input += synapse0x9ea6a58();
00197    input += synapse0x9ea69e0();
00198    input += synapse0x9ca2f20();
00199    input += synapse0x9e985c0();
00200    input += synapse0x9e985e8();
00201    input += synapse0x9e98610();
00202    return input;
00203 }
00204 
00205 double ElectronIdMLP::neuron0x9f45a80() {
00206    double input = input0x9f45a80();
00207    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00208 }
00209 
00210 double ElectronIdMLP::input0x9f44f78() {
00211    double input = 0.146916;
00212    input += synapse0x9ea6b70();
00213    input += synapse0x9f45f58();
00214    input += synapse0x9f45f80();
00215    input += synapse0x9f45fa8();
00216    input += synapse0x9f45fd0();
00217    input += synapse0x9f45ff8();
00218    input += synapse0x9f46020();
00219    input += synapse0x9f46048();
00220    input += synapse0x9f46070();
00221    return input;
00222 }
00223 
00224 double ElectronIdMLP::neuron0x9f44f78() {
00225    double input = input0x9f44f78();
00226    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00227 }
00228 
00229 double ElectronIdMLP::input0x9f46098() {
00230    double input = -0.350685;
00231    input += synapse0x9f46270();
00232    input += synapse0x9f46298();
00233    input += synapse0x9f462c0();
00234    input += synapse0x9f462e8();
00235    input += synapse0x9f46310();
00236    input += synapse0x9f46338();
00237    input += synapse0x9f46360();
00238    input += synapse0x9f46388();
00239    input += synapse0x9f463b0();
00240    return input;
00241 }
00242 
00243 double ElectronIdMLP::neuron0x9f46098() {
00244    double input = input0x9f46098();
00245    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00246 }
00247 
00248 double ElectronIdMLP::input0x9f463d8() {
00249    double input = 1.71591;
00250    input += synapse0x9f465d8();
00251    input += synapse0x9f46600();
00252    input += synapse0x9f46628();
00253    input += synapse0x9f46650();
00254    input += synapse0x9f46678();
00255    input += synapse0x9f466a0();
00256    input += synapse0x9f466c8();
00257    input += synapse0x9f466f0();
00258    input += synapse0x9f46718();
00259    return input;
00260 }
00261 
00262 double ElectronIdMLP::neuron0x9f463d8() {
00263    double input = input0x9f463d8();
00264    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00265 }
00266 
00267 double ElectronIdMLP::input0x9f46740() {
00268    double input = -1.70461;
00269    input += synapse0x9f46940();
00270    input += synapse0x9f46968();
00271    input += synapse0x9f46990();
00272    input += synapse0x9f469b8();
00273    input += synapse0x9f469e0();
00274    input += synapse0x9f46a08();
00275    input += synapse0x9f46a30();
00276    input += synapse0x9f46a58();
00277    input += synapse0x9f46a80();
00278    return input;
00279 }
00280 
00281 double ElectronIdMLP::neuron0x9f46740() {
00282    double input = input0x9f46740();
00283    return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
00284 }
00285 
00286 double ElectronIdMLP::input0x9f46aa8() {
00287    double input = 0.345943;
00288    input += synapse0x9f46ca0();
00289    input += synapse0x9f46cc8();
00290    input += synapse0x9f46cf0();
00291    input += synapse0x9f46d18();
00292    input += synapse0x9f46d40();
00293    input += synapse0x9f46d68();
00294    input += synapse0x9f46d90();
00295    input += synapse0x9f46db8();
00296    input += synapse0x9f46de0();
00297    input += synapse0x9f46e08();
00298    input += synapse0x9f46e30();
00299    input += synapse0x9f46e58();
00300    return input;
00301 }
00302 
00303 double ElectronIdMLP::neuron0x9f46aa8() {
00304    double input = input0x9f46aa8();
00305    return (input * 1)+0;
00306 }
00307 
00308 double ElectronIdMLP::synapse0x9f24e98() {
00309    return (neuron0x9f43138()*0.879971);
00310 }
00311 
00312 double ElectronIdMLP::synapse0x9f444b0() {
00313    return (neuron0x9f432c8()*0.0961671);
00314 }
00315 
00316 double ElectronIdMLP::synapse0x9f444d8() {
00317    return (neuron0x9f434a0()*1.66153);
00318 }
00319 
00320 double ElectronIdMLP::synapse0x9f44500() {
00321    return (neuron0x9f43698()*0.321611);
00322 }
00323 
00324 double ElectronIdMLP::synapse0x9f44528() {
00325    return (neuron0x9f43870()*1.12196);
00326 }
00327 
00328 double ElectronIdMLP::synapse0x9f44550() {
00329    return (neuron0x9f43a48()*-5.17401);
00330 }
00331 
00332 double ElectronIdMLP::synapse0x9f44578() {
00333    return (neuron0x9f43c20()*4.4513);
00334 }
00335 
00336 double ElectronIdMLP::synapse0x9f445a0() {
00337    return (neuron0x9f43e10()*-1.27001);
00338 }
00339 
00340 double ElectronIdMLP::synapse0x9f445c8() {
00341    return (neuron0x9f44008()*-10.3839);
00342 }
00343 
00344 double ElectronIdMLP::synapse0x9f447c8() {
00345    return (neuron0x9f43138()*0.284838);
00346 }
00347 
00348 double ElectronIdMLP::synapse0x9f447f0() {
00349    return (neuron0x9f432c8()*0.0613191);
00350 }
00351 
00352 double ElectronIdMLP::synapse0x9f44818() {
00353    return (neuron0x9f434a0()*0.0915991);
00354 }
00355 
00356 double ElectronIdMLP::synapse0x9f44840() {
00357    return (neuron0x9f43698()*-0.549085);
00358 }
00359 
00360 double ElectronIdMLP::synapse0x9f44868() {
00361    return (neuron0x9f43870()*-0.388214);
00362 }
00363 
00364 double ElectronIdMLP::synapse0x9f44890() {
00365    return (neuron0x9f43a48()*1.82147);
00366 }
00367 
00368 double ElectronIdMLP::synapse0x9f448b8() {
00369    return (neuron0x9f43c20()*4.79833);
00370 }
00371 
00372 double ElectronIdMLP::synapse0x9f448e0() {
00373    return (neuron0x9f43e10()*-1.77169);
00374 }
00375 
00376 double ElectronIdMLP::synapse0x9f44990() {
00377    return (neuron0x9f44008()*-3.25212);
00378 }
00379 
00380 double ElectronIdMLP::synapse0x9f44b48() {
00381    return (neuron0x9f43138()*1.08682);
00382 }
00383 
00384 double ElectronIdMLP::synapse0x9f44b70() {
00385    return (neuron0x9f432c8()*0.0571666);
00386 }
00387 
00388 double ElectronIdMLP::synapse0x9f44b98() {
00389    return (neuron0x9f434a0()*-1.90535);
00390 }
00391 
00392 double ElectronIdMLP::synapse0x9f44bc0() {
00393    return (neuron0x9f43698()*-2.15635);
00394 }
00395 
00396 double ElectronIdMLP::synapse0x9f44be8() {
00397    return (neuron0x9f43870()*-1.183);
00398 }
00399 
00400 double ElectronIdMLP::synapse0x9f44c10() {
00401    return (neuron0x9f43a48()*-1.53323);
00402 }
00403 
00404 double ElectronIdMLP::synapse0x9f44c38() {
00405    return (neuron0x9f43c20()*1.59348);
00406 }
00407 
00408 double ElectronIdMLP::synapse0x9f44c60() {
00409    return (neuron0x9f43e10()*-0.834021);
00410 }
00411 
00412 double ElectronIdMLP::synapse0x9f44c88() {
00413    return (neuron0x9f44008()*-1.08357);
00414 }
00415 
00416 double ElectronIdMLP::synapse0x9f44e88() {
00417    return (neuron0x9f43138()*-0.959033);
00418 }
00419 
00420 double ElectronIdMLP::synapse0x9f44eb0() {
00421    return (neuron0x9f432c8()*0.150702);
00422 }
00423 
00424 double ElectronIdMLP::synapse0x9f44ed8() {
00425    return (neuron0x9f434a0()*0.603047);
00426 }
00427 
00428 double ElectronIdMLP::synapse0x9f44f00() {
00429    return (neuron0x9f43698()*0.766931);
00430 }
00431 
00432 double ElectronIdMLP::synapse0x9f44f28() {
00433    return (neuron0x9f43870()*1.33327);
00434 }
00435 
00436 double ElectronIdMLP::synapse0x9f44f50() {
00437    return (neuron0x9f43a48()*0.397085);
00438 }
00439 
00440 double ElectronIdMLP::synapse0x9f44908() {
00441    return (neuron0x9f43c20()*2.83518);
00442 }
00443 
00444 double ElectronIdMLP::synapse0x9f44930() {
00445    return (neuron0x9f43e10()*2.53477);
00446 }
00447 
00448 double ElectronIdMLP::synapse0x9f44958() {
00449    return (neuron0x9f44008()*-1.20442);
00450 }
00451 
00452 double ElectronIdMLP::synapse0x9f45258() {
00453    return (neuron0x9f43138()*-0.0646114);
00454 }
00455 
00456 double ElectronIdMLP::synapse0x9f45280() {
00457    return (neuron0x9f432c8()*-0.330255);
00458 }
00459 
00460 double ElectronIdMLP::synapse0x9f452a8() {
00461    return (neuron0x9f434a0()*-1.87624);
00462 }
00463 
00464 double ElectronIdMLP::synapse0x9f452d0() {
00465    return (neuron0x9f43698()*-0.872878);
00466 }
00467 
00468 double ElectronIdMLP::synapse0x9f452f8() {
00469    return (neuron0x9f43870()*0.789821);
00470 }
00471 
00472 double ElectronIdMLP::synapse0x9f45320() {
00473    return (neuron0x9f43a48()*2.97713);
00474 }
00475 
00476 double ElectronIdMLP::synapse0x9f45348() {
00477    return (neuron0x9f43c20()*3.70241);
00478 }
00479 
00480 double ElectronIdMLP::synapse0x9f45370() {
00481    return (neuron0x9f43e10()*2.25345);
00482 }
00483 
00484 double ElectronIdMLP::synapse0x9f45398() {
00485    return (neuron0x9f44008()*9.12485);
00486 }
00487 
00488 double ElectronIdMLP::synapse0x9f455b8() {
00489    return (neuron0x9f43138()*-1.76594);
00490 }
00491 
00492 double ElectronIdMLP::synapse0x9f455e0() {
00493    return (neuron0x9f432c8()*0.325989);
00494 }
00495 
00496 double ElectronIdMLP::synapse0x9f45608() {
00497    return (neuron0x9f434a0()*-1.57176);
00498 }
00499 
00500 double ElectronIdMLP::synapse0x9f45630() {
00501    return (neuron0x9f43698()*-1.49181);
00502 }
00503 
00504 double ElectronIdMLP::synapse0x9f45658() {
00505    return (neuron0x9f43870()*-0.436626);
00506 }
00507 
00508 double ElectronIdMLP::synapse0x9f45680() {
00509    return (neuron0x9f43a48()*-0.415296);
00510 }
00511 
00512 double ElectronIdMLP::synapse0x9f456a8() {
00513    return (neuron0x9f43c20()*0.686166);
00514 }
00515 
00516 double ElectronIdMLP::synapse0x9f456d0() {
00517    return (neuron0x9f43e10()*1.197);
00518 }
00519 
00520 double ElectronIdMLP::synapse0x9f456f8() {
00521    return (neuron0x9f44008()*1.08228);
00522 }
00523 
00524 double ElectronIdMLP::synapse0x9f45918() {
00525    return (neuron0x9f43138()*0.6264);
00526 }
00527 
00528 double ElectronIdMLP::synapse0x9f45940() {
00529    return (neuron0x9f432c8()*-0.0527889);
00530 }
00531 
00532 double ElectronIdMLP::synapse0x9f45968() {
00533    return (neuron0x9f434a0()*0.0420227);
00534 }
00535 
00536 double ElectronIdMLP::synapse0x9f45990() {
00537    return (neuron0x9f43698()*-0.503423);
00538 }
00539 
00540 double ElectronIdMLP::synapse0x9f459b8() {
00541    return (neuron0x9f43870()*0.015745);
00542 }
00543 
00544 double ElectronIdMLP::synapse0x9f459e0() {
00545    return (neuron0x9f43a48()*-2.27786);
00546 }
00547 
00548 double ElectronIdMLP::synapse0x9f45a08() {
00549    return (neuron0x9f43c20()*-2.78804);
00550 }
00551 
00552 double ElectronIdMLP::synapse0x9f45a30() {
00553    return (neuron0x9f43e10()*0.278226);
00554 }
00555 
00556 double ElectronIdMLP::synapse0x9f45a58() {
00557    return (neuron0x9f44008()*1.43897);
00558 }
00559 
00560 double ElectronIdMLP::synapse0x9f45d00() {
00561    return (neuron0x9f43138()*-0.113819);
00562 }
00563 
00564 double ElectronIdMLP::synapse0x9f45d28() {
00565    return (neuron0x9f432c8()*-0.526026);
00566 }
00567 
00568 double ElectronIdMLP::synapse0x9f24ec0() {
00569    return (neuron0x9f434a0()*0.280854);
00570 }
00571 
00572 double ElectronIdMLP::synapse0x9ea6a58() {
00573    return (neuron0x9f43698()*-0.565832);
00574 }
00575 
00576 double ElectronIdMLP::synapse0x9ea69e0() {
00577    return (neuron0x9f43870()*-4.1776);
00578 }
00579 
00580 double ElectronIdMLP::synapse0x9ca2f20() {
00581    return (neuron0x9f43a48()*2.4344);
00582 }
00583 
00584 double ElectronIdMLP::synapse0x9e985c0() {
00585    return (neuron0x9f43c20()*1.19602);
00586 }
00587 
00588 double ElectronIdMLP::synapse0x9e985e8() {
00589    return (neuron0x9f43e10()*3.02645);
00590 }
00591 
00592 double ElectronIdMLP::synapse0x9e98610() {
00593    return (neuron0x9f44008()*-0.38682);
00594 }
00595 
00596 double ElectronIdMLP::synapse0x9ea6b70() {
00597    return (neuron0x9f43138()*-2.22478);
00598 }
00599 
00600 double ElectronIdMLP::synapse0x9f45f58() {
00601    return (neuron0x9f432c8()*0.203476);
00602 }
00603 
00604 double ElectronIdMLP::synapse0x9f45f80() {
00605    return (neuron0x9f434a0()*2.45698);
00606 }
00607 
00608 double ElectronIdMLP::synapse0x9f45fa8() {
00609    return (neuron0x9f43698()*0.938005);
00610 }
00611 
00612 double ElectronIdMLP::synapse0x9f45fd0() {
00613    return (neuron0x9f43870()*-0.155581);
00614 }
00615 
00616 double ElectronIdMLP::synapse0x9f45ff8() {
00617    return (neuron0x9f43a48()*-1.84449);
00618 }
00619 
00620 double ElectronIdMLP::synapse0x9f46020() {
00621    return (neuron0x9f43c20()*1.62976);
00622 }
00623 
00624 double ElectronIdMLP::synapse0x9f46048() {
00625    return (neuron0x9f43e10()*-1.3476);
00626 }
00627 
00628 double ElectronIdMLP::synapse0x9f46070() {
00629    return (neuron0x9f44008()*-5.67653);
00630 }
00631 
00632 double ElectronIdMLP::synapse0x9f46270() {
00633    return (neuron0x9f43138()*-1.1783);
00634 }
00635 
00636 double ElectronIdMLP::synapse0x9f46298() {
00637    return (neuron0x9f432c8()*0.919324);
00638 }
00639 
00640 double ElectronIdMLP::synapse0x9f462c0() {
00641    return (neuron0x9f434a0()*0.100647);
00642 }
00643 
00644 double ElectronIdMLP::synapse0x9f462e8() {
00645    return (neuron0x9f43698()*1.14597);
00646 }
00647 
00648 double ElectronIdMLP::synapse0x9f46310() {
00649    return (neuron0x9f43870()*-0.270844);
00650 }
00651 
00652 double ElectronIdMLP::synapse0x9f46338() {
00653    return (neuron0x9f43a48()*0.982664);
00654 }
00655 
00656 double ElectronIdMLP::synapse0x9f46360() {
00657    return (neuron0x9f43c20()*1.50571);
00658 }
00659 
00660 double ElectronIdMLP::synapse0x9f46388() {
00661    return (neuron0x9f43e10()*-1.14533);
00662 }
00663 
00664 double ElectronIdMLP::synapse0x9f463b0() {
00665    return (neuron0x9f44008()*4.69291);
00666 }
00667 
00668 double ElectronIdMLP::synapse0x9f465d8() {
00669    return (neuron0x9f43138()*0.105787);
00670 }
00671 
00672 double ElectronIdMLP::synapse0x9f46600() {
00673    return (neuron0x9f432c8()*0.460172);
00674 }
00675 
00676 double ElectronIdMLP::synapse0x9f46628() {
00677    return (neuron0x9f434a0()*0.138901);
00678 }
00679 
00680 double ElectronIdMLP::synapse0x9f46650() {
00681    return (neuron0x9f43698()*1.72831);
00682 }
00683 
00684 double ElectronIdMLP::synapse0x9f46678() {
00685    return (neuron0x9f43870()*-1.36692);
00686 }
00687 
00688 double ElectronIdMLP::synapse0x9f466a0() {
00689    return (neuron0x9f43a48()*3.09794);
00690 }
00691 
00692 double ElectronIdMLP::synapse0x9f466c8() {
00693    return (neuron0x9f43c20()*0.170757);
00694 }
00695 
00696 double ElectronIdMLP::synapse0x9f466f0() {
00697    return (neuron0x9f43e10()*3.36054);
00698 }
00699 
00700 double ElectronIdMLP::synapse0x9f46718() {
00701    return (neuron0x9f44008()*5.85824);
00702 }
00703 
00704 double ElectronIdMLP::synapse0x9f46940() {
00705    return (neuron0x9f43138()*0.77873);
00706 }
00707 
00708 double ElectronIdMLP::synapse0x9f46968() {
00709    return (neuron0x9f432c8()*0.0264436);
00710 }
00711 
00712 double ElectronIdMLP::synapse0x9f46990() {
00713    return (neuron0x9f434a0()*0.86123);
00714 }
00715 
00716 double ElectronIdMLP::synapse0x9f469b8() {
00717    return (neuron0x9f43698()*1.8242);
00718 }
00719 
00720 double ElectronIdMLP::synapse0x9f469e0() {
00721    return (neuron0x9f43870()*3.66502);
00722 }
00723 
00724 double ElectronIdMLP::synapse0x9f46a08() {
00725    return (neuron0x9f43a48()*-0.182076);
00726 }
00727 
00728 double ElectronIdMLP::synapse0x9f46a30() {
00729    return (neuron0x9f43c20()*0.59582);
00730 }
00731 
00732 double ElectronIdMLP::synapse0x9f46a58() {
00733    return (neuron0x9f43e10()*0.667454);
00734 }
00735 
00736 double ElectronIdMLP::synapse0x9f46a80() {
00737    return (neuron0x9f44008()*1.1529);
00738 }
00739 
00740 double ElectronIdMLP::synapse0x9f46ca0() {
00741    return (neuron0x9f44320()*-3.27612);
00742 }
00743 
00744 double ElectronIdMLP::synapse0x9f46cc8() {
00745    return (neuron0x9f445f0()*-2.11621);
00746 }
00747 
00748 double ElectronIdMLP::synapse0x9f46cf0() {
00749    return (neuron0x9f449b8()*-4.88221);
00750 }
00751 
00752 double ElectronIdMLP::synapse0x9f46d18() {
00753    return (neuron0x9f44cb0()*1.89605);
00754 }
00755 
00756 double ElectronIdMLP::synapse0x9f46d40() {
00757    return (neuron0x9f45080()*-1.18343);
00758 }
00759 
00760 double ElectronIdMLP::synapse0x9f46d68() {
00761    return (neuron0x9f453c0()*5.41139);
00762 }
00763 
00764 double ElectronIdMLP::synapse0x9f46d90() {
00765    return (neuron0x9f45720()*-3.83221);
00766 }
00767 
00768 double ElectronIdMLP::synapse0x9f46db8() {
00769    return (neuron0x9f45a80()*-0.743994);
00770 }
00771 
00772 double ElectronIdMLP::synapse0x9f46de0() {
00773    return (neuron0x9f44f78()*7.23992);
00774 }
00775 
00776 double ElectronIdMLP::synapse0x9f46e08() {
00777    return (neuron0x9f46098()*2.98399);
00778 }
00779 
00780 double ElectronIdMLP::synapse0x9f46e30() {
00781    return (neuron0x9f463d8()*-1.92682);
00782 }
00783 
00784 double ElectronIdMLP::synapse0x9f46e58() {
00785    return (neuron0x9f46740()*-3.21289);
00786 }
00787 
00788