 enter npoints,number_propagators,rank,scaloop,muscale,    thrs
     
 scaloop= 1 -> looptools 1-loop 
 scaloop= 2 -> avh 1-loop (massive with complex masses)
 scaloop= 3 -> qcdloop   1-loop (Ellis and Zanderighi)
 muscale (dimension of energy) is the scale
 for the 1-loop integrals
     
  
 ----------------------------------------------------- 
 |  You are using CutTools - Version 1.6.5           | 
 |  Authors: G. Ossola, C. Papadopoulos, R. Pittau   | 
 |  Published in JHEP 0803:042,2008                  | 
 |  http://www.ugr.es/~pittau/CutTools               | 
 ----------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop 1.1                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren <hamerenREMOVETHIS@ifj.edu.pl>           #
#   date: 09-09-2010                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren, arXiv:1007.4716 [hep-ph]                          #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#    JHEP 0909:106,2009, arXiv:0903.4665 [hep-ph]                      #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 MESSAGE from avh_olo_mu_set: scale (mu, not mu^2) set to:   1.0000000000000000     
 MESSAGE from avh_olo_prec: precision set to  2.22044604925031308E-016
 MESSAGE from avh_olo_onshell: threshold set to:  9.99999999999999955E-007
                
   iter=            1
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  66986.661878222425     ,  30204.675006605747     )
  coeff of 1/eps   pole amp(1)= (  15203.348014591022     , -34572.944510652873     )
  coeff of 1/eps^2 pole amp(2)= ( -11598.560436479747     ,-1.90330181014839156E-008)
                           R_1= (  16306.100411588006     , 4.40641872544352518E-003)
                    amp(0)+R_1= (  83292.762289810431     ,  30204.679413024471     )
                        stable= T
                
                
   iter=            2
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -158615.82028543786     , -43486.615291962749     )
  coeff of 1/eps   pole amp(1)= ( -38118.573181631655     ,  54297.083675889284     )
  coeff of 1/eps^2 pole amp(2)= (  15729.580352898738     ,-1.53059651079065400E-009)
                           R_1= ( -33941.302754997807     ,-2.08724688534972143E-005)
                    amp(0)+R_1= ( -192557.12304043566     , -43486.615312835216     )
                        stable= T
                
                
   iter=            3
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  245871.37723552180     ,  373131.39436406991     )
  coeff of 1/eps   pole amp(1)= (  134120.44495548093     , -128612.32650445690     )
  coeff of 1/eps^2 pole amp(2)= ( -42227.315483081358     , 4.02399216596017627E-009)
                           R_1= ( -5927.5177480351995     ,-8.44920736973284029E-004)
                    amp(0)+R_1= (  239943.85948748660     ,  373131.39351914916     )
                        stable= T
                
                
   iter=            4
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  1935935.7546259956     ,  5258270.1571083702     )
  coeff of 1/eps   pole amp(1)= (  1668042.5525079847     , -2992941.9103881605     )
  coeff of 1/eps^2 pole amp(2)= ( -952727.92848031549     ,-2.36853330848316205E-009)
                           R_1= (  44643.708391288077     ,-7.02599298683809497E-005)
                    amp(0)+R_1= (  1980579.4630172837     ,  5258270.1570381103     )
                        stable= T
                
                
   iter=            5
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -77120.665156360221     ,  22110.595500399471     )
  coeff of 1/eps   pole amp(1)= ( -272.21576028350319     ,  529.46729058732376     )
  coeff of 1/eps^2 pole amp(2)= (  146.83332972228527     , 3.52576142710983341E-010)
                           R_1= (  90700.911863716596     ,-2.65245516055774610E-004)
                    amp(0)+R_1= (  13580.246707356375     ,  22110.595235153956     )
                        stable= T
                
                
   iter=            6
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  169048.51332326673     ,  2026758.0020555954     )
  coeff of 1/eps   pole amp(1)= (  674703.52991412103     , -692321.69753910240     )
  coeff of 1/eps^2 pole amp(2)= ( -220688.84384648909     , 1.00952932612617270E-008)
                           R_1= ( -109947.58242534118     ,-3.26362768580928844E-004)
                    amp(0)+R_1= (  59100.930897925544     ,  2026758.0017292327     )
                        stable= T
                
                
   iter=            7
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -105931.71662873964     , -44951.777226921571     )
  coeff of 1/eps   pole amp(1)= ( -48337.343748847248     ,  40891.079738695124     )
  coeff of 1/eps^2 pole amp(2)= (  12978.613763794034     ,-3.66131729816952943E-009)
                           R_1= (  36300.020332922082     ,-6.31819955336803443E-006)
                    amp(0)+R_1= ( -69631.696295817557     , -44951.777233239773     )
                        stable= T
                
                
   iter=            8
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -14817673.199283579     ,  121431.32245400618     )
  coeff of 1/eps   pole amp(1)= (  44785.610235760134     , -48654.361339458294     )
  coeff of 1/eps^2 pole amp(2)= ( -15537.459594887250     ,-7.41922373438465387E-010)
                           R_1= (  14884372.326179245     ,-1.28408181496824973E-005)
                    amp(0)+R_1= (  66699.126895666122     ,  121431.32244116536     )
                        stable= T
                
                
   iter=            9
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  101806.97584690817     , -77978.547650602064     )
  coeff of 1/eps   pole amp(1)= (  7250.1209570640349     , -9456.6939714657583     )
  coeff of 1/eps^2 pole amp(2)= ( -3049.3304183613354     ,-3.15186009635334112E-009)
                           R_1= ( -19386.665201379685     , 4.73462956116645588E-006)
                    amp(0)+R_1= (  82420.310645528487     , -77978.547645867438     )
                        stable= T
                
                
   iter=           10
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= ( -551208.07188758079     , -2199523.0926184775     )
  coeff of 1/eps   pole amp(1)= ( -744302.43747950171     ,  899136.53847921500     )
  coeff of 1/eps^2 pole amp(2)= (  286183.75926457345     , 2.08151501662738840E-008)
                           R_1= ( -79276.493226706865     , 1.66081745726293783E-004)
                    amp(0)+R_1= ( -630484.56511428766     , -2199523.0924523957     )
                        stable= T
                
 n_mp  =           0
 n_disc=           0
