 enter npoints,number_propagators,rank,scaloop,muscale
     
 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 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.4                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren <hamerenREMOVETHIS@ifj.edu.pl>           #
#   date: 02-01-2014                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
                
   iter=            1
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  172.54098280591393     ,  9.2741742833764338     )
  coeff of 1/eps   pole amp(1)= (-1.29930094461272461E-010,-5.82353331977294973E-011)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  59.401534026955090     ,  9.2741742851590576     )
                            R1= (  113.13944877895882     ,-1.78262353767166819E-009)
                        stable= T
                
                
   iter=            2
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  1018.3486368270835     ,  4.7046981766469802     )
  coeff of 1/eps   pole amp(1)= ( 8.06910094297563774E-013, 8.36390472279856567E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  1047.8902744465818     ,  4.7046981758669064     )
                            R1= ( -29.541637619498285     , 7.80073872164166439E-010)
                        stable= T
                
                
   iter=            3
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  532.51454673510932     ,  1136.6339828643675     )
  coeff of 1/eps   pole amp(1)= ( 4.28240776173538507E-012,-5.33660612209096735E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  575.52031805415788     ,  1136.6339828658611     )
                            R1= ( -43.005771319048520     ,-1.49365670942813738E-009)
                        stable= T
                
                
   iter=            4
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  3783.4094967596238     ,  4818.9436112145468     )
  coeff of 1/eps   pole amp(1)= (-2.54419041390008260E-010,-8.66468373609023221E-011)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  3709.7235661637696     ,  4818.9436112142521     )
                            R1= (  73.685930595854174     , 2.94603802464266189E-010)
                        stable= T
                
                
   iter=            5
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  72.659407398559892     , -253.35892493966261     )
  coeff of 1/eps   pole amp(1)= (-5.86235504584919909E-011, 2.22637600221522151E-011)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  70.058538081343798     , -253.35892493821697     )
                            R1= (  2.6008693172160910     ,-1.44565071025226644E-009)
                        stable= T
                
                
   iter=            6
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  601.51490618503192     ,  2432.1786077691268     )
  coeff of 1/eps   pole amp(1)= ( 1.36258226923757775E-011, 4.72451021139658928E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  634.96470285324131     ,  2432.1786077680590     )
                            R1= ( -33.449796668209430     , 1.06788835552151808E-009)
                        stable= T
                
                
   iter=            7
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  319.19223871123148     ,  128.57104986086225     )
  coeff of 1/eps   pole amp(1)= ( 1.34649513761075923E-011,-9.45319048482053492E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  266.26179844686311     ,  128.57104986056217     )
                            R1= (  52.930440264368386     , 3.00088487392713412E-010)
                        stable= T
                
                
   iter=            8
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  370.44079931090982     ,  219.70141804227779     )
  coeff of 1/eps   pole amp(1)= ( 6.80699940858175978E-012, 3.42940421858615535E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= ( -1630.4767096287308     ,  219.70141804083792     )
                            R1= (  2000.9175089396406     , 1.43988101442005237E-009)
                        stable= T
                
                
   iter=            9
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  186.45174650846457     , -125.50808863690608     )
  coeff of 1/eps   pole amp(1)= (-1.61635149709127290E-011, 7.77240192909552690E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  172.40937826199229     , -125.50808863702450     )
                            R1= (  14.042368246472293     , 1.18415144356731544E-010)
                        stable= T
                
                
   iter=           10
                
                
  Complete Amplitude (without r2):     
                
                
  finite part           amp(0)= (  2034.5062053944896     ,  2080.5011907844291     )
  coeff of 1/eps   pole amp(1)= ( 1.28071945409979904E-011, 4.18861682916749119E-012)
  coeff of 1/eps^2 pole amp(2)= (  0.0000000000000000     ,  0.0000000000000000     )
                         ampcc= (  1968.9813467150259     ,  2080.5011907859121     )
                            R1= (  65.524858679463790     ,-1.48270373756531626E-009)
                        stable= T
                
 n_tot =   10.000000000000000     
 n_mp  =   0.0000000000000000     
 n_unst=   0.0000000000000000     
