----------------------------------------------------------
-- SHERPA generates events with the following structure --
----------------------------------------------------------
Perturbative       : Signal_Processes
Perturbative       : Hard_Decays
Perturbative       : Jet_Evolution:CSS
Perturbative       : Lepton_FS_QED_Corrections:None
Perturbative       : Multiple_Interactions:None
Hadronization      : Beam_Remnants
Hadronization      : Hadronization:Off
Hadronization      : Hadron_Decays,Photons
Analysis           : Rivet
---------------------------------------------------------
Event_Handler::GenerateEvent(): run 'Signal_Processes'
Jet_Finder::Trigger(): '2_4__u__cb__u__cb__s__sb' Q_cut = 10 {
  (2)[u] -> 47.2593
  (3)[cb] -> 25.0513
  (4)[s] -> 36.347
  (5)[sb] -> 9.98219
  level = 1 {
    (0)[ub] & (2)[u] <-> (1)[c], qcut = 10, ptjk = 30.8064 (1)
    (0)[ub] & (2)[u] <-> (3)[cb], qcut = 10, ptjk = 30.2104 (1)
    (0)[ub] & (2)[u] <-> (4)[s], qcut = 10, ptjk = 33.018 (1)
    (0)[ub] & (2)[u] <-> (5)[sb], qcut = 10, ptjk = 37.4155 (1)
    (1)[c] & (3)[cb] <-> (0)[ub], qcut = 10, ptjk = 52.2386 (1)
    (1)[c] & (3)[cb] <-> (2)[u], qcut = 10, ptjk = 50.9557 (1)
    (1)[c] & (3)[cb] <-> (4)[s], qcut = 10, ptjk = 55.9287 (1)
    (1)[c] & (3)[cb] <-> (5)[sb], qcut = 10, ptjk = 52.5663 (1)
    (4)[s] & (5)[sb] <-> (0)[ub], qcut = 10, ptjk = 41.0252 (1)
    (4)[s] & (5)[sb] <-> (1)[c], qcut = 10, ptjk = 41.0252 (1)
    (4)[s] & (5)[sb] <-> (2)[u], qcut = 10, ptjk = 41.0252 (1)
    (4)[s] & (5)[sb] <-> (3)[cb], qcut = 10, ptjk = 41.0252 (1)
  }
}
Assign '2_4__u__cb__u__cb__s__sb' 'O(QCD)=4'
Actual = (0x212d8430)[0]: 2 -> 4 {
  \mu_r = 0, \mu_f = 0
  x_1 = 0.253467, x_2 = 0.0504744
  k_{T,QCD} = 0, (R/B)_{max} = 1
  oew = 0, oqcd = 0, kin = 0
  swap = 0, new = (<no entry>)
           (0)          ub (-248.398,-0,-0,-248.398) (0,3) [0|0,0]
           (1)           c (-49.4649,-0,-0,49.4649) (1,0) [0|0,0]
           (2)           u (216.327,-29.613,36.8309,211.101) (3,0) [0|0,0]
           (3)          cb (25.7205,25.0505,0.200163,-5.82926) (0,1) [0|0,0]
           (4)           s (37.4602,13.9267,-33.5731,9.06444) (3,0) [0|0,0]
           (5)          sb (18.3553,-9.36411,-3.45796,-15.4036) (0,3) [0|0,0]
}
Cluster G (4) & (5) <-> (1) => 9.71688 (0.043601) <-> 0
Vetoed P = (0) & (2) <-> (4,5)
Vetoed Z = (0) & (2) <-> (4,5)
Vetoed ub = (0) & (4,5) <-> (1)
Vetoed ub = (0) & (4,5) <-> (3)
Vetoed c = (1) & (4,5) <-> (0)
Vetoed c = (1) & (4,5) <-> (2)
Vetoed u = (2) & (4,5) <-> (1)
Vetoed u = (2) & (4,5) <-> (3)
Vetoed cb = (3) & (4,5) <-> (0)
Vetoed cb = (3) & (4,5) <-> (2)
Actual = (0x212cfcf0)[0]: 2 -> 3 {
  \mu_r = 0, \mu_f = 0
  x_1 = 0.253467, x_2 = 0.0331184
  k_{T,QCD} = 9.71688, (R/B)_{max} = 1
  oew = 0, oqcd = 0, kin = 0
  swap = 0, new = (<no entry>)
           (0)          ub (-248.398,-3.26183e-16,2.60947e-15,-248.398) (0,3) [0|0,0]
           (1)           c (-32.4561,3.26183e-16,-2.60947e-15,32.4561) (1,0) [0|0,0]
           (2)           u (216.327,-29.613,36.8309,211.101) (3,0) [0|0,0]
           (3)          cb (25.7205,25.0505,0.200163,-5.82926) (0,1) [0|0,0]
         (4,5)           G (38.8067,4.56256,-37.0311,10.6696) (3,3) [0|0,0]
}
Cluster cb (3) & (4,5) <-> (1) => 19.7486 (0.0198592) <-> 9.71688
Core = (0x212d8530)[0]: 2 -> 2 {
  \mu_r = 0, \mu_f = 0
  x_1 = 0.253467, x_2 = 0.0190932
  k_{T,QCD} = 19.7486, (R/B)_{max} = 1
  oew = 0, oqcd = 0, kin = 0
  swap = 0, new = (<no entry>)
           (0)          ub (-248.398,-8.68906e-15,1.65476e-14,-248.398) (0,3) [0|0,0]
           (1)           c (-18.7113,8.36287e-15,-1.39381e-14,18.7113) (1,0) [0|0,0]
           (2)           u (216.327,-29.613,36.8309,211.101) (3,0) [0|0,0]
       (3,4,5)          cb (50.7824,29.613,-36.8309,18.5852) (0,1) [0|0,0]
}
QCD scale = 47.2593
Set \mu_r = 5, \mu_f = 47.2593
Assign '2_4__u__cb__u__cb__s__sb' 'O(QCD)=4'
METS_KFactor_Setter::KFactor(): 2_4__u__cb__u__cb__s__sb (6,4) {
  \mu_{fac}   = 47.2593
  \mu_{ren}   = 5
} -> as = 0.213459 => K = 44.0931
csum: me = 0.00236047 / 9.10171e-05, ps = 11.9937, p[2] = (216.327,-29.613,36.8309,211.101) 2_4__u__cb__u__cb__s__sb
Blob List with 1 elements {
  Blob [6]( 1, Signal Process    , 2 -> 4 @ (0,0,0,0)
  Incoming particles :
  [G] 2 u                     1 (     ->    1) [( 2.4840e+02, 0.0000e+00, 0.0000e+00, 2.4840e+02), p^2= 0.0000e+00, m= 0.0000e+00] (  0,  0)
  [G] 2 cb                    2 (     ->    1) [( 4.9465e+01, 0.0000e+00, 0.0000e+00,-4.9465e+01), p^2= 2.2737e-12, m= 0.0000e+00] (  0,  0)
  Outgoing particles :
  [H] 1 u                     3 (   1 ->     ) [( 2.1633e+02,-2.9613e+01, 3.6831e+01, 2.1110e+02), p^2= 1.4552e-11, m= 0.0000e+00] (  0,  0)
  [H] 1 cb                    4 (   1 ->     ) [( 2.5721e+01, 2.5050e+01, 2.0016e-01,-5.8293e+00), p^2=-1.1369e-13, m= 0.0000e+00] (  0,  0)
  [H] 1 s                     5 (   1 ->     ) [( 3.7460e+01, 1.3927e+01,-3.3573e+01, 9.0644e+00), p^2= 0.0000e+00, m= 0.0000e+00] (  0,  0)
  [H] 1 sb                    6 (   1 ->     ) [( 1.8355e+01,-9.3641e+00,-3.4580e+00,-1.5404e+01), p^2= 5.6843e-14, m= 0.0000e+00] (  0,  0)
  Data_Container:
     * Enhance (-1)
     * Factorisation_Scale (2233)
     * Trials (1)
     * Weight (1.309e+05)
     * XF1 (1.722)
     * XF2 (1.599)

}
Event_Handler::GenerateEvent(): run 'Signal_Processes'
Event_Handler::GenerateEvent(): run 'Hard_Decays'
Event_Handler::GenerateEvent(): run 'Jet_Evolution:CSS'
  Jet_Finder::Trigger(): '2_4__u__cb__u__cb__s__sb' Q_cut = 10 {
    (2)[u] -> 47.26
    (3)[cb] -> 25.05
    (4)[s] -> 36.35
    (5)[sb] -> 9.982
    level = 1 {
      (0)[ub] & (2)[u] <-> (1)[c], qcut = 10, ptjk = 30.81 (1)
      (0)[ub] & (2)[u] <-> (3)[cb], qcut = 10, ptjk = 30.21 (1)
      (0)[ub] & (2)[u] <-> (4)[s], qcut = 10, ptjk = 33.02 (1)
      (0)[ub] & (2)[u] <-> (5)[sb], qcut = 10, ptjk = 37.42 (1)
      (1)[c] & (3)[cb] <-> (0)[ub], qcut = 10, ptjk = 52.24 (1)
      (1)[c] & (3)[cb] <-> (2)[u], qcut = 10, ptjk = 50.96 (1)
      (1)[c] & (3)[cb] <-> (4)[s], qcut = 10, ptjk = 55.93 (1)
      (1)[c] & (3)[cb] <-> (5)[sb], qcut = 10, ptjk = 52.57 (1)
      (4)[s] & (5)[sb] <-> (0)[ub], qcut = 10, ptjk = 41.03 (1)
      (4)[s] & (5)[sb] <-> (1)[c], qcut = 10, ptjk = 41.03 (1)
      (4)[s] & (5)[sb] <-> (2)[u], qcut = 10, ptjk = 41.03 (1)
      (4)[s] & (5)[sb] <-> (3)[cb], qcut = 10, ptjk = 41.03 (1)
    }
  }
  Cluster_Algorithm::Cluster(): trig = 1 {
    (0x212d8430)[0]: 2 -> 4 {
      \mu_r = 5, \mu_f = 47.26
      x_1 = 0.2535, x_2 = 0.05047
      k_{T,QCD} = 0, (R/B)_{max} = 1
      oew = 4, oqcd = 4, kin = 0
      swap = 0, new = (<no entry>)
               (0)          ub (-248.4,-0,-0,-248.4) (0,3) [1|0,0]
               (1)           c (-49.46,-0,-0,49.46) (1,0) [1|0,0]
               (2)           u (216.3,-29.61,36.83,211.1) (3,0) [1|0,0]
               (3)          cb (25.72,25.05,0.2002,-5.829) (0,1) [1|0,0]
               (4)           s (37.46,13.93,-33.57,9.064) (3,0) [1|0,0]
               (5)          sb (18.36,-9.364,-3.458,-15.4) (0,3) [1|0,0]
    }
    set color 601
               (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
               (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
    set color 602
               (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
               (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
    set color 603
               (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
               (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
    sc: csum = 4.348e-11
    Cluster_Algorithm::ClusterStep(): step = 2 {
      Cluster_Algorithm::CalculateMeasures(): {
        (1)&(3): c,cb -> P [1,0] {
          Set fixed n_perp
          Kernel weight [3] ( x = 0.03236 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
          } -> w = 1.492e-154 (4.735e+156)
          calc Q_{(1)c,(3)cb->P;(0)} -> CP{kt=26.58,op=2.176e+78,x=0.641,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
          Kernel weight [1] ( x = 0.0333 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
          } -> w = 1.492e-154 (4.489e+156)
          calc Q_{(1)c,(3)cb->P;(2)} -> CP{kt=25.88,op=2.119e+78,x=0.6597,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
          Kernel weight [1] ( x = 0.04012 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
          } -> w = 1.492e-154 (2.707e+156)
          calc Q_{(1)c,(3)cb->P;(4)} -> CP{kt=20.1,op=1.645e+78,x=0.7948,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
          Kernel weight [1] ( x = 0.02289 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
          } -> w = 1.492e-154 (7.21e+156)
          calc Q_{(1)c,(3)cb->P;(5)} -> CP{kt=32.8,op=2.685e+78,x=0.4534,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
        }
        (1)&(3): c,cb -> Z [1,0] {
          Set fixed n_perp
          calc Q_{(1)c,(3)cb->Z;(0)} -> CP{kt=26.58,op=-1,x=0.641,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
          Kernel weight [1] ( x = 0.0333 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
          } -> w = 8.052e-05 (8.316e+06)
          calc Q_{(1)c,(3)cb->Z;(2)} -> CP{kt=25.88,op=2884,x=0.6597,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
          Kernel weight [1] ( x = 0.04012 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
          } -> w = 7.609e-05 (5.308e+06)
          calc Q_{(1)c,(3)cb->Z;(4)} -> CP{kt=20.1,op=2304,x=0.7948,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
          Kernel weight [1] ( x = 0.02289 ) {
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
          } -> w = 0.0001824 (5.896e+06)
          calc Q_{(1)c,(3)cb->Z;(5)} -> CP{kt=32.8,op=2428,x=0.4534,k=0}
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
        }
        (4)&(5): d,db -> P [1,0] {
          Kernel weight [2] ( x = 0.2397 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
          } -> w = 0.0001891 (2.209e+06)
          calc Q_{(4)s,(5)sb->P;(0)} -> CP{kt=20.44,op=1486,x=0.9455,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
          Kernel weight [2] ( x = 0.03312 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
          } -> w = 1.492e-154 (6.33e+155)
          calc Q_{(4)s,(5)sb->P;(1)} -> CP{kt=9.717,op=7.956e+77,x=0.6561,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
          Kernel weight [0] ( x = 1 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
          } -> w = 0.0008053 (5.211e+05)
          calc Q_{(4)s,(5)sb->P;(2)} -> CP{kt=20.49,op=721.9,x=1,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
          Kernel weight [0] ( x = 1 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
          } -> w = 0.0005148 (8.158e+05)
          calc Q_{(4)s,(5)sb->P;(3)} -> CP{kt=20.49,op=903.2,x=1,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
        }
        (4)&(5): d,db -> Z [1,0] {
          Kernel weight [2] ( x = 0.2397 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
          } -> w = 7.519e-05 (5.555e+06)
          calc Q_{(4)s,(5)sb->Z;(0)} -> CP{kt=20.44,op=2357,x=0.9455,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
          Kernel weight [2] ( x = 0.03312 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
          } -> w = 1.492e-154 (6.33e+155)
          calc Q_{(4)s,(5)sb->Z;(1)} -> CP{kt=9.717,op=7.956e+77,x=0.6561,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
          Kernel weight [0] ( x = 1 ) {
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
          } -> w = 0.0003202 (1.311e+06)
          calc Q_{(4)s,(5)sb->Z;(2)} -> CP{kt=20.49,op=1145,x=1,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
          calc Q_{(4)s,(5)sb->Z;(3)} -> CP{kt=1.158e+77,op=-1,x=0,k=0}
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
        }
        (0)&(2): u,u -> P [1,0] {
          Set fixed n_perp
          Kernel weight [3] ( x = 0.022 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (1)           c (-49.46,-0,-0,49.46) (601,0) [1|0,0]
          } -> w = 1.492e-154 (1.589e+157)
          calc Q_{(0)ub,(2)u->P;(1)} -> CP{kt=48.69,op=3.986e+78,x=0.08681,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
          Kernel weight [1] ( x = 0.04456 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
          } -> w = 1.492e-154 (1.434e+157)
          calc Q_{(0)ub,(2)u->P;(3)} -> CP{kt=46.26,op=3.787e+78,x=0.1758,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
          Kernel weight [1] ( x = 0.01555 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
          } -> w = 1.492e-154 (1.634e+157)
          calc Q_{(0)ub,(2)u->P;(4)} -> CP{kt=49.36,op=4.042e+78,x=0.06135,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
          Kernel weight [1] ( x = 0.06834 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
          } -> w = 1.492e-154 (1.271e+157)
          calc Q_{(0)ub,(2)u->P;(5)} -> CP{kt=43.54,op=3.565e+78,x=0.2696,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
        }
        (0)&(2): u,u -> Z [1,0] {
          calc Q_{(0)ub,(2)u->Z;(1)} -> CP{kt=1.158e+77,op=-1,x=0,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(1)} = (-49.46,-0,-0,49.46) (601,0)
          Kernel weight [1] ( x = 0.04456 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (3)          cb (25.72,25.05,0.2002,-5.829) (0,601) [1|0,0]
          } -> w = 0.003251 (6.581e+05)
          calc Q_{(0)ub,(2)u->Z;(3)} -> CP{kt=46.26,op=811.2,x=0.1758,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(3)} = (25.72,25.05,0.2002,-5.829) (0,601)
          Set fixed n_perp
          Kernel weight [1] ( x = 0.01555 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (4)           s (37.46,13.93,-33.57,9.064) (603,0) [1|0,0]
          } -> w = 0.01009 (2.416e+05)
          calc Q_{(0)ub,(2)u->Z;(4)} -> CP{kt=49.36,op=491.5,x=0.06135,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(4)} = (37.46,13.93,-33.57,9.064) (603,0)
          Kernel weight [1] ( x = 0.06834 ) {
                     (0)          ub (-248.4,-0,-0,-248.4) (0,602) [1|0,0]
                     (2)           u (216.3,-29.61,36.83,211.1) (602,0) [1|0,0]
                     (5)          sb (18.36,-9.364,-3.458,-15.4) (0,603) [1|0,0]
          } -> w = 0.001986 (9.546e+05)
          calc Q_{(0)ub,(2)u->Z;(5)} -> CP{kt=43.54,op=977,x=0.2696,k=0}
            p_{(0)} = (-248.4,-0,-0,-248.4) (0,602)
            p_{(2)} = (216.3,-29.61,36.83,211.1) (602,0)
            p_{(5)} = (18.36,-9.364,-3.458,-15.4) (0,603)
        }
        }
      combine (0) -> (0,2)&(2)
      } step = 2
    Cluster_Algorithm::ClusterStep(): step = 3 {
      Cluster_Algorithm::CalculateMeasures(): {
        (1)&(3): c,cb -> P [1,0] {
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(1)c,(3)cb->P;(4)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(4)} = (nan,nan,nan,nan) (603,0)
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(1)c,(3)cb->P;(5)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
        }
        (1)&(3): c,cb -> Z [1,0] {
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(1)c,(3)cb->Z;(4)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(4)} = (nan,nan,nan,nan) (603,0)
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(1)c,(3)cb->Z;(5)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
        }
        (4)&(5): d,db -> P [1,0] {
          Set fixed n_perp
          Kernel weight [2] ( x = nan ) {
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(4)s,(5)sb->P;(1)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
          Set fixed n_perp
          Kernel weight [0] ( x = 1 ) {
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(4)s,(5)sb->P;(3)} -> CP{kt=nan,op=nan,x=1,k=0}
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
        }
        (4)&(5): d,db -> Z [1,0] {
          Set fixed n_perp
          Kernel weight [2] ( x = nan ) {
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(4)s,(5)sb->Z;(1)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
          Set fixed n_perp
          Kernel weight [0] ( x = 1 ) {
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(4)s,(5)sb->Z;(3)} -> CP{kt=nan,op=nan,x=1,k=0}
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
        }
        (0,2)&(4): Z,d -> db [1,0] {
          Set fixed n_perp
          Kernel weight [3] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(4)s->s;(1)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(4)s->s;(5)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(4)} = (nan,nan,nan,nan) (603,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
        }
        (0,2)&(5): Z,db -> d [1,0] {
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(5)sb->sb;(3)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
                     (4)           s (nan,nan,nan,nan) (603,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(5)sb->sb;(4)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
            p_{(4)} = (nan,nan,nan,nan) (603,0)
        }
        (0,2)&(3): Z,cb -> c [1,0] {
          Set fixed n_perp
          Kernel weight [3] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (1)           c (-49.4648908049,-0,-0,49.4648908049) (601,0) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(3)cb->cb;(1)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(1)} = (-49.4648908049,-0,-0,49.4648908049) (601,0)
          Set fixed n_perp
          Kernel weight [1] ( x = nan ) {
                   (0,2)           Z (-91.188,0,0,nan) (0,0) [0|0,0] <-> (4)
                     (3)          cb (nan,nan,nan,nan) (0,601) [1|0,0]
                     (5)          sb (nan,nan,nan,nan) (0,603) [1|0,0]
          } -> w = 1.49166814624e-154 (nan)
          calc Q_{(0,2)Z,(3)cb->cb;(5)} -> CP{kt=nan,op=nan,x=nan,k=0}
            p_{(0,2)} = (-91.188,0,0,nan) (0,0)
            p_{(3)} = (nan,nan,nan,nan) (0,601)
            p_{(5)} = (nan,nan,nan,nan) (0,603)
        }
        (0,2)&(4): Z,d -> db [1,0] {
        }
        (0,2)&(5): Z,db -> d [1,0] {
        }
        (0,2)&(3): Z,cb -> c [1,0] {
        }
        }
Sherpa: Cluster_Algorithm::ClusterStep throws fatal error:
   Invalid amplitude
Exception_Handler::GenerateStackTrace(..): Generating stack trace
{
  0x2b3c9a4b0774  in 'ATOOLS::Exception_Handler::GenerateStackTrace(std::ostream&, bool, std::string const&)' (Exception_Handler.C:314)
                from '/mt/data-grid/fsiegert/sl4/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0'
  0x2b3c9a4b18be  in 'ATOOLS::Exception_Handler::Terminate()' (basic_string.h:283)
                from '/mt/data-grid/fsiegert/sl4/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0'
  0x2b3c9a4b2840  in 'ATOOLS::Terminate()' (Exception_Handler.C:131)
                from '/mt/data-grid/fsiegert/sl4/sherpa/trunk/lib/SHERPA-MC/libToolsOrg.so.0'
  0x40b27a        in 'main' (basic_string.h:232)
                from '/mt/data-grid/fsiegert/sl4/sherpa/trunk/bin/Sherpa'
}
Exception_Handler::Terminate(): Pre-crash status saved to '/mt/data-grid/fsiegert/sl4/sherpa/benchmark/PL_YJETS/test/Status__Thu_Mar_11_17-58-55_2010'.
Exception_Handler::ApproveTerminate(): Asking for termination ...
... approved.
Exception_Handler::PrepareTerminate(): Preparing termination ...
In Event_Handler::Finish : Summarizing the run may take some time.
+---------------------------------------------------+
|                                                   |
|  Total XS is nan pb +- ( 0 pb = -2.14748e+07 % )  |
|                                                   |
+---------------------------------------------------+
... prepared.
Exception_Handler::Exit: Exiting Sherpa with code (1)
Return_Value::PrintStatistics(): Statistics {
  Generated events: 1
}
Time: 3m 6s on Thu Mar 11 17:58:55 2010
 (User: 3m 2s, System: 1s, Children User: 0s, Children System: 0s)
------------------------------------------------------------------------
Please cite the publications listed in 'Sherpa_References.tex'.
  Extract the bibtex list by running 'get_bibtex Sherpa_References.tex'
  or email the file to 'slaclib2@slac.stanford.edu', subject 'generate'.
------------------------------------------------------------------------