Instance 65_03 using GSC + AtMostSeqCard
NODES
TIME
avg
min
avg
min
d_l_l_o_gsam 255.40 255.00 2.35 2.32
r_l_l_c_gsam 181.60 181.00 1.03 1.02
s_l_m_c_gsam 184.60 184.00 0.99 0.96
pq_l_m_o_gsam 198.00 198.00 2.42 2.41
s_e_l_c_gsam 185.40 182.00 1.05 1.01
d_s_m_c_gsam 186.40 183.00 1.02 1.00
r_e_m_c_gsam 183.00 179.00 0.95 0.92
l_l_l_o_gsam 262.00 262.00 2.12 2.10
s_e_m_c_gsam 185.20 183.00 0.97 0.93
pq_s_m_c_gsam 123.60 122.00 0.88 0.88
l_e_l_c_gsam 184.60 182.00 1.08 1.04
s_l_m_o_gsam 39247.00 244.00 257.70 2.55
d_s_l_c_gsam 184.00 181.00 1.02 1.00
s_s_m_c_gsam 185.20 183.00 0.98 0.93
pq_e_m_c_gsam 123.80 123.00 0.90 0.88
l_l_l_c_gsam 181.60 181.00 1.05 1.03
r_e_l_c_gsam 184.60 182.00 1.05 1.02
pq_s_l_c_gsam 122.60 122.00 0.96 0.94
l_s_m_c_gsam 185.20 183.00 0.96 0.93
s_l_l_c_gsam 181.60 181.00 1.04 1.01
l_e_m_c_gsam 183.00 179.00 0.96 0.92
l_s_l_c_gsam 186.20 184.00 1.06 1.03
r_l_m_o_gsam 251.60 251.00 2.15 2.14
mo_s_m_c_gsam 173.20 171.00 1.01 0.98
pq_l_l_c_gsam 124.80 123.00 0.98 0.96
d_l_m_c_gsam 186.60 185.00 1.01 0.98
d_e_l_c_gsam 185.60 184.00 1.06 1.02
s_s_l_c_gsam 186.20 184.00 1.06 1.03
r_l_l_o_gsam 255.60 255.00 2.49 2.48
pq_l_m_c_gsam 123.80 123.00 0.89 0.88
r_s_l_c_gsam 186.20 184.00 1.05 1.03
d_l_l_c_gsam 183.60 182.00 1.06 1.04
s_l_l_o_gsam 47610.40 21008.00 319.81 132.39
mo_s_l_c_gsam 169.80 169.00 1.02 1.01
r_s_m_c_gsam 185.20 183.00 0.96 0.94
pq_e_l_c_gsam 124.80 123.00 0.97 0.96
r_l_m_c_gsam 184.40 184.00 0.99 0.96
d_l_m_o_gsam 251.80 251.00 1.97 1.94
l_l_m_o_gsam 254.00 254.00 1.79 1.77
d_e_m_c_gsam 187.40 187.00 1.01 0.98
l_l_m_c_gsam 186.00 185.00 1.01 0.98
pq_l_l_o_gsam 196.00 196.00 2.55 2.54

Best configurations

['d_e_l_c_gsam', 'd_e_m_c_gsam', 'd_l_l_c_gsam', 'd_l_l_o_gsam', 'd_l_m_c_gsam', 'd_l_m_o_gsam', 'd_s_l_c_gsam', 'd_s_m_c_gsam', 'l_e_l_c_gsam', 'l_e_m_c_gsam', 'l_l_l_c_gsam', 'l_l_l_o_gsam', 'l_l_m_c_gsam', 'l_l_m_o_gsam', 'l_s_l_c_gsam', 'l_s_m_c_gsam', 'mo_s_l_c_gsam', 'mo_s_m_c_gsam', 'pq_e_l_c_gsam', 'pq_e_m_c_gsam', 'pq_l_l_c_gsam', 'pq_l_l_o_gsam', 'pq_l_m_c_gsam', 'pq_l_m_o_gsam', 'pq_s_l_c_gsam', 'pq_s_m_c_gsam', 'r_e_l_c_gsam', 'r_e_m_c_gsam', 'r_l_l_c_gsam', 'r_l_l_o_gsam', 'r_l_m_c_gsam', 'r_l_m_o_gsam', 'r_s_l_c_gsam', 'r_s_m_c_gsam', 's_e_l_c_gsam', 's_e_m_c_gsam', 's_l_l_c_gsam', 's_l_l_o_gsam', 's_l_m_c_gsam', 's_s_l_c_gsam', 's_s_m_c_gsam']

Description

Each table represents some statics related to given configuration. A configuration is denoted by A_B_C_D_E where :
  1. A is the selection criteria. We denote by
    • mo : Max option
    • pq : The capacity q\p
    • d : The residual demand
    • l : The load
    • s : The slack
    • r : The usage rate
  2. B is the aggregation function. We denote by
    • l : Lexicographic order
    • s : Sum of the elements
    • e : Euclidean norm
  3. C is the exploration criteria. We denote by
    • l : Lexicographic exploration
    • m : Middle towars sides
  4. D is the Branching parameter. We denote by
    • o : Option
    • c : Class
  5. E is the filtering model. We denote by
    • n : The default model using sum constraints
    • am : The model using the AtMostSeqCard Constraint
    • gs : The model using the Global Sequencing Constraint (GSC)
    • gsam : The model combining AtMostSeqCard+GSC
    • f : The model using the new filtering algorithm

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