Instance 80_09 using GSC + AtMostSeqCard
NODES
TIME
avg
min
avg
min
d_l_l_o_gsam 297.60 296.00 2.95 2.93
r_l_l_c_gsam 181.20 180.00 1.18 1.16
s_l_m_c_gsam 178.00 177.00 1.03 1.03
pq_l_m_o_gsam 261.00 261.00 3.06 3.05
s_e_l_c_gsam 177.80 177.00 1.16 1.15
d_s_m_c_gsam 186.80 182.00 1.15 1.11
r_e_m_c_gsam 174.80 173.00 1.03 1.02
l_l_l_o_gsam 290.80 290.00 2.25 2.23
s_e_m_c_gsam 174.60 174.00 1.02 1.02
pq_s_m_c_gsam 144.80 144.00 1.07 1.06
l_e_l_c_gsam 177.80 177.00 1.17 1.16
s_l_m_o_gsam 269.00 269.00 3.15 3.15
d_s_l_c_gsam 183.80 183.00 1.15 1.14
s_s_m_c_gsam 174.60 174.00 1.02 1.02
pq_e_m_c_gsam 145.20 145.00 1.07 1.07
l_l_l_c_gsam 181.20 180.00 1.17 1.16
r_e_l_c_gsam 177.80 177.00 1.18 1.15
pq_s_l_c_gsam 145.00 144.00 1.11 1.09
l_s_m_c_gsam 173.40 173.00 1.02 1.01
s_l_l_c_gsam 181.20 180.00 1.16 1.16
l_e_m_c_gsam 173.40 173.00 1.02 1.01
l_s_l_c_gsam 177.80 177.00 1.16 1.16
r_l_m_o_gsam 292.00 292.00 2.39 2.35
mo_s_m_c_gsam 274.00 143.00 1.22 1.07
pq_l_l_c_gsam 144.60 144.00 1.07 1.06
d_l_m_c_gsam 178.80 178.00 1.10 1.10
d_e_l_c_gsam 182.20 178.00 1.15 1.14
s_s_l_c_gsam 177.80 177.00 1.16 1.15
r_l_l_o_gsam 290.80 288.00 2.48 2.45
pq_l_m_c_gsam 145.60 145.00 0.99 0.98
r_s_l_c_gsam 177.80 177.00 1.18 1.15
d_l_l_c_gsam 179.40 178.00 1.15 1.15
s_l_l_o_gsam 264.00 264.00 3.39 3.38
mo_s_l_c_gsam 765256.40 38765.00 971.01 45.85
r_s_m_c_gsam 174.80 173.00 1.05 1.03
pq_e_l_c_gsam 144.40 144.00 1.11 1.10
r_l_m_c_gsam 175.00 174.00 1.05 1.04
d_l_m_o_gsam 296.20 294.00 2.76 2.76
l_l_m_o_gsam 294.20 293.00 2.05 2.04
d_e_m_c_gsam 182.00 181.00 1.10 1.10
l_l_m_c_gsam 173.20 172.00 1.04 1.02
pq_l_l_o_gsam 262.00 262.00 3.26 3.25

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_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_l_m_o_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

©Mohamed Siala 2014 -- | Template : Bootstrap