Instance 6_76 using the slack based filtering

				NODES		TIME
				avg	min	avg	min
d_l_l_o_f				--	--	--	--
r_l_l_c_f				--	--	--	--
s_l_l_c_f				--	--	--	--
s_e_l_c_f				--	--	--	--
s_l_l_o_f				3101378.20	97515.00	255.50	18.69
l_l_l_o_f				--	--	--	--
pq_s_l_c_f				--	--	--	--
l_l_l_c_f				--	--	--	--
pq_l_l_o_f				--	--	--	--
d_s_l_c_f				--	--	--	--
mo_s_l_c_f				--	--	--	--
s_s_l_c_f				--	--	--	--
r_e_l_c_f				--	--	--	--
d_l_l_c_f				--	--	--	--
d_e_l_c_f				--	--	--	--
r_l_l_o_f				70573.60	69860.00	13.96	13.85
l_s_l_c_f				--	--	--	--
r_s_l_c_f				--	--	--	--
pq_l_l_c_f				--	--	--	--
pq_e_l_c_f				--	--	--	--
l_e_l_c_f				--	--	--	--

Best configurations

['r_l_l_o_f']

Description

Each table represents some statics related to given configuration. A configuration is denoted by A_B_C_D_E where :

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

B is the aggregation function. We denote by

l : Lexicographic order
s : Sum of the elements
e : Euclidean norm

C is the exploration criteria. We denote by

l : Lexicographic exploration
m : Middle towars sides

D is the Branching parameter. We denote by

o : Option
c : Class

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