
def  __init__ (self, graph_matrix, positive_weight, negative_weight, reduction=None) 
 Constructor of the oscillatory network syncgcolor for graph coloring problem. More...


def  process (self, order=0.998, solution=solve_type.FAST, collect_dynamic=False) 
 Performs simulation of the network (performs solving of graph coloring problem). More...


def  __init__ (self, num_osc, weight=1, frequency=0, type_conn=conn_type.ALL_TO_ALL, representation=conn_represent.MATRIX, initial_phases=initial_type.RANDOM_GAUSSIAN, ccore=True) 
 Constructor of oscillatory network is based on Kuramoto model. More...


def  __del__ (self) 
 Destructor of oscillatory network is based on Kuramoto model.


def  sync_order (self) 
 Calculates current level of global synchorization (order parameter) in the network. More...


def  sync_local_order (self) 
 Calculates current level of local (partial) synchronization in the network. More...


def  simulate (self, steps, time, solution=solve_type.FAST, collect_dynamic=True) 
 Performs static simulation of Sync oscillatory network. More...


def  simulate_dynamic (self, order=0.998, solution=solve_type.FAST, collect_dynamic=False, step=0.1, int_step=0.01, threshold_changes=0.0000001) 
 Performs dynamic simulation of the network until stop condition is not reached. More...


def  simulate_static (self, steps, time, solution=solve_type.FAST, collect_dynamic=False) 
 Performs static simulation of oscillatory network. More...


def  get_neighbors (self, index) 
 Finds neighbors of the oscillator with specified index. More...


def  has_connection (self, i, j) 
 Returns True if there is connection between i and j oscillators and False  if connection doesn't exist. More...


def  height (self) 
 Height of the network grid (that is defined by amout of oscillators in each column), this value is zero in case of nongrid structure. More...


def  width (self) 
 Width of the network grid, this value is zero in case of nongrid structure. More...


def  structure (self) 
 Type of network structure that is used for connecting oscillators.


def  __init__ (self, num_osc, type_conn=conn_type.ALL_TO_ALL, conn_repr=conn_represent.MATRIX, height=None, width=None) 
 Constructor of the network. More...


def  __len__ (self) 
 Returns size of the network that is defined by amount of oscillators.


def  has_connection (self, i, j) 
 Returns True if there is connection between i and j oscillators and False  if connection doesn't exist. More...


def  set_connection (self, i, j) 
 Couples two specified oscillators in the network with dynamic connections. More...


def  get_neighbors (self, index) 
 Finds neighbors of the oscillator with specified index. More...

