> [ 0.000000] [0:maestro@] Configuration change: Set 'network/model' to 'CM02'
> [ 0.000000] [0:maestro@] Configuration change: Set 'network/weight-S' to '20537'
> [ 0.000000] [0:maestro@] Configuration change: Set 'network/crosstraffic' to '0'
-> [ 0.000000] [1:@S1] Comm to C1, same weight/penalty (w_a == w_b, ~20) for everybody, each comm should take 1s and finish at the same time
-> [ 0.000000] [3:@S2] Comm to C2, same weight/penalty (w_a == w_b, ~20) for everybody, each comm should take 1s and finish at the same time
+> [ 0.000000] [1:@S1] Send to C1, same weight/penalty (w_a == w_b, ~20) for everybody, each comm should take 1s and finish at the same time
+> [ 0.000000] [3:@S2] Send to C2, same weight/penalty (w_a == w_b, ~20) for everybody, each comm should take 1s and finish at the same time
> [ 2.000000] [2:@C1] Received data. Elapsed 2.000000
> [ 2.000000] [4:@C2] Received data. Elapsed 2.000000
-> [ 10.000000] [3:@S2] Comm Flow B to C2: after 1s, change latency of L4 to increase penalty for flow B (w_b = 2* w_a)
+> [ 10.000000] [3:@S2] Send Flow B to C2: after 1s, change latency of L4 to increase penalty for flow B (w_b = 2* w_a)
> [ 10.000000] [3:@S2] rho_a = 2*rho_b, flow A receives twice the bandwidth than flow B
-> [ 10.000000] [1:@S1] Comm Flow A to C1
+> [ 10.000000] [1:@S1] Send Flow A to C1
> [ 11.753312] [2:@C1] Received data. Elapsed 1.753312
> [ 12.000000] [4:@C2] Received data. Elapsed 2.000000
-> [ 20.000000] [1:@S1] Comm Flow A to C1
-> [ 20.000000] [3:@S2] Comm Flow B to C2: after 1s, change bandwidth of L4 to increase penalty for flow B (w_b = 2* w_a)
+> [ 20.000000] [1:@S1] Send Flow A to C1
+> [ 20.000000] [3:@S2] Send Flow B to C2: after 1s, change bandwidth of L4 to increase penalty for flow B (w_b = 2* w_a)
> [ 20.000000] [3:@S2] rho_a = 2*rho_b, flow A receives twice the bandwidth than flow B
> [ 21.750000] [2:@C1] Received data. Elapsed 1.750000
> [ 22.000000] [4:@C2] Received data. Elapsed 2.000000