import queue_simulation
pmin = 0.5
pmax = 1.5
step = 0.1
L = float(12000)
C = float(1000000)
K = [5, 10, 40]
for k in K:
queue_simulation.main([pmin, pmax, step, L, C, 'Q6_1', k])
import queue_simulation pmin = 0.25 pmax = 0.95 step = 0.1 L = float(12000) C = float(1000000) queue_simulation.main([pmin, pmax, step, L, C, 'Q3'])
import queue_simulation
import time
TICKS = 1000000
L = 2000
C = 1000000
f = open("result/q2_{}.csv".format(int((time.time() - 1507925570) / 30)), 'w')
f.write("p,E[N],E[T],P_IDLE")
for i in range(2, 10):
p = i / 10
LAM = p * C / L
print('simulating p =', p)
EN, ET, P_LOSS, P_IDLE = queue_simulation.main([TICKS, LAM, L, C])
f.write("\n{},{},{},{}".format(p, EN, ET, P_IDLE))
f.close()
import queue_simulation
pmin = [0.4, 2, 5]
pmax = [1.9, 4.8, 9.8]
step = [0.1, 0.2, 0.4]
L = float(12000)
C = float(1000000)
K = [5, 10, 40]
for k in K:
for i in range(len(pmin)):
p_min = pmin[i]
p_max = pmax[i]
step_size = step[i]
queue_simulation.main([p_min, p_max, step_size, L, C, 'Q6_2', k])