def run(args, shared_blocked, shared_dropped, run_seed): np.random.seed(run_seed) # scipy uses numpy seeds args.seed = run_seed simulator = Simulator(args) # init simulator # capture stats # step-wise statistics no longer required # blocked_arr = [] # dropped_arr = [] num_inits = num_handover = num_terminate = 0 warmed_up = False for step in range(args.steps): if step > args.warmup and not warmed_up: simulator.reset() warmed_up = True # print('Simulator reset') # print(f'Total Calls: {simulator.total_calls}') # print(f'Blocked Calls: {simulator.blocked_calls}') # print(f'Dropped Calls: {simulator.dropped_calls}') # print('Leaving simulator reset') event = simulator.FEL.dequeue() simulator.clock = event.time # advance clock to event if isinstance(event, CallInit): simulator.handle_call_init(event) num_inits += 1 elif isinstance(event, CallHandover): num_handover += 1 if args.num_reserve == 0: simulator.handle_call_handover_no_res(event) else: simulator.handle_call_handover_res(event) elif isinstance(event, CallTerminate): num_terminate += 1 simulator.handle_call_termination(event) else: raise TypeError("Wrong event type in FEL") # if warmed_up: # only start collecting when warmed up # assert simulator.total_calls != 0 # percent_blocked = (simulator.blocked_calls / simulator.total_calls) * 100 # percent_dropped = (simulator.dropped_calls / simulator.total_calls) * 100 # blocked_arr.append(percent_blocked) # dropped_arr.append(percent_dropped) # compute final run statistics # for debugging # print(f'Total Calls: {simulator.total_calls}') # print(f'Blocked Calls: {simulator.blocked_calls}') # print(f'Dropped Calls: {simulator.dropped_calls}') run_blocked = (simulator.blocked_calls / simulator.total_calls) * 100 run_dropped = (simulator.dropped_calls / simulator.total_calls) * 100 # store results in shared list shared_blocked.append(run_blocked) shared_dropped.append(run_dropped)
def main(args): check_path = Path(f'./results/warmups/res_{args.num_reserve}_blocked.npy') # capture stats blocked_arr = [] dropped_arr = [] num_inits = num_handover = num_terminate = 0 if not check_path.exists(): # set the base seed np.random.seed(args.seed) simulator = Simulator(args) # init simulator # for step in tqdm(range(args.steps), leave=False): for step in tqdm(range(args.steps)): event = simulator.FEL.dequeue() simulator.clock = event.time # advance clock to event # clock_times.append(simulator.clock) if isinstance(event, CallInit): simulator.handle_call_init(event) num_inits += 1 elif isinstance(event, CallHandover): num_handover += 1 if args.num_reserve == 0: simulator.handle_call_handover_no_res(event) else: simulator.handle_call_handover_res(event) elif isinstance(event, CallTerminate): num_terminate += 1 simulator.handle_call_termination(event) else: raise TypeError("Wrong event type in FEL") blocked_arr.append( (simulator.blocked_calls / simulator.total_calls) * 100) dropped_arr.append( (simulator.dropped_calls / simulator.total_calls) * 100) np.save(f'./results/warmups/res_{args.num_reserve}_blocked.npy', blocked_arr) np.save(f'./results/warmups/res_{args.num_reserve}_dropped.npy', dropped_arr) else: blocked_arr = np.load( f'./results/warmups/res_{args.num_reserve}_blocked.npy') dropped_arr = np.load( f'./results/warmups/res_{args.num_reserve}_dropped.npy') fig, ax = plt.subplots() ############################ UNUSED ######################## # plt.plot(clock_times, blocked_percents, label='blocked') # plt.plot(clock_times, dropped_percents, label="dropped") # plt.xlabel('clock times') ############################################################ ax.plot(blocked_arr, label='blocked') ax.plot(dropped_arr, label="dropped") ax.vlines(x=args.plot_at, ymin=-0.1, ymax=args.ymax, color='r', linestyle='dashed') ax.set_xlabel('Number of Events') ax.set_ylabel('Percentages') plt.legend() ax.set_title('Percentages of Dropped and Blocked Calls') fig.savefig(f'./images/warmups/res_{args.num_reserve}.png')
def main(args): # set the base seed np.random.seed(args.seed) final_blocked_arr = [] final_dropped_arr = [] seeds = list(np.random.randint(1, 20381, size=args.reps)) print(f'Seeds: {seeds}') for rep in tqdm(range(args.reps)): np.random.seed(seeds[rep]) # scipy uses numpy seeds # print('Simulator initialised') args.seed = seeds[rep] # so simulator sets correct internal seed simulator = Simulator(args) # init simulator # capture stats blocked_arr = [] dropped_arr = [] num_inits = num_handover = num_terminate = 0 warmed_up = False # for step in tqdm(range(args.steps), leave=False): for step in range(args.steps): # if step % 10000 == 0: # print(f'Currently in step {step}') if step > args.warmup and not warmed_up: # print('Simulator reset') simulator.reset() warmed_up = True event = simulator.FEL.dequeue() simulator.clock = event.time # advance clock to event # clock_times.append(simulator.clock) if isinstance(event, CallInit): simulator.handle_call_init(event) num_inits += 1 elif isinstance(event, CallHandover): num_handover += 1 if args.num_reserve == 0: simulator.handle_call_handover_no_res(event) else: simulator.handle_call_handover_res(event) elif isinstance(event, CallTerminate): num_terminate += 1 simulator.handle_call_termination(event) else: raise TypeError("Wrong event type in FEL") if warmed_up: # only start collecting when warmed up # print("total calls", simulator.total_calls) #! BUG FOUND, not the fault of the pool!!! # I had just reset and then entered this section where I attempt to divide by 0 assert simulator.total_calls != 0 percent_blocked = (simulator.blocked_calls / simulator.total_calls) * 100 percent_dropped = (simulator.dropped_calls / simulator.total_calls) * 100 blocked_arr.append(percent_blocked) dropped_arr.append(percent_dropped) final_blocked_arr.append(np.mean(blocked_arr)) final_dropped_arr.append(np.mean(dropped_arr)) np.save(f'./results/reps_{args.reps}_blocked.npy', final_blocked_arr) np.save(f'./results/reps_{args.reps}_dropped.npy', final_dropped_arr)