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@ -7,8 +7,31 @@ def def_value():
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return 0
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return 0
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def count_miss_or_meet_deadline_requests(file_dir, percentage):
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def count_miss_or_meet_deadline_requests(file_dir, percentage):
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#### get execution time
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running_time_dict = defaultdict(def_value)
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queuing_times_dict = defaultdict(def_value)
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total_times_dict = defaultdict(def_value)
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runnable_times_dict = defaultdict(def_value)
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blocked_times_dict = defaultdict(def_value)
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initializing_times_dict = defaultdict(def_value)
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execution_times_dict = defaultdict(def_value)
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running_times = defaultdict(list)
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queuing_times = defaultdict(list)
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total_times = defaultdict(list)
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runnable_times = defaultdict(list)
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blocked_times = defaultdict(list)
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initializing_times = defaultdict(list)
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execution_times = defaultdict(list)
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####
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request_counter = defaultdict(def_value)
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request_counter = defaultdict(def_value)
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total_time_dist = defaultdict(list)
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total_time_dist = defaultdict(list)
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total_workload_dist = defaultdict(def_value)
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total_real_time_workload_dist = defaultdict(def_value)
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real_time_workload_times_dist = defaultdict(list)
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real_time_workload_workloads_dist = defaultdict(list)
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real_time_workload_requests_dist = defaultdict(list)
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min_time = sys.maxsize
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# list[0] is meet deadline number, list[1] is miss deadline number
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# list[0] is meet deadline number, list[1] is miss deadline number
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delays = 0
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delays = 0
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max_latency_dist = defaultdict(def_value)
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max_latency_dist = defaultdict(def_value)
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@ -46,6 +69,38 @@ def count_miss_or_meet_deadline_requests(file_dir, percentage):
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s_c = int(line.split(" ")[3])
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s_c = int(line.split(" ")[3])
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if max_sc < s_c:
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if max_sc < s_c:
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max_sc = s_c
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max_sc = s_c
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if "total workload" in line:
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thread = line.split(" ")[3]
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time = line.split(" ")[1]
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if min_time > int(time):
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min_time = int(time)
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real_time_workload = line.split(" ")[11]
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total_workload = int(line.split(" ")[8])
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total_real_time_workload = int(line.split(" ")[15])
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real_time_request = line.split(" ")[5]
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real_time_workload_times_dist[thread].append(int(time))
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real_time_workload_workloads_dist[thread].append(int(real_time_workload))
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real_time_workload_requests_dist[thread].append(int(real_time_request))
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if total_workload_dist[thread] < total_workload:
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total_workload_dist[thread] = total_workload
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if total_real_time_workload_dist[thread] < total_real_time_workload:
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total_real_time_workload_dist[thread] = total_real_time_workload
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### calculate the execution time
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if "memory" in line or "total_time" in line or "min" in line or "miss" in line or "meet" in line or "time " in line or "scheduling count" in line:
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continue
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t = line.split(",")
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id = t[1]
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func_idx = t[2][-9]
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joined_key = id + "_" + func_idx
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running_time_dict[joined_key] += int(t[9])
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queuing_times_dict[joined_key] += int(t[6])
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total_times_dict[joined_key] += int(t[5])
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runnable_times_dict[joined_key] += int(t[8])
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blocked_times_dict[joined_key] += int(t[10])
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initializing_times_dict[joined_key] += int(t[7])
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###
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miss_deadline_percentage = (miss_deadline * 100) / (miss_deadline + meet_deadline)
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miss_deadline_percentage = (miss_deadline * 100) / (miss_deadline + meet_deadline)
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print("meet deadline num:", meet_deadline)
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print("meet deadline num:", meet_deadline)
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print("miss deadline num:", miss_deadline)
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print("miss deadline num:", miss_deadline)
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@ -54,8 +109,28 @@ def count_miss_or_meet_deadline_requests(file_dir, percentage):
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print("total delays:", delays)
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print("total delays:", delays)
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print("scheduling counter:", max_sc)
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print("scheduling counter:", max_sc)
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for key,value in request_counter.items():
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### get execution time
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print(key + ":" + str(value))
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for key,value in running_time_dict.items():
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func_idx = key.split("_")[1]
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running_times[func_idx].append(value)
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for key,value in queuing_times_dict.items():
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func_idx = key.split("_")[1]
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queuing_times[func_idx].append(value)
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for key,value in runnable_times_dict.items():
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func_idx = key.split("_")[1]
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runnable_times[func_idx].append(value)
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for key,value in blocked_times_dict.items():
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func_idx = key.split("_")[1]
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blocked_times[func_idx].append(value)
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for key,value in initializing_times_dict.items():
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func_idx = key.split("_")[1]
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initializing_times[func_idx].append(value)
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for key,value in total_times_dict.items():
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func_idx = key.split("_")[1]
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total_times[func_idx].append(value)
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###
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#for key,value in request_counter.items():
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#print(key + ":" + str(value))
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for key,value in total_time_dist.items():
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for key,value in total_time_dist.items():
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a = np.array(value)
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a = np.array(value)
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p = np.percentile(a, int(percentage))
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p = np.percentile(a, int(percentage))
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@ -65,10 +140,49 @@ def count_miss_or_meet_deadline_requests(file_dir, percentage):
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total_request = miss_value + value
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total_request = miss_value + value
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miss_rate = (miss_value * 100) / total_request
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miss_rate = (miss_value * 100) / total_request
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print(key + " miss deadline rate:" + str(miss_rate) + " miss count is:" + str(miss_value))
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print(key + " miss deadline rate:" + str(miss_rate) + " miss count is:" + str(miss_value))
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for key,value in real_time_workload_times_dist.items():
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real_time_workload_times_dist[key] = [x - min_time for x in value]
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for key,value in running_times.items():
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print("function:", key)
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print(np.median(total_times[key]), np.median(running_times[key]), np.median(queuing_times[key]), np.median(runnable_times[key]), np.median(blocked_times[key]), np.median(initializing_times[key]))
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total_workload = 0
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with open("total_workload.txt", "w") as f:
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for key,value in total_workload_dist.items():
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total_workload += value
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#print("thread " + key + " total workload:" + str(value))
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pair = [key + " "]
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pair.append(str(value))
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f.writelines(pair)
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f.write("\n")
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print("total workload is:", total_workload)
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with open("total_real_time_workload.txt", "w") as f:
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for key,value in total_real_time_workload_dist.items():
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#print("thread " + key + " total real time workload:" + str(value))
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pair = [key + " "]
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pair.append(str(value))
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f.writelines(pair)
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f.write("\n")
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js = json.dumps(total_time_dist)
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js = json.dumps(total_time_dist)
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f = open("total_time.txt", 'w')
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f = open("total_time.txt", 'w')
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f.write(js)
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f.write(js)
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f.close()
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f.close()
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js2 = json.dumps(real_time_workload_times_dist)
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f2 = open("real_workload_times.txt", 'w')
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f2.write(js2)
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f2.close()
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js3 = json.dumps(real_time_workload_workloads_dist)
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f3 = open("real_workload_workloads.txt", 'w')
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f3.write(js3)
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f3.close()
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js4 = json.dumps(real_time_workload_requests_dist)
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f4 = open("real_workload_requests.txt", 'w')
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f4.write(js4)
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f4.close()
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#for key,value in total_time_dist.items():
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#for key,value in total_time_dist.items():
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# print(key + ":", value)
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# print(key + ":", value)
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if __name__ == "__main__":
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if __name__ == "__main__":
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