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RTSA-lab02-SchedTest
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successully implemented TDA

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Mukendi Mputu 2022-06-30 15:39:13 +02:00
parent 317b8a1a9c
commit 71de5bf9b5
Signed by: samy.mputu
GPG Key ID: 492A6E5AC70F6B0B
1 changed files with 19 additions and 31 deletions
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48
schedTests/TimeDemandAnalysis.py
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@ -21,43 +21,31 @@ def test(tasks):
# This makes implementing TDA a lot easier # This makes implementing TDA a lot easier
shape = tasks.shape shape = tasks.shape
sortedtasks = tasks[tasks[:, 0].argsort()] sortedtasks = tasks[tasks[:, 0].argsort()]
isSchedulable = True
global set_num
set_num += 1
print(f"\n======= TASK SET #{set_num} =======\n")
# For each tasks in the ordered set # For each tasks in the ordered set
for i in range(len(sortedtasks)):
print(f'Task #{i} {tasks[i]}:') # calculate the time points for the demand function
t_old = 10**-3
i = 0
# calculate the time points for the demand function while True:
# t = j * P_k for k = 1, 2,...i and j = 1, 2,...,math.ceil(P_i / P_k) t_new = workload_func(sortedtasks, i, t_old)
# list_of_t = [ # if the workload of task i exceeds the deadline
# j * TH.P_i(sortedtasks, k) if t_new > TH.D_i(sortedtasks, i):
# for k in range(i-1) return False # task not schedulable
# for j in range(1, int(math.ceil(TH.D_i(sortedtasks, i) / TH.P_i(sortedtasks, k))))
# ]
# list_of_t = [TH.P_i(sortedtasks, k-1) for k in range(i+1)]
list_of_t = []
for k in range(i):
list_of_t.append(TH.P_i(sortedtasks, k-1))
print(f'\t list of t: {list_of_t}') if t_new == t_old:
i += 1
# at any time t between 0 and and TH.P_i t_old = 10**-3
for j in range(len(list_of_t)): # chech array out of bounds
# for t in range(int(TH.C_i(sortedtasks, i)), int(TH.P_i(sortedtasks, i)+1), int(step)): if i == len(sortedtasks):
return True
# if the demand for CPU time of task i exceeds the available time t t_old = t_new
if time_demand_func(sortedtasks, i, list_of_t[j]) > list_of_t[j]:
isSchedulable = False # then the task i will not meet its deadline, hence taskset not schedulable
print(f'\t time-demand for t := {list_of_t[j]} ---> {time_demand_func(sortedtasks, i, list_of_t[j])} is schedulable: {isSchedulable}')
return isSchedulable
def time_demand_func(tasks, i, t):
def workload_func(tasks, i, t):
sum = 0 sum = 0
for k in range(i-1): for k in range(i):
sum += math.ceil(t / TH.P_i(tasks, k)) * TH.C_i(tasks, k) sum += math.ceil(t / TH.P_i(tasks, k)) * TH.C_i(tasks, k)
return TH.C_i(tasks, i) + sum return TH.C_i(tasks, i) + sum