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authorJulian T <julian@jtle.dk>2020-06-07 12:42:49 +0200
committerJulian T <julian@jtle.dk>2020-06-07 12:42:49 +0200
commitf7c5a5999405170f809ff6ee62c8274d61cfbb76 (patch)
tree215e18a05d9229a5b5b6dc39b07da2aea5cab350 /sem4/embedded/eksamnen
parent11e44f311cb0c5005fbbd665ff304a62a52acc3f (diff)
Completed exercise M8 for embedded
Diffstat (limited to 'sem4/embedded/eksamnen')
-rw-r--r--sem4/embedded/eksamnen/M8f1.pngbin0 -> 31196 bytes
-rw-r--r--sem4/embedded/eksamnen/M8f2.pngbin0 -> 38443 bytes
-rw-r--r--sem4/embedded/eksamnen/M8f3.pngbin0 -> 38125 bytes
-rw-r--r--sem4/embedded/eksamnen/M8opg.adoc116
-rw-r--r--sem4/embedded/eksamnen/notes.adoc40
-rwxr-xr-xsem4/embedded/eksamnen/schedsolver.rb74
6 files changed, 217 insertions, 13 deletions
diff --git a/sem4/embedded/eksamnen/M8f1.png b/sem4/embedded/eksamnen/M8f1.png
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diff --git a/sem4/embedded/eksamnen/M8opg.adoc b/sem4/embedded/eksamnen/M8opg.adoc
new file mode 100644
index 0000000..59f8031
--- /dev/null
+++ b/sem4/embedded/eksamnen/M8opg.adoc
@@ -0,0 +1,116 @@
+= Opgaver til gang 8
+
+== Opgave 1
+
+Given a periodic taskset : T1=4,c1=3,T2=12,c2=2 with relative deadlines d1=4,d2=7
+
+. Examine the taskset w.r.t. schedulability using the exact criterion for DMA scheduling. Is the taskset EDF schedulable ?
+
+=== Løsning
+
+____
+_Examine the taskset w.r.t. schedulability using the exact criterion for DMA scheduling._
+____
+
+Her kan man se at følgende priority scheme skal bruges.
+
+(T1, T2)
+
+Nu giver det mening at undersøge om dette er feasable.
+For T1 er completion time 3, hvilket er under dens deadline.
+
+For T2.
+
+image::M8f1.png[]
+
+Her kan man se at completion time er 8 hvilket er efter T2's deadline.
+Derfor er DMA ikke feasable.
+
+Dette kan man også se hvis man kører det.
+
+----
+0 3 2 4 7
+1 | 2 2 3 6
+2 | 1 2 2 5
+3 | 0 2 1 4
+4 | 3 1 4 3
+5 | 2 1 3 2
+6 | 1 1 2 1
+Deadline missed in task 1
+----
+
+____
+Is the taskset EDF schedulable?
+____
+
+Når man kører med EDF kan man se at der ikke er mere arbejde efter LCM.
+
+----
+0 3 2 4 7
+1 | 2 2 3 6
+2 | 1 2 2 5
+3 | 0 2 1 4
+4 | 3 1 4 3
+5 | 3 0 3 2
+6 | 2 0 2 1
+7 | 1 0 1 0
+8 | 2 0 4 -1
+9 | 1 0 3 -2
+10 | 0 0 2 -3
+11 0 0 1 -4
+----
+
+== Opgave 2
+
+Given a periodic taskset T1=40,c1=10,d1=20,T2=60,c2=20,d2=30,T3=80,c3=20,d3=80,(milliseconds) where task1 and task2 share data protected by semaphore S.
+Accessing the shared data lasts no more than 10 (time units-mill sec).
+Priority ceiling or immediate ceiling is assumed.
+
+. Is the taskset DMA schedulable ?
+. If the data above are instead shared between task1 and task3, is the taskset then DMA schedulable.
+
+=== Løsning
+
+____
+_Is the taskset DMA schedulable?_
+____
+
+Her bruger jeg den nye formel for at finde completion time.
+
+stem:[C_i = c_i + \sum_{j=1}{i-1}ceil(C_i/T_j) * c_j + B_i]
+
+Ved DMA bliver prioriteten (T1, T2, T3).
+Task 1 kan godt vente på T2, men T2 skal ikke vente på nogen.
+
+----
+C1 = 10 + 10 = 20
+C2 = 20 + ceil(C2/40)*10
+C3 = 20 + ceil(C3/60)*20 + ceil(C3/40)*10
+----
+
+T1 bliver færdig lige inden dens deadline.
+Først plottes C2.
+
+image::M8f2.png[]
+
+Her kan man se at den completer inden dens deadline 30.
+
+Under kan man se at T3 også bliver færdig, når man plotter C3.
+
+image::M8f3.png[]
+
+____
+_If the data above are instead shared between task1 and task3, is the taskset then DMA schedulable._
+____
+
+Her ændres C1 til C3 sig overhovedet ikke, da T1 alligevel skal vente 10.
+
+----
+C1 = 10 + 10 = 20
+C2 = 20 + ceil(C2/40)*10
+C3 = 20 + ceil(C3/60)*20 + ceil(C3/40)*10
+----
+
+== Opgave 3
+
+Implement the example of ex. 2) on JDN's kernel and measure worst case completion times.
diff --git a/sem4/embedded/eksamnen/notes.adoc b/sem4/embedded/eksamnen/notes.adoc
index de9b919..0b33bb7 100644
--- a/sem4/embedded/eksamnen/notes.adoc
+++ b/sem4/embedded/eksamnen/notes.adoc
@@ -181,6 +181,46 @@ ____
Exercise 1-2
____
+Se ./M8opg.adoc
+
+TODO lav arduino ting
+
+=== Noter
+
+_Earliest Deadline First_ eller *EDF* er hvor man tager den med deadline der er
+tættest på _t_.
+
+Dette gør man dynamisk hvilket giver en højere runtime cost end en fixed priority såsom *DMA*.
+
+_Hvis man kan finde et feasable schedule er *EDF* også feasable._
+
+_Hvis deadlines er lig perioder er taskset schedulable med *EDF* hvis stem:[U \leq 1]._
+Dette kaldes også for *utilization criterion.
+
+*Priority Ceiling*, er hvis en task stem:[\tau] prøver at lock en locked task, arver stem:[\tau{}_l] prioriteten.
+Her er det først når en højere task prøver at lock at den lavere task arver.
+
+Dette har forskellige egenskaber, hvis man kan garantere at alle task laver nested locking.
+
+- No deadlocks possible
+- En task venter max duration af critical region for lavere task.
+
+*Immediate Ceiling* er mere leightweight, da man istedet siger at hvis en task
+locker en lock, vil den arve den højst mulige potentielle perioritet.
+Også selvom der ikke er nogen der venter på den.
+
+Denne har samme egenskaber men behøver ikke lige så meget overhead.
+
+I et non-preemtive system, vil dette ikke betyde så meget, da ressources bliver
+unlocked igen i execution perioden for en task.
+
+Hvis man har _round_robin_, _static_ eller _dynamic_ scheduling er der ikke nogle prioriteter man kan bruge.
+Derfor bruger man _Static Ressource Priority Ordering_ hvor man bruger priorities når der sker ressource locking.
+
+- Hvis man bruger _static priority_ bestemmer man STPO før.
+- Hvis man bruger _round robin_ her kigger man på worsk case analysis.
+- Hvis man bruger _EDF_ her det svært at lave analysis.
+
== H5 module 9
____
diff --git a/sem4/embedded/eksamnen/schedsolver.rb b/sem4/embedded/eksamnen/schedsolver.rb
index c75b52b..333739f 100755
--- a/sem4/embedded/eksamnen/schedsolver.rb
+++ b/sem4/embedded/eksamnen/schedsolver.rb
@@ -28,7 +28,7 @@ class Scheduler
end
def printState(index, state)
- print index.to_s().ljust(4, ' ')
+ print (index).to_s().ljust(4, ' ')
@tasks.length.times do |i|
print state[:task] == i ? "|" : " "
print " "*3
@@ -80,7 +80,11 @@ class Scheduler
end
def calcNextState(index)
- curtask = nextTask(index)
+ curtask = nil
+ # We should not run at the begining
+ if index > 0
+ curtask = nextTask(index)
+ end
new = {:task => curtask, :remain => []}
@tasks.each_with_index do |task, i|
# Check for deadline miss
@@ -105,25 +109,36 @@ class Scheduler
return new
end
- def run(runtil=nil)
+ def runtiltask(task)
printHeader()
-
- # Run LCM times
- lcm = @tasks[0][:period]
- @tasks.drop(1).each do |task|
- lcm = task[:period].lcm(lcm)
- end
- (0..lcm).each do |i|
+ (0..).step do |i|
new = calcNextState(i)
@states << new
printState(i, new)
- if runtil && new[:remain][runtil] == 0
+ if new[:remain][task] == 0
break
end
end
end
+
+ def run(runtil = nil)
+ if !runtil
+ # Run LCM times
+ runtil = @tasks[0][:period]
+ @tasks.drop(1).each do |task|
+ runtil = task[:period].lcm(runtil)
+ end
+ end
+
+ runtil.times do |i|
+ new = calcNextState(i)
+ @states << new
+
+ printState(i, new)
+ end
+ end
end
def taskFromString(str)
@@ -181,17 +196,45 @@ class RmaSched < Scheduler
end
end
+class EdfSched < Scheduler
+ def nextTask(index)
+ smallestTask = nil
+ closestDead = nil
+
+ @tasks.each_with_index do |task, i|
+ if @states.last and @states.last[:remain][i] == 0
+ next
+ end
+
+ deadline = task[:deadline] - (index % task[:period])
+
+ if !smallestTask or deadline < closestDead
+ smallestTask = i
+ closestDead = deadline
+ end
+ end
+
+ return smallestTask
+ end
+end
+
options = {}
OptionParser.new do |opts|
opts.on("-f", "--taskfile FILE", "Load tasks from FILE") do |f|
options[:taskfile] = f
end
opts.on("--until-done TASK", "Run until TASK finishes") do |task|
- options[:runtil] = Integer(task)
+ options[:runtiltask] = Integer(task)
+ end
+ opts.on("--until TIME", "Run til specified time") do |time|
+ options[:runtil] = Integer(time)
end
opts.on("--sched-rma", "Schedule using rma") do
options[:sched] = RmaSched.new()
end
+ opts.on("--sched-edf", "Schedule using edf") do
+ options[:sched] = EdfSched.new()
+ end
opts.on("--sched-fixed PRIO", "Schedule using fixed priority list PRIO") do |prio|
prio = prio.split(",")
prio.map! {|p| Integer(p) }
@@ -228,4 +271,9 @@ else
sch = Scheduler.new()
end
sch.loadtasks(tasks)
-sch.run(options[:runtil])
+
+if options[:runtiltask]
+ sch.runtiltask(options[:runtiltask])
+else
+ sch.run(options[:runtil])
+end