F453 – Computing Theory
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Transcript of F453 – Computing Theory
F453 – Computing F453 – Computing TheoryTheory
Chapter 13Chapter 13
The Function of Operating The Function of Operating SystemsSystems
Interrup
ts
Scheduli
ng
Memory M
anagemen
t
Paging
Segmenta
tion
Virtual
memory
Disk Thr
ashing
Spooling
Boot Fil
e
FAT
Resource used: OCR Computing Text Book, Hodder Education
Features of operating Features of operating systemssystems
Hardware resources (Provide and Manage) Hardware resources (Provide and Manage) – such as the management of memory and – such as the management of memory and the jobs passing through itthe jobs passing through it
Interface – provide an interface between Interface – provide an interface between the user and machinethe user and machine
Interface – provide an interface between Interface – provide an interface between applications software and the machine. applications software and the machine. (software and hardware)(software and hardware)
Security – provide it for the data on the Security – provide it for the data on the system particularly when there are lots of system particularly when there are lots of users.users.
Utility Software– provide this so that Utility Software– provide this so that maintainence can be done!maintainence can be done!
H
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Don’t forget: Mnemonics! – memory aids!
You’re the expert…You’re the expert…
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What did you say
an operating system was? What are the
main features of an operating
system!?
Er..HISSU….
Moving on…Moving on…
INTERRUPT HANDLINGINTERRUPT HANDLING
Interrupt HandlingInterrupt Handling Remember our friend Remember our friend
the Processor? (brain of the Processor? (brain of the computer)the computer)
It normally functions It normally functions SERIALLY – that is an SERIALLY – that is an instruction is collected, instruction is collected, acted upon, next acted upon, next instruction…instruction…
This continues while the This continues while the processor is operating processor is operating or the set of instructions or the set of instructions is completed.is completed.
Interrupt HandlingInterrupt Handling
That’s all well and That’s all well and good – if things run good – if things run smoothly, but often smoothly, but often you are going to get you are going to get something causing something causing the processor to stop the processor to stop what it is doing and what it is doing and do something elsedo something else
It is the INTERRUPT It is the INTERRUPT that asks for this to that asks for this to happen….happen….
Types of Interrupt Types of Interrupt Hardware interrupt – (the buffer that is being Hardware interrupt – (the buffer that is being
used to transfer data from primary memory used to transfer data from primary memory to secondary storage has been emptied and to secondary storage has been emptied and needs to be refilled so that data transfer can needs to be refilled so that data transfer can continue)continue)
Software interrupts (such as the interrupt Software interrupts (such as the interrupt caused to the flow of a program by a call to caused to the flow of a program by a call to an external device)an external device)
EACH INTERRUPT IS GIVEN A PRIORITY – if EACH INTERRUPT IS GIVEN A PRIORITY – if two occur you need to know which is more two occur you need to know which is more important.important.
Example of most important Example of most important interruptinterrupt
An interruption to power supply! An interruption to power supply! (this is given the highest priority of (this is given the highest priority of all!)all!)
So what happens when an So what happens when an interrupt occurs – What’s interrupt occurs – What’s
the process?the process?
Interrupt - processInterrupt - process Interrupt is stored with all other jobs that the Interrupt is stored with all other jobs that the
processor has to do (including current processor has to do (including current running task)running task)
Interrupt given a priority, as is the current Interrupt given a priority, as is the current job, according to importancejob, according to importance
All jobs are stored – but also stored in order All jobs are stored – but also stored in order of priority!of priority!
Processor finishes an instruction – it checks Processor finishes an instruction – it checks list for stuff to be donelist for stuff to be done
As long as job it is doing is at the top of the As long as job it is doing is at the top of the list –It will continue with next instruction, but list –It will continue with next instruction, but if an interrupt has gone to top of list, the if an interrupt has gone to top of list, the processor will STOP the job its doing!processor will STOP the job its doing!
It can’t just stopIt can’t just stop
It’s like when you’ve been working all It’s like when you’ve been working all night on an essay.night on an essay.
In the morning there’s a fire….you In the morning there’s a fire….you need to rush out of the house.need to rush out of the house.
An important interrupt no doubt but…An important interrupt no doubt but… Will you press save?Will you press save?
*maybe not!*maybe not!
Processor does save when it Processor does save when it is interruptedis interrupted
It can’t waste all the processing its It can’t waste all the processing its donedone
So it stores the contents of all the So it stores the contents of all the special registers so that when it goes special registers so that when it goes back to the job it can load the special back to the job it can load the special register with these contents again and register with these contents again and carry on from where it left off.carry on from where it left off.
These values are stored in a STACK These values are stored in a STACK (we’ll do more on these soon)(we’ll do more on these soon)
So special registers So special registers emptiedemptied
The new job then (the interrupt) can The new job then (the interrupt) can be loaded into the special registers be loaded into the special registers and proccessed until it is and proccessed until it is completeed.completeed.
Scheduling, Job Queues and Scheduling, Job Queues and PrioritiesPriorities
Life requires Schedules, Priorities and Queues. Without them, things would not function.
What are your priorities?What are your priorities?
PhysicalPhysical SpiritualSpiritual MentalMental EmotionalEmotional
SchedulingScheduling Take the exampe of a multi operating Take the exampe of a multi operating
system….there are a number of jobs that system….there are a number of jobs that must be in the memory in order of the must be in the memory in order of the OS to switch from one job to the otherOS to switch from one job to the other
This in turns means the OS must have a This in turns means the OS must have a set of rules that it can use in order to set of rules that it can use in order to determine the order in which the jobs determine the order in which the jobs should be handledshould be handled
The use of this set of rules is known as The use of this set of rules is known as job schedulingjob scheduling
So what’s scheduling?So what’s scheduling?
The use of a set of rules to The use of a set of rules to determine the order that jobs should determine the order that jobs should be handled is called Schedulingbe handled is called Scheduling
What’s scheduling?????What’s scheduling?????
Set of rulesSet of rules These set of rules determine the These set of rules determine the
order in which jobs should be order in which jobs should be handled.handled.
Use of these rules is called job Use of these rules is called job scheduling!scheduling!
More about the rules…More about the rules…
The rules used will be largely The rules used will be largely decided by the importance applied decided by the importance applied to the different jobs to be carried outto the different jobs to be carried out
This concept of “importance” implies This concept of “importance” implies that the jobs can be arranged into that the jobs can be arranged into some sort of order and the OS can some sort of order and the OS can then follow this order of jobsthen follow this order of jobs
HOW IS THE ORDER OF JOBS HOW IS THE ORDER OF JOBS DECIDED!?!?!??DECIDED!?!?!??
How do you order jobs in How do you order jobs in your brain?your brain?
Jobs that require Jobs that require physical strength – physical strength – (interfacing with (interfacing with physical external physical external objects…?)objects…?)
Jobs that require Jobs that require emotional strength emotional strength (things that require (things that require processing and brain processing and brain powre)powre)
Two types of jobs! (for a Two types of jobs! (for a processor!)processor!)
Jobs that required printers and Jobs that required printers and peripherals a lot – such as a job that peripherals a lot – such as a job that needs you to print gas billsneeds you to print gas bills
Jobs that might use the processor a lot – Jobs that might use the processor a lot – such as a program to calculate a prime such as a program to calculate a prime number or square root of something.number or square root of something.
TWO JOBS HERE ARE:TWO JOBS HERE ARE:
I/O Bound Jobs
Processor Bound Jobs
Which ones are given a Which ones are given a higher prioity?higher prioity?
I/O bound jobs orI/O bound jobs or
Processor bound jobs??Processor bound jobs??
I/O Bound jobs!
Why do you think this is?
Exam paper Practice!Exam paper Practice!
Remember the mark scheme is a Remember the mark scheme is a good way to memorise answers! (in good way to memorise answers! (in a concise manner)a concise manner)
From Spec Paper f453 From Spec Paper f453 (Q1)(Q1)
Answers!Answers!
Scheduling/Round Robin Scheduling/Round Robin SchedulingScheduling
Answers!Answers!
If you had loads of things to If you had loads of things to do, you might develop an do, you might develop an unconscious algo in your unconscious algo in your
head…head…
First Watch GLEEFirst Watch GLEE Then Bully little BrotherThen Bully little Brother Then do computing coursework (if Then do computing coursework (if
time left)time left)
Take your computing Take your computing courseworkcoursework
Do first come, first served – as in what Do first come, first served – as in what you’ve been asked to do – you doyou’ve been asked to do – you do
Do a bit of everything – equal amounts of Do a bit of everything – equal amounts of time spent on write-up and programmingtime spent on write-up and programming
Do the shortest bit first (as in do login Do the shortest bit first (as in do login screen, then move on to sorting algorithm screen, then move on to sorting algorithm – leave write-up for last, as its longest!)– leave write-up for last, as its longest!)
Devise a system where you spend some Devise a system where you spend some time on the write-up but an alarm goes off time on the write-up but an alarm goes off if you spend too much time on it, and then if you spend too much time on it, and then move on to another job. Multi-level and move on to another job. Multi-level and complexcomplex
Parts to focus on: Write-up + Coding
Scheduling AlgorithimsScheduling Algorithims Some examples of Scheduling Algorithims:Some examples of Scheduling Algorithims: FCFSFCFS RRRR SJFSJF SRTSRT MFQ MFQ – Multilevel feedback queues – a very complex – Multilevel feedback queues – a very complex
algorithm involving a number of queues set up algorithm involving a number of queues set up according to rules and acting like a set of league according to rules and acting like a set of league tables. As jobs are given lots of peripheral time, they tables. As jobs are given lots of peripheral time, they drop Down the league table, some getting relegated. drop Down the league table, some getting relegated. When a job is finished it leaves the system another When a job is finished it leaves the system another job can then get promoted. In this way JOBS job can then get promoted. In this way JOBS CANNOT SPEND TOO MUCH TIME MONOPOLISING CANNOT SPEND TOO MUCH TIME MONOPOLISING THE PROCESSORTHE PROCESSOR
Scheduling AlgorithimsScheduling Algorithims Some examples of Scheduling Algorithims:Some examples of Scheduling Algorithims: FCFSFCFS RRRR SJFSJF SRTSRT –Shortest Remaining Time – similar to –Shortest Remaining Time – similar to
SJF – jobs will obviously get shorter and SJF – jobs will obviously get shorter and hence nearer the top of the queue as they are hence nearer the top of the queue as they are processed. Jobs are returned to the queue processed. Jobs are returned to the queue when they have to stop for some reason like when they have to stop for some reason like waiting for some input from a keyboard. The waiting for some input from a keyboard. The major problem with this scheduling algorithm major problem with this scheduling algorithm is…..?is…..?
MFQMFQ LONGER JOBS MAY NEVER GET STARTED!
Scheduling AlgorithimsScheduling Algorithims
Some examples of Scheduling Algorithims:Some examples of Scheduling Algorithims: FCFSFCFS RRRR SJF –SJF –Shortest Job first. When new jobs are Shortest Job first. When new jobs are
added it is important to make sure they are added it is important to make sure they are placed in the right place in the queue by the placed in the right place in the queue by the OS making an estimate of the length of time OS making an estimate of the length of time required to carry out the taskrequired to carry out the task
SRTSRT MFQMFQ
Scheduling AlgorithimsScheduling Algorithims Some examples of Scheduling Algorithims:Some examples of Scheduling Algorithims: FCFSFCFS RR – Round RobinRR – Round Robin! The concept of every ! The concept of every
user getting a small amount of time with the user getting a small amount of time with the processor betfore it goes on to the next processor betfore it goes on to the next user. (used in Multi-access OS’s) It uses user. (used in Multi-access OS’s) It uses time slices of various lengths to ensure that time slices of various lengths to ensure that all jobs get a share of processor time!all jobs get a share of processor time!
SJFSJF SRTSRT MFQMFQ
Scheduling AlgorithimsScheduling Algorithims
Some examples of Scheduling Some examples of Scheduling Algorithims:Algorithims:
FCFS: First Come, First ServedFCFS: First Come, First Served RRRR SJFSJF SRTSRT MFQMFQ
Take your computing Take your computing courseworkcoursework
You do what you’ve been asked to do – in You do what you’ve been asked to do – in the order you are given it!the order you are given it!
Do a bit of everything – equal amounts of Do a bit of everything – equal amounts of time spent on write-up and programmingtime spent on write-up and programming
Do the shortest bit first (as in do login Do the shortest bit first (as in do login screen, then move on to sorting algorithm screen, then move on to sorting algorithm – leave write-up for last, as its longest!)– leave write-up for last, as its longest!)
Devise a system where you spend some Devise a system where you spend some time on the write-up but an alarm goes off time on the write-up but an alarm goes off if you spend too much time on it, and then if you spend too much time on it, and then move on to another job. Multi-level and move on to another job. Multi-level and complexcomplex
Parts to focus on: Write-up + Coding
Poor example perhaps – but can you match the types of Scheduling Algorithmsto the examples provided above?
So what is the purpose of So what is the purpose of Scheduling?Scheduling?
It is used in order to try and maximise the use It is used in order to try and maximise the use of the computer and all its peripherals. It of the computer and all its peripherals. It should do this while being “fair” to all the should do this while being “fair” to all the user and ensuring that there is a reasonable user and ensuring that there is a reasonable response time for all!response time for all!
It should ensure, above all, that the algorithm It should ensure, above all, that the algorithm is robust so that the system will not fail either is robust so that the system will not fail either through ovberloading or by becoming through ovberloading or by becoming blocked!!blocked!!
So Scheduling preventsSo Scheduling prevents
(or should prevent)(or should prevent)
OVERLOADING of systemOVERLOADING of system BLOCKAGE of SystemBLOCKAGE of System
Looking more closely at the Looking more closely at the processor and the ability of processor and the ability of
a computer to have a a computer to have a number of jobs in different number of jobs in different stages of processing…….stages of processing…….
We need to know how a processor treats jobs…!
How does a processor How does a processor treat jobs!treat jobs!
Any job can be one of three Any job can be one of three states:states:
Think of your coursework projects!!!Think of your coursework projects!!!
Jose’s coursework project is READY!
Any job can be one of three Any job can be one of three states:states:
Think of your coursework projects!!!Think of your coursework projects!!!
Napoleons coursework is
RUNNING (getting there)
Any job can be one of three Any job can be one of three states:states:
Think of your coursework projects!!!Think of your coursework projects!!!
Darwin’s coursework project is –
incomplete. His brain is
incapable of completing it!BLOCKED!
Jobs can be in three Jobs can be in three statesstates
READYREADY RUNNINGRUNNING BLOCKEDBLOCKED
READY
RUNNING BLOCKED
JOB LEAVES THE SYSTEM
JOB ENTERS THE SYSTEM
Three cool things you need Three cool things you need to know aboutto know about
There is an important thing in the There is an important thing in the processor that controls jobs around processor that controls jobs around the processor is is called the:the processor is is called the:
THE SCHEDULER!THE SCHEDULER!
The Scheduler is made The Scheduler is made up of:up of:
THE HIGH LEVEL SCHEDULERTHE HIGH LEVEL SCHEDULER THE LOW LEVEL SCHEDULERTHE LOW LEVEL SCHEDULER
And the Medium Level Scheduler…And the Medium Level Scheduler…
The SCHEDULER!The SCHEDULER!
The part of the OS that controls jobs around The part of the OS that controls jobs around the processor is called the SCHEDULERthe processor is called the SCHEDULER
There are a number of tasks that have to be There are a number of tasks that have to be done and they are carried out by different done and they are carried out by different parts of the scheduler.parts of the scheduler.
When a job wants to be processed it must When a job wants to be processed it must enter the system and be placed in a queue of enter the system and be placed in a queue of jobs waiting for processing called the READY jobs waiting for processing called the READY QUEUEQUEUE
High Level SchedulerHigh Level Scheduler
This is the thing that loads the job This is the thing that loads the job into the Ready queueinto the Ready queue
HLS = Loads job into Ready queue
Low level schedulerLow level scheduler
When the job that is currently running When the job that is currently running has had to stop then the job at the top has had to stop then the job at the top of the ready queue is loaded into the of the ready queue is loaded into the processor and is run.processor and is run.
THIS IS DONE BY THE LOW LEVEL THIS IS DONE BY THE LOW LEVEL SCHEDULER (LLS)SCHEDULER (LLS)
Jobs may leave the “running” state for Jobs may leave the “running” state for one of three reasonsone of three reasons
Three statesThree states
ReadyReady RunningRunning BlockedBlocked
(can you think of three reasons that jobs might leave the running state?)
Reasons (for jobs leaving Reasons (for jobs leaving running state)running state)
Job may have finished running in which case it Job may have finished running in which case it will leave the systemwill leave the system
Job may require services of a peripheral (like Job may require services of a peripheral (like some printing to be carried out, in which case some printing to be carried out, in which case it will be placed in the blocked queue to await it will be placed in the blocked queue to await servicing)servicing)
Job has had long enough and it has to give up Job has had long enough and it has to give up its place so that the other jobs get a chance…its place so that the other jobs get a chance…There have to be rules for this to happen, There have to be rules for this to happen, obvious example multi-access system where obvious example multi-access system where each user gets a time slice. When time slice is each user gets a time slice. When time slice is ended, job is returned to ready queue to wait ended, job is returned to ready queue to wait its next turn!its next turn!
Another reason a job might be stopped from running – is if a higher priority interrupt comes along!
3+1 reasons
Three parts of schedulerThree parts of scheduler
HLSHLS LLSLLS
Now the third part: MEDIUM LEVEL Now the third part: MEDIUM LEVEL SCHEDULERSCHEDULER
It controls the movement of jobs between It controls the movement of jobs between the PRIMARY MEMORY AND SECONDARY the PRIMARY MEMORY AND SECONDARY STORAGESTORAGE
NoteNote What is the difference between primary memory and secondary memory?What is the difference between primary memory and secondary memory? In: In: ScienceScience, , Computer VirusesComputer Viruses, , Data Storage DevicesData Storage Devices [ [Edit categoriesEdit categories]] Crucial Memory UpgradesCrucial Memory Upgrades
100% Compatible Computer Memory Upgrades. Free Lifetime Warranty!100% Compatible Computer Memory Upgrades. Free Lifetime Warranty!www.Crucial.com/Computer_Memorywww.Crucial.com/Computer_Memory
[[ImproveImprove] ] There are two types of memories: Primary and Secondary. There are two types of memories: Primary and Secondary.
The primary memory or the main memory is part of the main computer system. The processor or The primary memory or the main memory is part of the main computer system. The processor or the CPU directly stores and retrieves information from it. This memory is accessed by CPU, in the CPU directly stores and retrieves information from it. This memory is accessed by CPU, in random fashion. That means any location of this memory can be accessed by the CPU to either random fashion. That means any location of this memory can be accessed by the CPU to either read information from it, or to store information in it.read information from it, or to store information in it.
o The primary memory itself is implemented by two types of memory technologies. The first is called o The primary memory itself is implemented by two types of memory technologies. The first is called Random Access Memory (RAM) and the other is read only memory (ROM). A more appropriate name for Random Access Memory (RAM) and the other is read only memory (ROM). A more appropriate name for RAM is RWM (Read Write Memory), the CPU can write and read information from any primary memory RAM is RWM (Read Write Memory), the CPU can write and read information from any primary memory location implemented using RAM. The other part of primary memory is implemented using ROM which location implemented using RAM. The other part of primary memory is implemented using ROM which stands for Read Only Memory. stands for Read Only Memory.
Primary memory is much faster and also it is more cost effective. But the secondary memory is much slower Primary memory is much faster and also it is more cost effective. But the secondary memory is much slower and also less costly. It stores the data permanently unless it is erased. The secondary memory is usually and also less costly. It stores the data permanently unless it is erased. The secondary memory is usually available in the form of floppy disk storage media, hard disk, CD, DVD, Pen drive (i.e. Mass storage available in the form of floppy disk storage media, hard disk, CD, DVD, Pen drive (i.e. Mass storage devices), memory chips. A 5 and1/4 inch floppy disk typically stores 1.44 mb of data. The data on the floppy devices), memory chips. A 5 and1/4 inch floppy disk typically stores 1.44 mb of data. The data on the floppy disk is organized in terms of tracks and sectors. Hard disk can have large capacity something like 80-300 disk is organized in terms of tracks and sectors. Hard disk can have large capacity something like 80-300 GB's or higher. Hard disk itself is made up of, large number of platters. Hard disk is usually much faster GB's or higher. Hard disk itself is made up of, large number of platters. Hard disk is usually much faster compared to floppy disk. CD can store up to 750 mb of data. Information on CD ROM is organized in terms compared to floppy disk. CD can store up to 750 mb of data. Information on CD ROM is organized in terms of a spiral track. A DVD is digital Versatile Disk and can store 4.6 Gigabyte of information. All these CD disk of a spiral track. A DVD is digital Versatile Disk and can store 4.6 Gigabyte of information. All these CD disk are usually write ones and read many times (if the disk is not multisession and re writable). So are the are usually write ones and read many times (if the disk is not multisession and re writable). So are the DVDs. DVDs.
Difference between Primary and Secondary Memory
READY
RUNNING BLOCKED
JOB LEAVES THE SYSTEM
JOB ENTERS THE SYSTEM
LLS
HLS
LLS
READY
RUNNING BLOCKED
JOB LEAVES THE SYSTEM
JOB ENTERS THE SYSTEM
LLS
HLS
LLS
MLS
READY
RUNNING BLOCKED
JOB LEAVES THE SYSTEM
JOB ENTERS THE SYSTEM
LLS
HLS
LLS
MLS
MLS – A Pre-emptive scheduler. It is allowed to move jobs out of the running state andInto the ready queue. If the job that is running state can only be moved out of it because it hasFinished proicessing or because it needs some I/O then that thin arrow can be removed and theScheduler is said to be NON-PRE-EMPTIVE!
Memory ManagementMemory Management
What does memory actually look What does memory actually look like?like?
In our brains…In our brains…
Still a wonderful mystery…Still a wonderful mystery…
Making some breakthroughs in Making some breakthroughs in understanding it…understanding it…
Computer MemoryComputer Memory
We take memory for We take memory for grantedgranted
We can remember each others namesWe can remember each others names We can remember that we have to wake We can remember that we have to wake
up in the morning and brush our teethup in the morning and brush our teeth We remember that we have a test to We remember that we have a test to
study forstudy for Or which bus to takeOr which bus to take Or what to do if the bus doesn’t arrive…Or what to do if the bus doesn’t arrive…
BUT FOR A COMPUTER – MEMORY MANAGEMENT IS NOT AUTOMATIC
A bunch of circuits……..!A bunch of circuits……..!
So we needSo we need
““Memory Management”Memory Management”
Memory ManagementMemory Management
So what does memory look like?So what does memory look like? It contains the OS…it has lots of jobs It contains the OS…it has lots of jobs
in it.in it.
An entire field of study: constantly evolving, growing, gaining pace, revolutionising…
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
The diagram above shows the state of memory if it contains jobs A B C and D to be processedAnd the OS. Imagine that the maximum size of the memory available to the jobs is 160K. The fourJobs that are there have been loaded by the MLS. Now, imagine that the job with the next highestPriority is JOB E and that is of Size 40K. There is only 35K of free space sot he job will have to wait.
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
The various jobs now take their turn in the running state until one of them leaves the system! ThenThe space in the memory can be used for something else. If the job that is finished is Job C, willThere be a problem? No, because there is ample space!
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
If the job that is finished is Job B –is there a problem?Still no problem because there is now plenty of space when B’s space is added to the free space above it.
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
Finally, what happens if the job to finish is JOB D? – What might happen?
1. Neither of the gaps is big enough so we wait until a gap appears that is big enough!
Three things might happen. We have
three options. Let’s examine them…
think about which is most efficient
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
Finally, what happens if the job to finish is JOB D? – What might happen?
2. Part of Job E is put in the free space area and the rest is put in where Job D used to be, leaving some of the space as the free space
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
Finally, what happens if the job to finish is JOB D? – What might happen?
3.. Or – Job B could be moved down to Job A – which would have the effect of making the free space big enough for Job E…
What Memory looks What Memory looks like…like…
FREE SPACE (35K)FREE SPACE (35K)____________________________________________________________________________ JOB B (25K)JOB B (25K)____________________________________________________________________________ JOB D (10K)JOB D (10K)____________________________________________________________________________ JOB A (40K)JOB A (40K)____________________________________________________________________________ JOB C(50K)JOB C(50K)____________________________________________________________________________
OSOS____________________________________________________________________________
Primary Memory
Finally, what happens if the job to finish is JOB D? – What might happen?
1. Neither of the gaps is big enough so we wait until a gap appears that is big enough!
Option 1 – does this seem like
an effective use of resources? What if the next job is
greater than 160k?
Is Option 2 any better?
Which of the three options Which of the three options is best?is best?
Option 1Option 1 Option 2Option 2 Option 3Option 3
We are about to learn We are about to learn about:about:
SegmentationSegmentation PagingPaging
(so before we look at the options and (so before we look at the options and analyse them)…exam analyse them)…exam question/answersquestion/answers
AnswersAnswers
For the rest of this chapter For the rest of this chapter – easiest to go through past – easiest to go through past
paperspapers
#1#1
answersanswers