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in this lecture we'll be studying about
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threats threats are an important topic
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in operating system and in one of the
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previous lectures when we discuss about
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process management I have shown you the
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difference between processes and threats
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so I told you that a program under
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execution is known as a process and
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threat is a basic unit of execution so
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each program may have a number of
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processes associated with it and each
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process can have a number of threats
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executing in it so thread is a basic
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unit of execution or a basic unit of CPU
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utilization so that is how we can define
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a thread it is a basic unit of CPU
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utilization now let us see what
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comprises of a thread so a thread
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comprises of a thread ID a program
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counter a register set and a stack so
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each thread comprises of these four
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unique items and apart from this it
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shares with other threads belonging to
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the same process it's Code section data
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section and other operating system
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resources such as open files and signals
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so these are the things that comprises
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of a thread and apart from that the
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thread shares these things like the Code
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section data section and other operating
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system resources are shared between
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threads belonging to the same process so
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as I told you a process can contain
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different threads so the threads
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belonging to the same process will share
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the resources slight open files signals
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Code section data section and other
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things so that is how a thread is
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basically made up so a traditional or
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heavyweight process has a single thread
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of control but if a process has multiple
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threads of control it can perform more
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than one task at a time so a traditional
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process also known as a heavyweight
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process had only a single thread of
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control that means it can have only one
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thread but this is not a very efficient
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system but if a process is having more
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than one threads then each thread will
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be assigned a different task and hence
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that process can perform more than one
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task at a time because it is having
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multiple
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and multiple threats will be performing
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multiple actions so there we see how
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treads becomes useful and how using
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threads makes the system much more
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efficient so here let us try to
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understand the concept of threads using
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these two diagrams so here in the first
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diagram it is a single threaded process
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which we refer to as a traditional or a
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heavyweight process over here so here we
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are having only a single thread so this
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whole block is considered as a process
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and this process contains only one
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thread and this is the code section the
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data section the files the registers and
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the stack belonging to this process so
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there is only one thread that means this
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process can perform only one task at a
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time but in contrast to this here we
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have another diagram showing a
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multi-threaded process so here this
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whole block represents a multi-threaded
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process so it is a single process and it
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is having multiple threads over here so
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if you see there are three threads in
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this process and each of these threads
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they have their own stack and registers
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so all these three threads they have
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their own stack and registers and if you
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see on top the code section the data
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section and the files belonging to this
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process are shared by these three
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threads and each thread they have their
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own stacks and registers so this is a
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diagram of a multi-threaded process so
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in this case this process can perform
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multiple tasks at a time because each
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thread will be performing a different
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task and hence multiple tasks can be
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performed at a time by the help of this
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multi-threaded process so from that
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itself we must have understood that it
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is much more efficient as compared to
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the single threaded process and it will
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make our computation faster and more
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efficient so in most of the systems that
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we use today we follow the system of
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multi-threaded processes it would be
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good if we can visually see how it works
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in our system in order to understand how
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processes are there and how threads are
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associated with the processes so here I
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have a small software
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processed threats view which helps us to
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see the processes and the threats
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running in our system so if I click here
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I can see the processes running in my
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system so I have opened the chromium
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browser in my system so here I can see
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the chrome dot exe processes which are
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running in my system so there are quite
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a few number of chrome dot exe processes
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running in the system now if I want to
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see the thread associated with it I will
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just click on it and here the details
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about the thread is populated so there
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are this many number of threads
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associated with that single chrome dot
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exe process that was for running so as I
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told you the thread comprises of a
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thread ID so these under IDs of the
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thread which identifies those threads
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uniquely and then these are the context
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switches and the last context switches
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that happened so we have discuss about
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context switches in one of the previous
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lectures and here there are so many
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informations about the thread that we
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have selected now if we come here we can
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see that there is the address of the
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thread and here we can see the details
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of the stack associated with that
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process so I told you that threads also
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container stack so in this way we can
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see what are the processes running in
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our system and we can also see the
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threads associated with those processes
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so we clearly see that in this system it
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is following a multi-threaded approach
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so when I click that single process of
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that chrome dot exe we see that this
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many number of threads are running
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inside that process so each of these
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threads may be used for performing a
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different task so in that way the
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browser can do more than one task at a
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time so let's say for example one of the
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processes of this browser chrome load
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exe is used for displaying the web page
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on the browser window and let's say that
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another thread is used for downloading
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something from the internet so we know
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that when we are downloading something
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we can also view the page at the same
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time so these two things are happening
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simultaneously that is possible because
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we are having multiple threads one
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thread is taking care of displaying and
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the other thread is taking care of
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downloading so if we were having
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a single-threaded process then while the
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downloading was happening the page could
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not be displayed or while the page is
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being displayed the download will not
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happen so that is this a simple example
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that I want to take in order to make us
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understand the usage of multi-threaded
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processes so different threads perform
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different tasks and hence multiple tasks
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can be performed in the same time hence
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improving our efficiency and speed of
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computation so we have seen a visual
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example of how multi thread processes
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are there in our system now let us see
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what are the benefits of having
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multi-threaded processes so from the
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example that I have taken you must have
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already understood the benefits of using
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multi-threaded processes but let us
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understand these benefits in more detail
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so the benefits of multi-threaded
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programming can be broken down into four
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major categories so let's see what they
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are one-by-one so the first benefit is
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responsiveness multi-threading an
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interactive application may allow a
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program to continue running even if part
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of it is blocked or is performing a
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lengthy operation thereby increasing
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responsiveness to the user so we are
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having a better responsiveness if we
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have multi-threading so I can explain
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this using the same example that I took
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about the web browser since we said that
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we are having different threads one for
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displaying the web page and another one
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for downloading and let's say that
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another one for the user to interact
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with the web page so if only one thread
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was there then until and unless one of
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the tasks completes the other task
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cannot be done so the user have to wait
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for one of the tasks to be complete in
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order to go to the next task but in case
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of multi-threading since different
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threads are simultaneously performing
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different tasks the responsiveness to
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the user increases so that is the first
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benefit of multi-threaded programming
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let us see what is the next benefit so
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the next benefit is a resource sharing
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so by default thread share the memory
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and resources of the process to which
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they belong the benefits of sharing code
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and data is that it allows an
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application to have several different
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threads of activity within the same
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address space so the next benefit is
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resource sharing so when we saw the
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diagram of
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different processes here we saw that
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these multiple threats they are sharing
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the resources of the same process so the
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code data and files are shared between
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these three threats so we said that it
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shares with other threats belonging to
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the same process it's Code section data
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section and other operating system
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resources suggest open files and signals
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so we see that resource sharing is
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happening in multi-threaded programming
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so the benefit of sharing code and data
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is that it will allow application to
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have several different types of activity
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within the same address space so we can
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have several different threats in the
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same address space of the same process
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so by resource sharing we are making our
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system more efficient because it does
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not need to have separate or dedicated
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resources for each and every threats so
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sharing resource is another benefit of
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multi-threaded programming so coming to
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the next benefit we have economy so
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allocating memory and resources for
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process creation is costly because
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threats share resource of the process to
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which they belong it is more economical
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to create and context switch threats so
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we already saw that there is a resource
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sharing happening in case of
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multi-threading so if there was no
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multi-threading then we will need to
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have a separate process for each and
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every task that has to be performed and
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allocating memory and resources for the
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processes is costly because each process
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will need to have its dedicated
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resources and memory which it may not be
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able to share with other processes but
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in threads as they are able to share the
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resource of the processes to which they
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belong it is more economical to create
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and switch between threads because we
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don't need to have those dedicated
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resources they are able to share and
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hence it is economy so this economy it
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comes from this resource sharing now
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moving on the next and the last benefit
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that we have is utilization of multi
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processor architectures the benefit of
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multi-threading can be greatly increased
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in a multiprocessor architecture where
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threads may be running in parallel
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different processors a single-threaded
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process can only run on one CPU no
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matter how many are available
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multi-threading on a multi CPU machine
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increases concurrency so the next
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benefit we have is utilization of multi
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processor architecture so we have
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already studied about multi processor
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architecture in this lecture series of
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operating system so multi processor
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architecture means there are several
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number of processors in the world system
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but if we are not having a
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multi-threaded approach and instead
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having a single threaded process then
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what will happen is that if we are
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having one process that one process can
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run on only one processor or on one CPU
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so you may have different CPUs so let's
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say for example that we are having four
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processors in your system but even
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though you are having four processors
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since your process is a single threaded
00:11:59
process that single process can run only
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on one of the processor so no matter how
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many number of processors you may have
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having a single threaded process will
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run in only one of the processor but if
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we are having a multi-threaded approach
00:12:16
then what will happen is that we know
00:12:18
that in a multi thread approach each
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process has different number of threads
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associated with it so each of these
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threads can run on these multiple
00:12:28
processors let's say that there are four
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threads associated with a single process
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and then there are four processors in
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your system so each of those threads can
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run on one of the processors so thread
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one may run in processor one thread to
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myrin processor two and so on so in this
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way we see that the tasks are executed
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concurrently at the same time and hence
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the process will be completed quicker
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and it is more efficient that is what we
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mean by utilization of multi processor
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architecture so if we don't have a
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multi-threaded approach even though we
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have multi processors it is not very
00:13:03
useful because we are not able to make
00:13:06
use of the multi processor architecture
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but in case of multi-threading we are
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able to make use of the multiprocessor
00:13:12
architecture hence improving our
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efficiency of computing so these are the
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main benefits of multi
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programming so with this I hope you got
00:13:21
the basic idea of threads and what is
00:13:24
the meaning of single threaded process
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and multi thread process and we also saw
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that most of the systems now we follow a
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multi-threaded approach and we see that
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how a single process can have multiple
00:13:36
threads associated with it and how they
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share the resources of that process to
00:13:40
which they belong and how these things
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are beneficial for our computing so
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we'll be studying more things about
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threads in the coming lectures so for
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now I hope the basics of thread is clear
00:13:51
to you
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so thank you for watching and see you in
00:13:53
the next one
00:13:55
[Applause]
00:13:57
[Music]
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