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Now we'll try to cover how we create the slave steam interface, right?

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We already discuss how we lead a light interviews.

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We also discuss how we adapt to our existing right.

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So this will give us an idea of fundamental things that we frequently.

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Is used when we are a custom very fitted with the microwave straight, so we go to tools and we select,

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create and package again.

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We will be looking at them for our steam interface.

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So we'll just be naming decides stream.

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OK, Alex.

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So let me just go and click next.

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Now here we need to choose an interview type to history.

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OK, and again, an interface more.

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We will be choosing a sleeve so that basically mean a micro please will be initiating a transaction.

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Click next.

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Again, we'll be using any type of streaming device a bit easier to handle as compared to the full as

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well as light interface.

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Because here we will be writing our own code without depending much on the template that that is provided

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for us today.

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So we'll just open up the pattern model.

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OK.

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And here we have a series of food, OK, which are required for the streaming interface.

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So in our streaming interface, if we can consider.

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OK, so master will raise the value whenever it want to perform a transaction with the sleep.

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OK, so that will be an input to our sleep, so we could clearly see we have an input.

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Why devalued?

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OK, so this is this is the signal that would be coming from a master whenever you want to start the

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transaction.

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And if slave is ready to perform a transaction, then it basically respiratory rate.

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So this will be an output from our sleep interface.

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This two are the global signal, and then we have the right strobe represent.

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Out of all the 32 bit that we have, we divided into eight bit.

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Each big group will be considered as a single line, right?

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So out of the food line that we have when we consider 32 bit data which lean have a reality.

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Right.

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So d stroke and then we have a an illustrator last indicate that we are able to transmit all the stream

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of data.

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And the sample that we are currently transmitting is the last sample that we have, right?

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So we can start the new transaction.

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Great.

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First thing that we do is we will just be removing the template.

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Here we are, performing a connection between the daughter module that we have and the pool that we

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have in the master model.

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Great.

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So we'll just be deleting this.

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So as soon as we remove this, the daughter module will be automatically removed from our mean right.

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So we just have our boats present because when we consider the master interface, the things are much

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easier to understand, right?

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So let it just proceed, OK?

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And declared one temporary variable, which will be holding the data.

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The valid data, whenever we have a valid transaction, rightly or wrongly decided that we have the

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databases of.

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32 bit rate.

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That you could guess from here also.

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So this represent our database.

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And if you just explore the sites, OK, here you could see this 30 to minus one rate so that you are

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known to zero.

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Well, yeah.

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And then we also declared one variable that will store the studios where there are IPPIS free or design

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processing.

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Right?

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So we proceed.

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Always act.

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OK, so was edge of a clock.

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So clock in this case, is this one right?

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So we'll just be copying this and then.

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We start adding the right, so there is a tape that we have.

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Okay, so you could clearly see we have an annual here.

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So this represents the reset time that we have with this interface is an actual all day.

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So we'll just be adding if, okay, if we have not of.

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This one, right, so this basically mean when we apply zero to reset, it's a lot of zero is true.

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Right.

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So that basically mean when whenever we have an act, you low research or temp will be simply equals

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to all the right.

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Hey.

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And since we are.

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Specifying the number is not exactly simple for me.

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So we have specified each zeros over here, so whenever use it, apply reset time will be close to zero.

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Elusive, right?

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Elusive.

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When we see we have a valid data when devalued is high and great is also high, that is must have a

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valid data look and that is indicated by raising devalued Cigna and its Leary's rating.

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That case, we can see we have a valid auntie database, right?

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So we could just copy this.

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So whenever valid, OK, and both are high, right?

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Both are high in that case.

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We could see that now we are ready to sample the data from the straight.

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And this case now since I.

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Data is available, so our IP will start processing, right, so this will represent that our IP is

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now busy processing it right, so we need to declare one Stuart that will be bringing our IP out of

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this business.

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Great to hear when whenever we have an actual research signal that we will also be making flag equals

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zero rate, this makes sense.

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So this will initialize our flag to a value of zero as soon as you apply reset, right?

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And now, since we have a multiple statement read, we will just be adding a beginning to embed both

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of this treatment for this steed of any rate.

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And similarly, we will be going ahead.

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And here also we have a true statement.

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We'll just be adding beginning, right?

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So this will include both the statement for this stupid offer, right?

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We still have one more deed that needs to be defined.

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We'll get that.

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We'll bring our IP back from desisted to a feast.

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Great so far that we'll be declaring.

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Let's assume one Stewart mission, right?

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So we will be having two states.

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Okay, so first one is an ideal.

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Larry just added value of zero and then they just bidding process and let it just the value of one.

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Right?

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Declared one variable that will be holding the value of a stick, right?

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So we'll just be declaring a state of a single bit since we only have a two state rate.

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So depending on how complex FSM you have or you are adding into an interface, you need to accordingly

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choose the size of state.

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So here we only have a two state idade.

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Maybe an ideal system, right?

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So let's just proceed and try to develop the state machine for the state.

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So we always act again will be working on passage of a clock.

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OK, Meghan, any.

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So we already know that, OK?

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If flag is the right flag is zero.

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In that case, we could see that we do not have any new data available, so our state should be an idealistic

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faith as long as we do not have any reality that will be waiting over.

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Here is what we could mention is states should be equal due process rights as basically mean that flag

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value is one that basically mean we have a reality to Rachel.

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From here, you could see that ethnicity valid and both are high.

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We are sampling the data from the database.

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And in that flag is high, right?

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So the what we going to do is the first that are state machine will have that is case on state.

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Right.

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So first, it will be an idealistic right.

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What we are doing over here is we are waiting till we have a valid data, right?

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So if flag is zero, that basically mean we already process and existing data.

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If you apply to an IP, what we do not have any validator to process, right, so will wait in an ideal

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time.

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DeLay flag is zero.

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As soon as flag is said, OK, we will be jumping to a process right in the process stage.

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What we're going to do is.

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Will we simply jumping back to an ideal?

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Rachel, are you good at your application or we're here depending on the system that you are implementing?

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What we going to do here is we are just.

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Jumping back to an idealistic OK.

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And what are we going to do here?

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So basically when we are in a process the next day, do that in Adelaide.

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So as soon as we reach to a process, we could see that we jump back to an idealistic to.

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In that case, our IP is again free.

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So if you go in there now, OK, we could just mention Elza as if Steed is equal to.

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Steed is equal due process in that case, we could just see.

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That we are again free.

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The flag will be equal to when we see rates, so one zero basically indicate that now we are ready to

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pursue needed right.

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So this is the simple logic that we want to add into our sleeping state.

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We'll just be going to what we did over here will just try to remove this area.

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OK, so first, it should be in case and in four days a begins, right?

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So this is an offensive which decides the value of our flag, right?

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September's a temporary stories that we have.

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OK.

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And then flag indicate whether it is busy or not.

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So when you apply a reset, in that case, we are making them to be close to all zero and flag is also

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initialized to zero else.

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When we see that, we have a reality down in stream interface whenever you 1980 both our high right.

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That is what we are doing.

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So utilizing an analog.

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We are checking whether both of them are high.

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So if that is the case, look, we are making them to be equals to so whatever data we have on an input,

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but that is sent from the master.

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We are just doing it in two to break.

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In fact, if you do want to perform squaring of this number, OK, what we would do here is so let us

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assume this is our algorithm that is, we received the data from a master and we perform this grading

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of a great.

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So we just have homeless squaring off it, and then here we will mention that we are busy processing

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it because we have a new leader.

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Then once we reach to the process.

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OK, so we already start processing the data and then we jump back to an identity that you could see

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from the FSM that is mentioned over here.

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We could say as soon as we reach to as soon as we reach to across the city, our flag should be again

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set back to zero.

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That basically mean we started crossing 89 within the same clock.

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We will process duty in the next block.

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We could just meet black again.

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Zero.

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So we are available for a new data, right?

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And then, you know, you could modify this mission according to your department.

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This is just a simple street machine of how you add a logic to a streaming interface, right?

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Who first you decided so we are waiting to set.

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And as soon as, like I said, we jump back to the jump to the process to get where we are the leader

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and jumping back grenade is right.

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This the and entangled.

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Now remember, one thing is that whenever you are working with an interface, OK, and whenever you

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remove a template, see that all the output words have a logic assigned to it.

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So here we have a single output that indicate when our app is ready to accept the new data, right?

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So we have introduced a new logic to it will go ahead.

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They added over here, right?

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And here you could really see when our IP is ready to accept the new data.

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So when flag is one, our IP is busy processing a so we cannot accept the new data.

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But when flagged zero, we could see that we have.

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We are ready to accept the new date.

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All right, so here we go.

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Just mentioned this to be close to not of lack, right?

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So we have not added any logic, was Struble lost?

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In fact, in an interview.

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And since these are also not the mandatory signals, we could just remove them from here.

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Right?

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So this is how simple the steam interfaces.

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So with this flight signals, we could communicate from master to see C, right?

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So this completes an entire year now, will proceed and see what I could write whenever you complete

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your course.

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The first thing that you do is OK, since here we are not utilizing a template.

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We will proceed to add that excel script.

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Checks in tax say this will verify whether we have any added warning presently not design designed.

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So this warning is related to the daughter module that we have, right, which we already removed.

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And since we are not utilizing it, let's just delete it from here.

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So right click and remove file from project rate.

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OK, so what is complete, we also removed the new school.

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Now we go to a Package B tab and you could see the series of modification, right?

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So we go and merge all the changes.

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Now, if you analyze it, you say, OK, so you have an exact scene that has been added to our eye.

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Right.

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So we go ahead and repackage our IP.

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Right.

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So once packaging is done now, we proceed to our blog to say this is the fundamental block design that

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we have created with the T cell script.

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Click on this plus button and then let it just search for and see stream IP that we have created, right?

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So we'll just search for the STEVE.

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Right, Axie.

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Version you.

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Right?

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So once you act is you immediately do not like the nation automation as you are getting when you are

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working with the lighting device because with the lighting device we do have an image could be bold,

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but with the streaming device, you do not have a direct interface to connect to.

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A microphone is right.

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Handle that we have a screen people available, right?

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So that is an intermediate block that yeah, this will basically communicate between micro police with

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the help of animated people.

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And then this will communicate with our IP utilizing the streaming device, right?

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But you'll see a lot of things that are available, which we do not require, right?

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So we'll just double click to customize the block, right?

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And we'll be using the pins that we require that we do not require, transmit control.

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You only require, transmit, do to.

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In fact, received data is also not required and data interfaces and exfiltrate.

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So this allows us to interface it with the.

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Right.

241
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OK, now you will see.

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That we have in sex interviews, OK, so that is used to communicate the data from Michael Bliss to

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the IP again, then depending on the command that we sent the data that we will be communicating from

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this output to the IP, right, already just performer connection automation.

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So when you perform a connection automation, you could clearly see now we are able to connect the CDP,

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put up our microbe list to the Steve Intermediate by Steve, you know, if you just select this board,

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you could actually connect it to do a sexy interviews that we have with the streaming API.

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And once you do that.

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Now this is a log and research and could be invoked from the.

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A clock in the reset and Bill that we have on enlightened of this, so will just be going ahead forming

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a coalition automation.

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Now all the connection to eat, reset and all are connected.

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And in fact, the streaming interviews that we have is also connected, right?

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So we just regenerate literally out again if you count the number upwards.

255
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So we have resets this clock and USB like right solar, just proceed for validation of design.

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So once validation is successful, we go to a third step, which indeed the rapper and since.

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All the ports have been mapped to the respect to.

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We do not need to do anything right.

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What we can do here is through the data that we are writing could also be sent on analytics so that

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we also get a visual indication of the data so that it just goes right click on edit in an IP package.

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So this is how you edit the IP that is being created now.

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This will automatically open a new project with.

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So we'll just modify the code so that the reader that we write will be sent on to a lead so we can visually

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verify whether data is correctly sent right.

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So let me just add upvote, OK?

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To this IP, so output.

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Wire, right?

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And we have a 16 lead is available on visas so early, right?

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And then we proceed.

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Then saying LSD.

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Right, and this will be close to let it just remove this glaring, logical way here, right?

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And we'll just be keeping the data that we have on ended up with both devices into a template and the

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16 Ellis Rupert will be sending from them to the A-League.

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Right.

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So this allows us to mutually verify whether the data that we are sending is actually been received

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by our creator with this modification, just space controls to see the code go to a package.

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AP We merge all the changes.

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OK, and we are going to be.

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And so once you modify your IP, we will automatically report the status that you have some modification

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in an IP.

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So we just need to click on this report IP status, then it will reflect all life issues which have

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an update.

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00:18:09,050 --> 00:18:11,540
We just be selecting upgrade, selecting right.

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The ones upgrade is completed, right, so it automatically generated the pop out to can all the necessary

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files, but will not be generating it.

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No.

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So now you could see that R.I.P. having LSD would be attached.

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Right.

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00:18:28,320 --> 00:18:30,160
But just be making this external.

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Again, we named it as a leader because we already have generated the constraint for an elite in the

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previous year, so we'll just be utilizing the same constraint here.

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00:18:40,570 --> 00:18:46,360
Also right now where I have one, two, three and four gold out of which one, two and three are all

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routemap.

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And we will be utilizing the cancer gene from our previous design because they're also utilize the same

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00:18:52,810 --> 00:18:54,100
name for a book, which is elite.

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00:18:54,190 --> 00:18:59,230
So we go to a to click on this button and we select I don't create Consti.

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We'll just be naming this a stop.

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Click OK, hit finish.

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Right now, if you go to and construing folder, you have to opt text to see where nothing is mentioned.

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You'll just be copying the code that we declared in our previous example, because there also we have

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a simple name and we want the same thing, the same data to earn a living, right?

302
00:19:18,340 --> 00:19:21,930
So we go ahead and we had it over here, right?

303
00:19:21,940 --> 00:19:23,320
We'll just see our constraint.

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00:19:23,350 --> 00:19:24,730
So once that is done?

305
00:19:26,180 --> 00:19:28,700
Let me just first gently drop, right?

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00:19:30,060 --> 00:19:34,890
Once that, but it's generated now, what we want to do is we will be performing a synthesis, even

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00:19:34,890 --> 00:19:41,130
though we have specified the constraint, just verify whether we were able to find the board's been

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00:19:41,130 --> 00:19:43,690
defined for a live report, which is external, right?

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00:19:43,980 --> 00:19:46,620
So we go ahead and click on run synthesis.