WEBVTT

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So here we are on an official website of religion and one of the popular D'ARC available to be more

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interfaces, be more before.

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OK, so it will be digital and it can accept a books foot sign in New Zealand.

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And it is very, very small.

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So we can be easily defeated on most of the Keesing books that you can design around a nexus, for example.

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This way to have any journalist and find A, B, C, D, E, F, G, all of the china.

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And then you have fourpence two for two for three.

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And this six months where you'll be feeding from an effigy.

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So let us try to understand this experience in some detail.

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And we found that this attack is expecting all of us.

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Right.

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So you'd have any child will be OK.

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And then the most important thing is its internal affairs mortgages one point five and a resolution

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of approximately one.

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So that is fine.

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So this is the structure of what is this?

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So there that you have this registered hands and we see the reading this listed only after all the data

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is being updated on the register, then we can generate a specifically.

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So you have the first forum is a bit undefined.

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So you can few details on one word here, then you have a command.

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So this decided the operation of our deck.

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So, for example, you can see the reader in and wait for it to be good until there's an additional

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financial signal.

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Or you can do that as soon as you get arrested as you get to subject the new command.

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So it'll be programming for this operation.

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And for that, the code is zero three.

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You're going to need to be looked into the four from referring to this website that is used by six to

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eight.

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Then you have an address.

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In a way, we declare this because we have a multiple chain.

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So since we have any different and so on, which chain of you went and had an accident that is decided

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on the basis of this e three to one any.

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OK, will be usually targeting 2008, the analog signal on the first channel that is so that all we

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could be keeping and see, then you have a twellman, which are the defense order database.

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So depending on this, will be generating an analog.

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And finally, the rest is a bit different for a fugitive space.

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So command, it will be zero three a case.

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Address, which will be Zettl, since we want to understand, and a lovely form on.

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China, then we have will be data and finally undefined.

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So if you looked into the six men that we have on an interface which will actually be connected to will

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be more interface on a nexus for union.

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So it consists of a chip which is used to enable and then we have M.O.s, which is Masato.

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And and so he is already on the form that can be generated.

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It's controlled entirely by the Bee Gees over then it.

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So Amboise is basically a data from the deck, which is a sleep which is just popping out.

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And then it'll be fun depending on the data that you are feeding, then this is a new connection, but

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we're not connected and then we have a slower clock which will be operating at one regards.

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And then we have a power that is vicious and we'll get us some of the things we'll be discussing, so

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let us understand some fundamental concepts and then probably let us try to understand.

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So fundamental to that is basically a 12 that digital blind date to let us assume that we feel the value

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of FFM, which means all the tools.

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So this will result in to a maximum digital from digital.

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And when we feed, all XLF will be getting to work.

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So this is very simple.

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The next important thing is the minimum we do that we can do for that.

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OK, so that will happen when we feed.

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Zero zero one in a.

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To the right, and it is very easy to calculate, and that is often.

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The Amazon resolution, so resolution is basically the maximum goldish that you get divided by the number

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of birds that you have.

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That is to raise to 12 minus one.

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So this will give us a minimum wage and then you can calculate the value for any competition.

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So, for example, you want to get ready for A and B, you simply want this to work.

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OK, so let's assume that we are getting some value.

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So the analog analog will simply be analog output will simply be this is the single step that is the

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resolution multiplied by the Count X that you make.

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So this is how you calculate and I love output inside of the.

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Now, let us try to discuss our future and how we are expecting to do so, we start.

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And then we probably have one country where you can decide when to start.

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So here will be adding that is a deal was it is probably not a good idea to be start of something like

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that.

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So we'll just start.

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So we'll check whether the stock is high.

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So you started to say that indicated you don't want to start today, saying that we will proceed and

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as will be just ruling court here.

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So this will be right then.

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We start with an ideal state, in an ideal state, we will initialize all the.

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All the temporary pretty variable.

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Before the event, OK, this is the first thing that will be doing then usually to start working on

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it, that you need to send some magic number in the first.

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Then we'll need it configured.

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So for the configuration of all that, it will be send a magic number and then we can proceed with the

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normal operation.

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So here we basically set up our deck.

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So this second stage will be set up where we'll be sending a magic number between initialize all the

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district and get ready for an operation.

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As soon as we complete this, we will be sitting in.

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Collecting the data which needs to be sent for collection of this will be from a user that does depend

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on what would reduce the user, want to generate a collection of data and then transmission or for data

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to attack.

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And then finally will be.

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Again, jumping back to election of a little bit.

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OK, so this will continue as long as you want to perform its operation, right?

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Now, here, you'll be finding that odd function do have some problems, so, for example, if we implement

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a machine like this, the finding, we will send stock to live once we intend to start only once and

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then will never have any control on what we'll do after our transaction is complete will again.

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So that will be whether you want to continue our operation or not.

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So here, instead of directly jumping to a collection, what we will do is we will again check.

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We will again check where the stock is still high.

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So if it is still high that indicate user want to continue our operation.

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So we'll simply jump in here or else if it is low, if it is, we will be jumping to.

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And ideal condition.

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OK, so this looks a good future, and we found that the deck is expecting it for it to have a smaller

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block or see the floor.

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So this will be operating at some dedicated speed that you would want.

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So we will be targeting property, Don, when we got to the cloth that we have on board is underway.

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Which is faster than the slower clock, so we need to fast forward this to when we got this is the first

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thing that we'll be doing, then we need to enable it.

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So for that, we have an gypsum.

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And that is an actual.

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Then we have a data night, so we just need this data, or in fact, Mosad also find we can just name,

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address and date.

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So the stock ideas will be an effective way to start a transaction.

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We'll make it look, the first thing that we'll do is we'll send it back.

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So that will be a set of data.

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We'll be sending a set of data first, and that will be Busoni.

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So set of data.

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So since this sort of data will consist of that, you do pretty well, even though more and more I say

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only a single bit.

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But reinforcing your understanding.

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Right.

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And then to complete your transaction, we need to make chips again.

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I think then we will make that move and will then send an actual data.

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So here we go from here will actually send an actual data.

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And again, we'll make chips in a computer transaction, then we'll again since start and then we will

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continue the process.

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So this is what we.

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Will be generating one for you.

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And this is what the deck is expecting.

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So from where we have figured out this so that you can easily definitely desert and you can easily guess

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what we found, that your due date or what reform your taxes expert.

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So now you will be finding that we have a maximum frequency that is specified that we cannot will on

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certain frequency, but below that range we can have any frequency.

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So timing doesn't mean much.

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But how you think the data plays a very crucial states along with this.

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We know that the first be, if we consider that a little bit register, which is an important part of

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this, is how we'll be generating an analog waveform.

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And this plays a crucial part.

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Right.

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So first, the first four that will be.

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And different rate then we have.

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Then we have a command to command will be three, which indicate that will lead us and is using the

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data or will we do this?

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And then we have an address which we select which analog chain that we want to get in.

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So this will be zero.

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So we'll be looking at analog phone one.

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Finally, then we have what will be data and finally, a bit of undefined.

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So this we just need this simple.

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OK, so here we have X three zero, then we'll be probably targeting, first of all, one.

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OK, so the maximum voltage and then to x ray, so.

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This will be forward, command will be foubert or this will be foubert, but I need to 20, 20, 20,

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30.

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So this is the data that will be sent.

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So the data that we'll be sending is.

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See you three x indicate that we can this and so I'm planning to send zero zero three zero.

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Then three F.

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And then finally, so you can guess that I have been reading this reading in hexadecimal fourth grade,

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so this is B and hexadecimal.

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So we're just having.

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And so here to indicate that the hexadecimal data and the sort of data that we have that we get out

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of it is basically eight six two zero zero zero zero zero.

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So this you need to say once when you want to start your operation.

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Right.

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So this summarize an entire operation of that core of three more days.

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No, let us go to what we are doing and start changing our.

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OK, so let us start designing S-Bahn, so we'll be using a clock, then we have a clock, which will

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be an out of date.

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So our standard in this code logic along with a this glove, we also have say it will also be an undisclosed

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standard.

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Understood logic.

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And one more thing that we have is the chips and chips, and it is another thing that along with this,

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if we want to consider the data from the island, input from that is going to be done.

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But that will not be targeting right now.

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We'll be keeping our entire system simple just to improve it.

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And one more thing that I like the Stockmann, OK, so it will be in the school.

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So our system basically have a clock which will be out of work, lock stock, which will be a switch,

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which will decide when to start operation and the rest of the pin that it is to select belongs to.

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And so they haven't alphabetically.

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So let us start by declaring.

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First, we know that we are required to do this first, then step back and then we have an actual date

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that we want to continue to for, right.

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So let us just declare a signal.

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One of the disturbed will be declaring the standard and this logic on this vector.

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OK, and.

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We will be declaring them as Turkey, one of the leaders since the how they have those signs of Turkey

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and will use index which indicate that will be putting the number in 2001.

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And we know that September should be eight to be serious.

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And finally, the zero zero what.

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Right.

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So this completes the set up dark.

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Then we can add data which will be changing in realtime when we consider that.

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But initially you can generate a maximum of recorded just to debug whether your phone is actually working,

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what you are expecting.

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Although, again, you do have a sense of the little bit that.

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Thirty one known.

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X and then zero three.

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Zero f f f.

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Finally, to see this complete declaration of war that will be popping open that no ladies first can

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do that, we know that the group on blog that we have is a hundred records and we want to date when

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we got it right so we can see even process, which will be sensitive to a clock which is out on the

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clock.

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So we know that since we have one on bookclub frequency of hundred figures and we want an awful frequency

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of one megahertz, we're going to divide.

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The dividing line that we require is to hop on the 50 so four counties, Nasdaq, and in fact it belongs

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to a clock.

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So specifically we can name that it's called clock is less than 50.

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So zero to forty nine is basically a 50 clock cycle.

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Then then we will be simply simply incrementing the clock will be.

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Incrementing by.

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They.

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Ls ls what we can do is else we will be making our own clock to zero first and a temporary clock variabilities

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and the clock temporary clock will be close to north of the clock.

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Right.

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And then finally we will end our statement and we learned process.

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So let us declare this to enable it to be lost clock for four o'clock in process of locking crosses

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the very well that we require.

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Odd plus one is the signal countdown clock, which is the variable rate.

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So it will be an integer range from zero to since we know that we are going to 50.

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So let us assume to be fifty one.

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Right.

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And will initializes zero and deliverable for holding the state of our schools.

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So the clock standard and this cold logic and then probably initialized to right to this building whatever

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and will complete our blocking process.

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So this is pretty much easy.

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And instead of you and you can also name the dance floor.

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Glock Generation eight.

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Now, let us start with data generation process.

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OK, so this process will not be sensitive to a non-vocal and it will be sensitive to the slower growth

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which we have already done, that is.

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And then we need to kind of look like.

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So first, we need to declare this man is doing great.

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The first one is an identity.

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Then we have.

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Set up straight, then collection vehicles and so on and so forth, so it is just handed.

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This by dignity data generation process, so the.

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The first thing that we do is declaration of war type, so deep seated state.

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This is simply a state, according the values tidiane then we want to set up.

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Since we already have utilized this order here, so let us just rename this set of data set up, then

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we have collected and.

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Transmitter to transmit.

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So right now, we can hope that this amount of speech really quite low signal, then the state will

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be a variable which will be operating on the state and nation state will be all with an identity.

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So this completes at least the state.

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Now, let us put on this if.

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He had one thing that we thought, and this is what is four o'clock, right, raising your clock then

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and finally, we need to have an.

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And it was OK.

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Here we will be again, working on the rising age of us, rising, each and the clock might begin.

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OK, now here we can make our research, Synchronoss of so we demand that our stock should be synchronous

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later on in some of the project, we also understand how you started in synchronously odyssey for us,

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if stock is for a start, is one, it started zero.

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Then then what we can do is we can initialize all the variables to that initial one.

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So let us declare the variable today.

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The variable that we require is for select, right?

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So the four o'clock is already declared and B and most likely they will be having the say of a single

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word that is initialized then frequency rate.

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So if start zero.

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We will be making the sequester zero and one more thing we can do is to the DNA to be also initialise

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to see, you know, we know that this is an actual leupen break.

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So it really should be.

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What else?

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If we can make an.

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And surprisingly, not speaking, right now, we can start writing case speed is OK.

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And right now I immediately identification here and case and and and

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so now we can start writing a logical.

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So it started zero then.

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We will be here as if Elative indicate that Stack would be won and we are getting closer to each of

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the great of the state, then when we are in the United States will be, which will be our ideal case.

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We also want to initialize all the values to this.

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So when we are in this value, we will be simply jumping to the next Ridge's second state.

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And instead of what will be doing is.

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Will be sending or transmitting this set of values, which we declared here.

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So when we set up to know we want to, since this is a single but not a single thing, we want to transfer

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this data into civil form.

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Right.

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So how do we do that?

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If

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found this, then then then then then we know that the mosaic is an old footprint that we are targeting.

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It should be close to set up a data set of data.

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Now if we want to transmit a list before so then we can to get a head count since count will be initialized

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to zero.

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Here, let us do it here.

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US.

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So.

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After this weekend, I signal comes and we know that this will go up to the field and territory and

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let us initialize it, was it?

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OK, so if listen, do so we know that when we will hear count, we'll have a value of C, right?

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So if you write like this, it will basically sort of underscore OK, and vote value is basically but

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if we want to transfer, then maybe we can simply write 31 minutes.

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So this will basically translate.

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So underscoring to the 31, which will be out in this district and then the back is expecting.

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And it must be value from us, so that is the reason I am writing like this and along with this, we

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also need to increment count by one else and indicate that we completed all the transmission rate,

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all the transmission.

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So we need to complete a conviction.

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So we do that.

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We need to make.

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You need to make.

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Chip Selecta, one which indicated that our transaction is completed.

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And we can jump to a next Ridge's collection of words that we use this Detny, right?

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We can then.

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So here, when we are in an identity, we want to.

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We want to basically make sure that all the way to this valley and then we jump to Aceto, we want to

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start on suspicion of murder.

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So here is what we want is.

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The chip select value should be low to start a transaction rate.

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So what we can do is we already have initialised speaks to one on an ideal value and starting zero.

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So when we reach an ideal, what we will do is we can make this so.

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So next cycle, we can immediately start conservation, all right, so here, if we make Gypsie look

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good here.

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So in the next, we will be logging by one.

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So when we are in an idea here itself, we will be making no date and we will initialize Mosad to it.

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And then we immediately jumped to a sector where we will start transmitting the data.

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And this is what we are expecting out of such a should be no.

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And then we should start concentrating right here in the United States.

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We are making chips and we are transmitting the data.

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And then in an elf that is after we complete the Constitution, we usually make chips at a time.

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So this completes the transaction and then we will collect state.

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When we will collect state, we want that, we want that chip select should be to a good start fighting

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for next leader.

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And along with this, we want that data.

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Data should be our data should be ready.

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So we will simply make here take place in an actual practice.

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So you don't need to read.

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We know that first for this post for bedsore.

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And so we like to settle all that, OK, and then we use a phone operator, then we have a command which

28:56.210 --> 29:01.070
is three, which indicate that we will be immediately generating analog for Dick.

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As soon as we get any data, then we want to get on in China.

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So three zero eight.

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We will be contacting it with new data, and that data can be from detail, which will be a little bit

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imperfect, which you can take from a previous month.

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And finally, we will take you.

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So this will be actually doing in practice when we are actually targeting the real deck.

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But the Nargiz DSG is all available and we are going to fix data simply writing like this so close to

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data.

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So we are doing that right.

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And state will be.

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The transmission rates of water transmission, we have used the name as.

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This thing, I guess, is clear.

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So we are making chips which indicate the start of new deterrents.

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We should be updating our data.

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In our case, we are simply making it.

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Equal to a previous data, and then we transferred the data, so when we jump to a transfer rate to

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what we can do, it will again do the same thing.

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So if and since we have made our county close to zero here, we can now use our phone.

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So if counties listen to you then.

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The most, the most I will be close to our data.

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And again, we want to go to the movie theater minus value at eight and.

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Don't will be incrementing by one great account, will be close to countless one.

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ALS, ALS.

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And we'll be making phone calls and will be completing our transaction.

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So let us complete our transaction by making the chips select again equals one.

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Right?

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And now we need to check whether stock is still high or let us declare one more state.

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So state will be forced to check and check and let us move on to next step.

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So here we need to add our new state, which is check state.

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Right.

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And no, we can go forward here.

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So when it is check what we will be doing is if started still won, then then we can move to collection

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of new data and again, repeating the same procedures.

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Remember, that sort of need to be done only once, right?

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So state will be collect if it is slow.

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This indicate that all the data is completed.

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So we will again jump into an idea.

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OK, so state will be equal to like.

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And we can then and if and any cases already been benighted, do not forget to add the divorce, since

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this will also lead to a creation of left when others state will also be invited.

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So this complete sudden diet, let us try to figure out then it sort of warning that we are getting

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so here.

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The warning is so good, we do not need to add up to it.

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It should be done.

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And now we like to see what is a.

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OK, so let us find out one more that it is the.

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So that data and processes in place, I guess we should get everything.

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Yeah, so we start to see a V..

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Now, us go back to Simone.

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Here we are inside and we so we're just trying to see whether we are actually going in but the state

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that we are expecting.

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OK, so just click on run simulation.

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We can also detect, as mentioned.

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So what I do is I just started in an information depth so that you can also test agenda to stimuli automatically.

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OK, so right now it is not necessary.

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We just need to force the clock and start only to signal we need to hold so we will not unnecessarily

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at 8:00 a.m. So let's add a fourth clock and the frequency that we are targeting is ten nanoseconds,

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which is equivalent in regards.

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And then let us make.

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Starting with what?

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OK, so let's force thing.

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And it'll be finding yeah, so.

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These are actual output signals are not triggering, so this probably we have missed, but the rest

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of the things we're finding that this clock is just perfect and the transition, if you see data, we

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are going from ideal to yeah, that is what we are expecting a bit of setup we should be able to collect.

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So we are going to collect and then after that we are going to do our transmission and then we are checking.

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So it should be checks to the check.

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And if it is one and since the start is when we are going back to right and observe.

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So which also plays a prominent role.

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So when we start our transaction.

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So let us just go for it.

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OK, so just to chip select will be finding.

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That whenever we do a transaction, so when we send all the data set of data here we are getting chips

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and that's when the next productize when we compute transmission.

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So the phone is also correct.

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Just one thing that is missing, reliable.

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So after an interest will just connect as a clock to the clock.

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Then Chip Zellick to the chip select.

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Finally, the last thing that we have is a blizzard to the moon.

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So now you have a cool option.

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That is, you can either Lidice us starting to see a green color, you can either do a remote simulation

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or you can perform a simulation.

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So whenever you add a new input output, both inside your previous module, you need to perform run

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simulation so it won't automatically update all dials.

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So whenever you add a new Wilfork inside an entity and then you declare its behavior, you need to perform

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the simulation.

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But if you have change an existing values, you do not need to work on the simulation.

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You just relaunch the simulation.

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So remember this strategy.

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So we'll just again, the launch of simulation.

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And we'll just four o'clock, so they click Holdsclaw one to zero.

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And this is a nanosecond and let us force it to move and try to run out of.

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So if you just go to an entitlement, one will be finding that all the signals are generating over your

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phone.

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And this is the ZAWI, which is pretty good and destructively.

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So everything is working fine as we had expected.

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So this is how you can decode our Misbah interface for triggering the.