WEBVTT

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So we already implemented fully what we'll try to do is we'll try to use our flager, OK, and we'll

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try to build a repository out of it.

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OK, and here will not be using structural modeling state of.

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As we did in that previous case, when we are using an hufford, that is we are performing a good mapping

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and then we are creating an individual instance.

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Finally, we are also connecting the different components in it will can help of and we are to be integrated

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and see an entire floor.

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So this is a typical structure that we have for holiday.

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So as we proceed further with the help of Destructoid, so try to understand any type of and we are

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to be integrated and that really helps to build.

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Are much bigger design together without worrying much about the signals defined and undefined.

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OK, so let's start with the block design.

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OK, so this is the first step that you need to follow when you wish to use.

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And we able to integrate.

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We can use the same name or you can choose the name if you wish to.

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So here you'll be finding you'll get a canvas where we can actually work with the schematic.

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OK, so one way around is writing a visual.

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So this is a text based way of specifying a design.

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The other way around is by specifying a schematic.

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Right now for a full hour, you can create your own IP and then you can use an app that is also possible.

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But that part will be keeping for an IP section, then will be specifically discussing about an IP here.

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What we'll do is if you just drag the ideal good onto a canvas, you'll be finding it automatically

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create an awful other instance for us.

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So this is the new feature, which is added after 2017 version where you can directly play Sonatine

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modules and then you can look around with and we are going to integrate.

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Right.

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So for such instances we required.

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This is our first instance.

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We just copy will be stutt full time.

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So full, full added.

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We require to build a full picture.

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So this is our first full and then we have a second order.

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Then we have our third folder.

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And then finally of Fullard right now, try to understand an entire procedure in greater detail so that

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you have a good idea.

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Right.

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So we'll just keep a schematic with us also so that this will help us to perform the connection.

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OK, so you'll be finding we have easy to V0 as an input to our left Fullard.

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OK then some of the country's been said to the Cardinals next Flat-Rate.

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So this is the simplest thing to.

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So when you you are using an outdated model, the convention that we follow is on the left side, you

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have all the input put on the right side, you have all allowed people to be finding some and carry

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report, which are specified on the left side of the diagram, which has been created on the left side

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of the block, which is an octave.

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And on the left side you have an input.

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So what we want is the Cadieux Ogiek from the previous to it should go to the carrying of the next stage,

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will just click on this and then we will just connect.

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So this is simply connecting the two.

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Put together, OK?

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So you just click on the pool and then you.

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Select the desired food where you want to concentrate, so similarly, this one is.

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How you achieve the connection between the from previous teach to the carrying of our next story, now

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this will become Arcadio writes this We want to be on board, so we just click on Open and you select

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Mique External, OK?

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So as soon as you make external defining default, you get some Nymagee.

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So here you'll be finding we get animacy in the school, but we want to have this Demasi out for that

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you just need to go back to are.

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So this is the schematic that we have.

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You just click on this option, zoom it so you'll have an entire schematic for it on the canvas.

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Select or click on, OK.

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And then here you get the properties where you are allowed to change the name.

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So we just select the name.

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OK, and then we just see out in the speech in the place of CNN and we'll hit into the fighting automatically,

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this represents.

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Right, we want to have although some say.

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Right.

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So we will destroy it and we'll make the right click and meekest will right click and you'll just meet

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to extend it.

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Similarly for this also will make it extend.

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Right.

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So this is our LSP.

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So this should represent some detail, so we just select the net will go in here and will you name this

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as a seed will hit enter?

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Similarly, the next song will become his one.

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So we'll just select Kaputt and we'll change it to Esswein.

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Similarly, next board will be changing to eschew.

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OK, and then we have a lawsuit will be naming a dozen.

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This makes sense, right?

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So we have full sum and then we have also right now, we also want to make all the E and B Exton, along

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with C just right.

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Click MC External right.

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Click Megson.

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They click make Exton.

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Right.

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So this should be easy to.

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They should be busy, too, and then they should be.

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See, right, so now I'll try to make a report externally.

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OK?

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So I have completed my schematics, you will be finding for a first Falletta, we have input as easy

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to be seen then for the next flight that we have even been and the Cadieux from the previous just to

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the next train.

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Similarly for the next flight, we have to we do our last flight.

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We have three right now, this computer schematic, this representative of Bulgaria.

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So once you are schematic is ready, what you do is you need to perform, validate, design.

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So what this will do is this would check with the critical collection which are present inside an IP

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or the instance of an ideal model that we have created with all the connections being connected to their

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respective or whether there are any incorrect connections.

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So that is really helpful.

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Before you actually understand and remember that the navigator that we have here inside, we want to

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work on it.

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So even though we have created a schematic, but finally we are required to still call on which the

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entire floor will be performed.

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Right.

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So we'll just.

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Right.

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Click on the design.

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This is the design that we have created and this is the design.

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So we'll just right.

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Click and create and still.

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So this is how you transform your schematic to the visual cortex.

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And once we have a deal with then the entire steps that you'll be finding enough navigator can be performed.

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OK.

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So one side designed that, but now we'll be finding this is the new reality, which is basically a

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version of this design that we have created in refining, it consists of a design and then we do not

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need to understand much about this.

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What we'll do is we just said this so that we'll be able to perform a simulation like.

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So once we set design that put in a design source, we also need to set designers at the top in a simulation.

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So we'll just go to a simulation so we will select a design, one output and we'll set it up.

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So once that is done, you go to run simulation and perform or behave in submission.

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OK, so here will understand how we march single to create a buzz and that will really help us to easily.

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Work around with, like a bit like this.

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So now you'll be finding we have easy to even eat.

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So we want this as a single input for food better so 80 percent of weight and we'll just select them,

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WILL.

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Right.

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Click And then you have a new virtual option.

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So we'll just select and take on new virtual bus and we'll just deem it as any.

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So now you'll find that you have a OK where you have all the food signals or all the food that's been

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present.

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Now, if you just select.

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OK, so now we understand how we manage this single put together so that we get to correct but Bulgaria,

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that we are expecting that the input will be fulfilled.

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But here in the design that we have created, we have a single single bit off of the pool.

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So we'll just select the four.

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Easy to invite you to.

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So selectees zero Evony, 23, will right click and then we will select.

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Newgroup.

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OK, and then we'll just name this as.

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So let us try to understand how we perform a simulation, OK, so we have an individual easily when

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you do it similarly be when we do NBT and see, OK, so you can either editors or you can use of force.

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So I just use a false clock, OK, one two zero of different clock.

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So for spirit that we have hundred.

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For next, when we have chosen two hundred nine.

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For the next one, we will choose the nanosecond for lost will just choose one zero and let's use it

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to be three hundred nine.

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OK, we'll be finding we have multiple signals.

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So this could be a good idea.

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But let's just proceed with the method that we have chosen so far.

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Be one, two.

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For Racine, Wisconsin.

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OK.

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And now if you just try to execute a simulation.

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They'll be filing a three month all over the country.

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So now you'll be finding it is very, very difficult to analyze the results.

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OK, because we have an individual signal and an individual.

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But if you are unable to merge them together as a first, then analyzing it as it will become very,

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very easy.

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OK, so we'll try to understand how we perform that.

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OK, so will we want to basically merge easily?

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We need to eat three of us, so we'll just select e0, then we'll click shift and the down arrow to

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select really when you do it.

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OK, so choose an easy to press button down arrow and that will allow us to select easily.

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We need to eat selected.

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Shift down at once, you select all the individual word that you want to watch as a bus, right click

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and then you find of a new Chilvers option.

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So you just click on that, OK?

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At the very bottom, you'll be finding the actual best option and then you just name the virtual brzeski.

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OK, so once you give a name to a bus, you'll be finding now the full or or of individual signals of

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emerge and then we get to good.

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Now, if I just choose the relics to an unsigned decimal, I can easily figure out the result of the

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first letters of the.

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But there it is.

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And so observing five.

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So if you just click on this arrow on the bus, you'll be finding that if you just click around here,

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you have E three as one, even as one and then Zardozi.

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So here you'll be finding three is considered as an alias.

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And for that reason you outfight.

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But we do not want that.

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We want to venomously.

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So we want to reverse a bit on OK.

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And that can easily be done by just selecting a again right click and then you have a reverse bit on

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this once you do that.

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Now you correctly find that is because one zero one zero is 10 and we are getting that rate.

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So this is how you use the different features that we have, then will again select V0.

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They click.

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And at the bottom, you have.

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New virtual, so just selected will just name it as we and then we will see whether we get characters.

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So we will just observe seven for seven.

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I'll be noticing that.

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We again have 3000 LSP, but we want to win and we we'll just right click and reverse order and now

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we have a great scene.

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We want to be a single bit.

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So that is not a problem at all for some.

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We need to work around because as you will be able to let it just please sit down.

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So we have a pseudo.

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Then we should have an assessment that will be suitable, is suitable, then we should have NASA, then

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we should have NASA and finally we should have a second rate.

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So this is how you can individually play from this to Baci recognize that the Wormuth signal is recognized

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that Elísabet OK, so at least as zero at the lowest position, then I have a witness to history and

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see.

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And now when I merge them together to create a virtual buzz, this will be representing a truce.

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So we do not need to subliterate, so we'll just change the lyrics to and a symbol for all the inputs

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and outputs and then we'll try to analyze it.

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OK.

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Now if you just observe, if I just try to zoom in a bit.

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So 15 and 15 will give us 30.

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OK, Burraston plus 14.

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Give us twenty four.

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Thirty nine 11.

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Give us twenty four zero and then give us 10, seven and five.

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Give us two.

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So this is how you can use the virtual bass feature and it was better to analyze the result more clearly.

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You have good understanding about what we are doing later.

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Also you how you analyze and merge must together to analyze the resident and simulation reform.

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Right now what we'll do is we'll consider a few sequences so that we have an overall picture of structure

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multicasting.