WEBVTT

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So let us consider our very first project that deals predominantly on Dymocks, and that is control

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of money monitor from an FPGA and then the on the communication interface that will be using is a Viju,

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which is very, very common and very, very popular that do exist, something called as an HDMI.

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But we'll be looking in some other way.

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So we'll start with an and for of understanding will be considering the lowest resolution that is 640

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across 40 states.

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So the lowest resolution that can still be finding that if we considered our display, it is divided

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into multiple regions and it requires a precise timing to have a view from our image on display.

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So you start from a left site, right?

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So you start to it, then you send out the data for some of the since we are operating on in a resolution

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of six party cross for ID.

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So we will be sending the data for six party fixes.

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And then.

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Then we'll basically come back again to the left, Patricia.

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So as soon as we complete transition or fall the signal for a single vote, we again come back to the

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left position.

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And then we did the next big thing.

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And this is how you proceed.

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So 40 such votes at present with the resolution of this, that is we consider.

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So how you proceed basically to something that you need to understand is when you start generational

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for fixing, no actual fixes will be only in an active region.

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And before actually reaching to an act do you need to destroy a signal that is a sentence and the back

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porch for 40.

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So you start with the generation of annexing and which is.

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Which is and which is an active signal.

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So if this is my at Sinquefield.

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Right.

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So it will be high from zero to 96 to zero to ninety five cycles of 96 cycles, it will be high and

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then the rest of the cases it will simply be right.

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This is how you generate and it's so as soon as I into interface get this segment that did it and basically

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indicate that we can now start sending the valley roots but the actual area is actually off the back

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to go from here itself.

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We can all start sending out actual data for R and D fix it.

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So we need to further weed for forty eight Glock's cycle or 48 percent.

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So we do that, we basically will be working from ninety five.

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So if we just add 40 or you will be one 40.

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So when we sing disciple's interface basically knows that we will now start sending the Valley values

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after we send this back signal, which actually is a 48 pixels which will be consisting of forty six.

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And so after reaching to ninety five lead for four forty, it looks like it will be our back porch region.

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So we will be reaching two, one, four, three, three.

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So this is our back porch region and then from here we'll start sending out on the other side will be

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continuing till six cycles.

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OK, which will take us still seven, the three.

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And finally, we will complete our first crew by sending transport signals which consist of 16 blocks.

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So this will take us to seven nine.

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So in all we'll be finding, we need to control actually 200 exits.

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Right.

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So 800 fixin's.

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Right from zero to seven nine.

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So this is how you generate the signal on a net six and.

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Output that goes out from an RPG to Viju is.

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Similarly, we are able to generate the force we need to generate the multiple when we keep track of

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that.

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Right.

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So we think is a signal which is used to keep track of.

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So what we do is we first send sequence, which is again an active heisting.

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So that will be for two lines.

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Right.

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So from zero to two, it'll be zero to two will be sending in sync signal then will be again ready for

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this back to.

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Right.

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So it will be for the thirty three Psychon.

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So if we just add thirty three lines over here it will be.

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It will be.

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To the fight, so from 35 to.

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Five twenty five, which will approximately be, I guess, five forty five forty, so this will take

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us to forty nine forty will be here and then finally will be a United States.

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So this will take us to 524.

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So this is what signals would be generating one in Multiphasic.

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And then comes our data.

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So if we considered so if I can just go to a new slate and if I can to show you the reform that I been

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taking from shoot you will be finding will be dividing interviews into two different buses, one when

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one is in horizontal and another one in Denmark.

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And then instead of having all the data generated on things, to have a piece of an operation will be

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dividing the control into three parts.

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So I think which indicated horizontal simple's right, then an active signal, which indicates the active

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area where will be sending a signal value and which indicate that now you start sending a new rate.

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So this is how we'll be dividing up a single room.

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Similarly for Wissing.

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We'll be dividing into three first one is a V synchronising signal or vertical signal, then comes an

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active signal and fire.

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So let us start calling to on AZABAL.

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We have an on off of one twenty five megahertz and resolution that we are targeting is six forty plus

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forty four that we should have a colossal software defined device.

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So all the four that would be operating at this frequency.

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And remember, whenever we have a specific timing related project, it is always necessary that you

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can generate a precise clock in that scenario instead of using the variable to do so.

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For example, if you are targeting to go from one twenty five to thirty five, because by spending five

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blocks or using a variable and then generating the clock on yourself, it will not be a good idea.

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Right.

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So whenever you have a specific time project, always focus on a ipis that have been provided by an

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Tydings.

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So that will give us a precise OK.

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So this is a very important point to find here, since this is a timing related budget where we need

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to have a specific time information.

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It is always a good choice that you start utilizing blocking with our IP or for Xilinx to make a precise.

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OK, so we'll do that later.

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First, we'll try to.

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Intended to signal so for our country to be Gloc will be the clock on the clock that is president or

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not, which is an open ended 60.

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OK, so that will be feeding the clock, which will generate a really high regard for us so far that

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will be declaring declaring signal to hold.

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The value of that will be simply a signal.

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And since this is a club that will have a single vote, so this will be a first thing that will be so

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picklock will be going as an input to penumbral 16.

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That bin will be connecting to our IP, which will give us a clue how that's going to find me going.

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And whenever you have something as a clock with an IP that is being called a Lopinto to indicate that

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the clock is deep.

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So we'll be making identity or design operational or even the point is high rate research then is used

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to convey the information that the user now wish to start a system.

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So research is high, will not be doing anything else, will be starting our system, the values that

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have been.

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Sent to a pixel is been given through a switch.

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So what switch will do it?

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We have a different combinations of four zero zero zero will be sending some specific patterns.

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For example, if we want to generate a red screen, will be making all the red tie green and blue will

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remain zero zero.

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So that would be one of the conditions in the switch.

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Again, if we want to make a green, will be assigning that to certain duration, which will be decided

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later on what we do.

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And finally, these are the two points, but we need to precise regenerator.

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Thanks.

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The recycling bin will be making Synchronoss process.

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Now we know that for an entire designer cloth with this speak look is having Feklisov one ready?

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Finally, glass and a design we are targeting on gratifyingly so.

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So this Galopin will be will be really make last night.

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So process Gloc big.

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And mean this process has been.

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So what we'll be doing is first we'll be sensing the rising age of clocks, since we are generating

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a synchronicity, supervising a clock.

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Then if it is so, if research is cities or else.

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And one more thing will be focusing that not only will be deciding on operation, but also will be working

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on a lot of unknowns.

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Obviously, a lot of zettl that indicate that we cannot start our operation.

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What it will take some amount of time for that might be to give a stable outlook.

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So as soon as it is, what will start operations?

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Right.

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So we'll be doing something in this.

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El.

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Yes, and what you'll be doing is will be simply, you know, what here we want is we want to generate

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this right to etting is one of our signal edge activities.

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One of the signal is one of the signal, and these are the common values.

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So if resect is won or lost is what we can do is we can either control the spin or we can either control

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the content.

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So now it is purely your choice, what you want to do.

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So what we'll be doing is we'll be controlling.

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The Institute of Technology is also possible that is declared OK.

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And as soon as we make a reset to zero, let us make a.

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Two zero two zero else and.

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We will make it count to be close to each count, plus what we know, what this will do is with each

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arising, it will basically increment if these two conditions are not satisfied.

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And that is what we want to zero that indicates their wish to start an operation.

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And it is one that indicate that those are steep.

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So what we can do is we can simply make God counter to increment, but then this condition will not

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go continuously on.

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So we need to stop somewhere or we need to restrict somebody to what we can do here.

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It ends if and if and if.

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And which is one of our signals, if it is one, if it changes one, then we know that we need to end

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of great, great.

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So in that case, we can again make Edgecombe be close to zero.

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OK, a bit confusing, but will understand it and else we can simply increment.

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Let us suppose declared a convert to signal Edgecomb and whenever you have a variable which will be

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holding onto values, it is always a good idea that you will with an integer, the range zero two seven

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nine nine that is the maximum force will be going to that is suppose a two to one.

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OK, so initially we can proceed, then you just need it on, you can change it to unsane standard and

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this logic to have an efficient rate.

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No one would think that spending is OK.

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So let us do that also the and.

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Standard and this crude logic, since it will have a cycle of single and let us initialized to date,

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so now will probably remolded.

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OK, so if rates high and locked zero will be making Edgecumbe Luisito ELSS effect and is one, if it

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changes one, then will be huggin, making it only close to the end.

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We simply bring it to this computer first if statement.

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And we can then simply add and and finally we can and process for four signal also will be adding one

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second so they to this are blocking IP signals.

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They took this to the clocking AP segments and did that indicate the horizontal flight rate?

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One more signal we want is an active signal like two that are also so active.

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Again, the size of a single with.

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And we'll be initializing to see, so this completes all the signal that you can to hold funds.

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Now let us try to write the routine for hexing, at any rate.

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So let's just declare the one new process instead of working on the single process.

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So we'll just name it USPI to process.

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OK, this will again be sensitive to a clock.

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But in fact, here what we know that he is going to do one day, so instead of making it until two o'clock,

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we can make sense to do it right to begin.

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So if.

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If.

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Now we know that.

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It will be high from zero to 96 straight, so if each count.

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Is greater than zero or in fact greater than equal to zero, and if each count is less than nine to

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six, which indicates that will be going from zero to ninety point, which which basically some of 96,

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then then in that case, etsi it's.

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The signal that we have utilized that is undisclosed sinked itchin discoursing should be should be one,

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right.

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And so we can make it seem to be close to see.

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OK, so this is what we want for this at Syngman.

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And since we have started, if we can and if.

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So this completed the first process.

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Now, when we get another issue that will also make to within the process, we can have a multiple statement

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and all of them will be executing in the battle.

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So if each photo instead of complicated our entire three signaling a single if statement, we can at

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any stage that you can follow this strategy will look into another we when we worked on this vertical.

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Great.

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So it is.

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Greater than 140.

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In fact, greater than an equal student body for.

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And and if each count, each count is less than seven, nine nine, so then then we can see each active

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signal.

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So it should be equal to one else is.

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Ich ACDA.

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Should be the super secret and then we can and this was the final logic that we be writing for.

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Great.

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So if we know that as soon as Edgecombe reaches to seven nine, that indicates the end of police action

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will be close to one end and will be making a change to be to.

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And again, we'll be ending a lot of steam, so this complete sudden diet of.

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So what we did is very, very simple.

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In fact, it is exactly matching to the reform that we have going with you.

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OK, so process is still pending, but it is high and lofty zero.

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Then it's going to be a question.

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This one again will be visiting countries and Scotland will be simply intimidated by one.

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And since we are using it as political operator, we already have included this.

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No, us.

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Start working on.

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A political process.

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So let us name a process speedy.

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OK, so now we'll be working on the process again, the first process that will reset and the foundation

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will be sensitive to a clock begin if if each of the clocks, since we want to have synchronicity.

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So rising a clock, then if we sit next to three cities of one hour or in fact and.

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Love this, love this seal, they say every citizen and zero, if you can see then.

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Then recount, which will be declaring a recount, should be equal to equal rate, so this will be the

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outcome that is supposed to declare all the signal for vertical process.

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All right.

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So I just hope this entire thing, in case you do it here, is this as what you can?

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Right, and this will be the end and the.

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Now, let's go back and we need to end up suspect.

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To hit a four.

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And if and if we can see that if we have.

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We end in that case also equals to one, we will be making our recount to zero.

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Finally, since.

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And if, again, we need to check here.

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Then will be incrementing the.

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So we will be incrementing the ground or even air changes.

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So this is a very important point and interesting point between the previous process.

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We know that we will be shifting to a next recog only when we complete our force.

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So when we know that we completed our force, when we get it and whenever we get the there, that indicates

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our completion.

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So then we will be incrementing the great Rickon plus one, if we consider the vertical will be simply

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incrementing on the edge of a cliff.

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But for a vote, we will be on edge.

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And finally, do not forget to add an L sense that we to a creation of elections.

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So even though we have Edyta else will not be doing anything.

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So we simply said no.

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And and so this completes.

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First process and will simply make this also process make.

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So this completes our first process related to our focus on.

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Food processor related to a slow process, and it will be sent to recount and again, recount is also

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dependent on the net.

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So we need to use both of them.

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So begin.

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So first thing is, if if we go a second is.

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Greater than or equal to zero, and the got is less than less than two, then in that case we need to

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make rethink.

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So we should be high.

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And they will be making.

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We think.

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We think to be crystal.

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To be close to zero like.

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Many will simply hand are street.

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A letter just copied, this object can be stored here.

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So if we count is greater than or equal to five.

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And if it is less, then five one five.

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Will be simply making Vector to entice ancestral indicate that Activision and Vector should be close

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to.

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Final step, this final step is they don't just do one thing, so if we count this sequence to.

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Five pretty food, and yet we also need to check whether it's going to reach to seven ninety nine,

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which is our last night.

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So if we go this five twenty four and it's only seven ninety nine.

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So that indicates we have scanned all the rules.

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So in that scenario we will be making and to be close to what else will be simply making we to be seen.

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So this completes the entire process of generating the timings.

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Now let us just add.

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Uh.

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Process for a lead.

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So we'll just.

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No, no, you can easily guess where we will be making our process sensitive, right?

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So we know that we need to send the pixel value only when we are in an activity.

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So we'll be simply making it sensitive to do right and HFT.

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OK, and then begin.

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So if.

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We have to pay close to one and a check, two to one.

26:31.310 --> 26:40.100
So this is an interaction point where we'll be sending over and then there will be simply making a case

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on the switch and depending on the conditions, they'll be putting out the.

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So I'll just copy and be to do the.

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So what we did is we declared a signal to hold the color line so that all of the signals already designate

26:55.890 --> 27:00.630
so red have additional fiber to have, it is better.

27:01.710 --> 27:06.450
This blue also have a resolution of fiber to do the 16 victims you can recruit.

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And yet it cases zero zero zero will be simply depending on all the latest zero zero zero.

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When it is one will be simply generating a blue color.

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So blue is hi.

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This to see when we are sending zero one zero we will be generating vehicle alone.

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Some combination.

27:26.340 --> 27:31.890
OK, so these are simply random values and finally ends and indicate that.

27:32.830 --> 27:43.150
If this true, if one of them or voters who in that case will be simply making the that we have ended

27:43.150 --> 27:45.310
our statement, we have ended that process.

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Finally, we need to connect all the signals that we have to the dedicated all so far, I think, and

27:53.290 --> 27:57.180
we think we have immediately attached them to an offer.

27:57.240 --> 28:05.470
But the only things that are the red, green and blue to be connected to this include a destroyer that

28:05.470 --> 28:06.200
we have declared.

28:06.220 --> 28:06.890
All right.

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So after the process, after the process, what we can do is you can take that to be close to it.

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So this is a temporary signal and this is an awkward.

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But then we have agreed to be equals to.

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S green.

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And finally.

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We have blue to be connected to this blue.

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So this completes an entire logic.

28:41.560 --> 28:48.450
One thing that is pending, which is hiding and blocking IP and then connecting through an entire process.

28:48.470 --> 28:53.170
So let us get back to when we model and try to understand despite.

28:56.710 --> 29:02.260
So no less than clocking this out so there can be a multiple week, so I just start with the simple

29:02.410 --> 29:02.710
date.

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So what I do is I go to the golf design.

29:06.850 --> 29:10.000
OK, let us keep it as design one.

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And there will be a clock at this hour.

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OK, so here will be adding a clock with our.

29:20.600 --> 29:25.620
So we'll first configured it, we know that our system block is one twenty five, because that is on

29:25.640 --> 29:31.040
bearclaw that we have is one gratifyingly garbs and this is the Laffan, which indicate that it is stable

29:31.040 --> 29:32.640
and conducting a steeper rate.

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So we just Double-Click on an estimate.

29:35.360 --> 29:41.150
Now will be finding this as an input block on the screen, the sort of questions we just kind of get

29:41.150 --> 29:41.750
through the system.

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So as soon as you connect this, you'll be finding if it will do a blocking option.

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The frequency that has been shown is one thirty five, which is on paper.

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So that is fine.

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And the method that will be appropriate to do that with using a split, you can understand much on them,

29:58.970 --> 30:01.810
might be a little later on when we discuss it architecture.

30:05.520 --> 30:11.400
And output locks will be finding out the frequency that we want, so we will be targeted more gratifying

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because since we have designed unretired.

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It shouldn't for this frequency.

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We don't want it to be done, but we do want to lock and since we made our entire system, so do not.

30:27.110 --> 30:27.400
Right.

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So this completes our entire AP configuration and now we can just click, OK, now we will be seeing

30:35.450 --> 30:37.460
that this is an input been destroyed and.

30:37.460 --> 30:40.550
All right, so we'll just make this an external.

30:40.550 --> 30:46.570
But I think what happened and will be naming it, that's the pin that we have named is not a regional

30:46.580 --> 30:46.760
event.

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So we named it.

30:48.320 --> 30:53.170
So we'll be naming it like this.

30:53.180 --> 30:54.200
We named as a clock.

30:54.200 --> 31:00.900
So I just click on the pin and we could extend and change the name back to gluconate.

31:00.920 --> 31:03.360
So I just change the name back to a clock.

31:03.930 --> 31:10.930
Finally, this is named as a model, so I just click make external go through and change it.

31:13.430 --> 31:15.650
As soon as we complete this, we go back.

31:15.800 --> 31:17.480
So now we will be finding here.

31:17.480 --> 31:20.740
Do you have a design credential?

31:20.750 --> 31:21.150
Rapert.

31:22.530 --> 31:28.950
So this will given access to a huge deal which will declare as a company Gulf and then we do support.

31:29.970 --> 31:32.230
So we just go to design one daughter.

31:32.340 --> 31:35.940
But this is the end date.

31:35.950 --> 31:40.150
So this is an entity we want to deal with this entity.

31:40.170 --> 31:46.980
So we just copy from design delay and then we go back to our top model.

31:48.900 --> 31:57.710
Here, just below an architecture, we can accomplish great functioning, we just used to do it here

31:57.720 --> 31:59.330
and then companies.

32:00.710 --> 32:03.190
OK, now we need to do a.

32:03.950 --> 32:09.540
So we need to know the name of an entity which is designed to underscore one, that this could happen.

32:09.800 --> 32:19.760
So before the whole process and after the beginning, we'll just name seven will be the name of identity

32:19.760 --> 32:22.020
that is designed for an undisclosed weapon.

32:22.460 --> 32:24.830
And we know that did have a three four Glock.

32:25.130 --> 32:28.700
So Glock will be connected to a clock.

32:30.560 --> 32:40.310
The clock will be connecting the Glock and finally Laffan will be connected to a lot.

32:40.910 --> 32:43.560
So this completes support mapping, which is required.

32:43.640 --> 32:51.270
And finally, this is how you add what I like to let us just find out what the data that we are getting.

32:51.290 --> 32:56.120
OK, so before we go can afford right now, this will complete and everything.

32:56.570 --> 33:03.190
So we'll be finding no will become our top model and then Celan will be OK.

33:03.350 --> 33:10.010
So this completes an entire report that we need to write on screen so we can just pull through on screen.

33:10.790 --> 33:16.070
We can add a new constraint, OK, and we can create a file.

33:16.070 --> 33:19.910
We can name it as we want and then finally click finish.

33:20.030 --> 33:25.600
So if we just go to the dot ecstasy, it was really just due to the next fight.

33:25.730 --> 33:26.570
So I just be.

33:27.740 --> 33:34.220
So these are the pins that have already connected so well, 16, we have a clock and we need to speak.

33:34.700 --> 33:41.290
Then the Three Stooges, which we are using to contain the specific button on our display segment.

33:41.510 --> 33:47.860
We have connected to a push button and then we have dispensed that belonging to a Ouija board.

33:48.650 --> 33:50.480
So as soon as you complete this.

33:51.420 --> 33:58.590
You simply can do to BitStream, and then if you successfully defended a Batsuit, you can go ahead

33:58.800 --> 34:04.150
on downloading a program on the table and then getting a desired result from a screenplay.

34:04.200 --> 34:08.910
So you just need to change the switch and you will be getting a different color.

34:09.190 --> 34:12.420
OK, so this is how you handle a project related to a time.

34:13.080 --> 34:19.440
Now, you also go ahead and try to implement the same project, utilizing the reform that provided information

34:19.440 --> 34:19.680
that.