1
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So let's try to analyze the ground value, which will help us to recognize that the country is going

2
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really in a downward or not great.

3
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So we first disconnect our application.

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Then we go to a design perspective and here we start making the changes.

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So we go to our Halliwell Darcy.

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OK.

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And here we are, waiting to hear why we think what we could do is we could just bring the values of

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a timer at a random rate.

9
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So let me just go in and try to find out the EPA that we have to get the current value of the time,

10
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right?

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So this is the API that we have, and it basically returns you dirty to value the current value of the

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timer account.

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So this again equate to admit the instant structure, and the MRC can be declared one variable other

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again the same day, which is written by the function that we are utilizing it.

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And then we will just be naming this as called value, right?

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The required two argument first one is the.

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Instance structure you just might not is an upmarket, yeah, no, it's you.

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And now what we will be doing is at some random interval will be printing the value just to verify whether

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the account value is going downward, going in and downward direction.

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So we go ahead and we will delay and sell printer.

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OK, and here we will be mentioning the value.

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We're seeing Tweedledee, and again, do not forget to add a new line character.

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And the variable, which is holding the value of account discount.

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Right, right, so once this is done, we'll just be adding a delay.

25
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OK, so instead of working with the second, we could work a microsecond together to achieve a delay

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in microsecond, you have an EPA that could threaten you sleep.

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Here we will be adding a council such that we are able to get the delayed millisecond.

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OK, so we do not bring a lot of value to one zero zero.

29
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OK.

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And then three more zeros.

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So this will basically give us.

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So if you just calculate one, two, three.

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So here we have rates one, two and three five zero that day, and this basically gives us a delay in

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microsecond rate.

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So.

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If you calculate the tennis to five girls tennis to minus six, and that will basically give us tennis

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two minus one, right?

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And if you just calculate the value, it will be one hundred millisecond.

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So this would be around one hundred millisecond delay.

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And then.

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We will proceed for execution of.

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OK, so what we are doing is we are capturing the value of our counter, printing the baton, reading

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four hundred millisecond.

44
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So this won't be generating a whole lot of value or not.

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First lusting after you complete your application is to build a project, suppress control b.

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Does it automatically build the project and once be successful?

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We select an application project.

48
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Right click OK, and we have a debug at launch on hardware, so this will allow us to switch to debug

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perspective.

50
00:03:08,230 --> 00:03:14,840
So once automatically programs and FPGA, we will be going to avoid disturbing.

51
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The good data will be to again connect to the serial terminal, right?

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So we disconnect the click on plus button again.

53
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We just need to select the correct partner.

54
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So once this is done, just be clearing up items and we are ready to execute our application.

55
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So just click on resume button.

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Now you could see the take the series of undervalue.

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OK.

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And then we get the delay of five second, right?

59
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So if you analyze the clearly going down and as we reach to.

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The value of zero, we get daily of flights.

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Right.

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So this is all you could verify the specific value just to confirm whether we are going up or down.

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Right?

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Other interesting.

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Option that we have with a timer is an auto reload mode that we will be understanding the.