1
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What are we going to do is we all understand how we use the APIs, which is an entity together with

2
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an EMI will get, so this will add more insight into whatever we have discussed about any rate.

3
00:00:13,110 --> 00:00:14,760
So we already have this in the script.

4
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The thing that we're going to change is the project need, as well as the project that you will just

5
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copy this and elbow two of the related and this will combine, right?

6
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So this will automatically create a project director for us.

7
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And along with that, it will outside the fundamental block data, OK, which will be modifying such

8
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that we hired an LLC and the APIs produced within the zinc processing system along with any right.

9
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The fact to remember is when we are considering an e-mail, so we are planning the signal that we have

10
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in the processing system to transmit from an FPGA fabric, right?

11
00:00:51,720 --> 00:00:56,160
And then it becomes mandatory that we specify the constraint.

12
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So as we complete are still rapid generation.

13
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We will be performing a synthesis will be specifying a and then only we will be proceeding to our generation

14
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of objects.

15
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So we already have a fundamental block design or here will just be reconfiguring.

16
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It says that we had a leading VIP, such as working with an MRI.

17
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Now we have a few really, which are present on the table.

18
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And along with that, we are planning to use for VIP switches.

19
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So Total required eight signals, right?

20
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So we go to an email configuration.

21
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Here we have a nice day free where we will just enable GPI, am I?

22
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And that will be enabling EMI.

23
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So the vict that we'll be using is it for for the elderly side, for for the APC?

24
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Just say we could disable USB, reset a nice grad school here because we do not require right to click

25
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OK?

26
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Now this will add you over here, so we'll just make it extend.

27
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Right now, if you just go to a that.

28
00:02:01,760 --> 00:02:07,430
So even though we see a ladies end button over here, but did that not directly connected to, but then

29
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we need to manually specify a right.

30
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So let me just go ahead and change this to.

31
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GP right now, remember this, people do not understand whether we wish to connect or first for Elizabeth

32
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banks to the elderly, or is it predominantly depending on how you specify construing OK, as you specify

33
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a condition, you need to remember which all signals or recall number from this vector.

34
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You considered poor and elderly and then the number which you considered for a gap which right?

35
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So we have an ID with us right over here.

36
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So we already know EMI start from fifty four.

37
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So if we assume that the list before that, we are connecting to a switch.

38
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So remember that for a switch when we specify the pin number in an SDK will be utilizing fifty four,

39
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fifty five to six, fifty seven and so on.

40
00:03:03,980 --> 00:03:11,380
And so remember, this is all reading right now will go ahead and will try to perform a standard approach,

41
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right?

42
00:03:12,080 --> 00:03:17,030
So will allow you vital to generate and ensure that before us, this is the first step that we follow.

43
00:03:17,420 --> 00:03:23,980
Now here, one thing is clear that the GPI of that we have over here is not directly connected to Barton

44
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980, and this could actually be verified as we perform a synthesis, right?

45
00:03:29,180 --> 00:03:33,470
So once I wrapped generation assets, this will go ahead and perform a synthesis.

46
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So this is a mandatory step when your pool is not connected to our respective hardware.

47
00:03:41,690 --> 00:03:45,770
So our synthesis is completed now, we just had done open synthesis is.

48
00:03:46,390 --> 00:03:49,540
OK, this will allow us to specify a new planning, right?

49
00:03:51,210 --> 00:03:54,450
Now here you will see how all the people presented in our design.

50
00:03:54,660 --> 00:04:01,650
So two of them that is DDR and fixed, you are already been fixed to the respect du site, but something

51
00:04:01,650 --> 00:04:07,080
where we need to specify the code is the GPIO rule that we have had to look at, and that is how we'll

52
00:04:07,080 --> 00:04:15,650
be driving the processing system signals to the switch and with the help of any of my right.

53
00:04:15,660 --> 00:04:20,210
So let me just go ahead and try to add the to here, right?

54
00:04:20,220 --> 00:04:23,250
So we could just select the level to be able to see more certainty.

55
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And then first for release zero, one, two and three.

56
00:04:28,200 --> 00:04:28,560
OK.

57
00:04:28,770 --> 00:04:36,570
So once we connect C2 to the switch, so remember when we write an SDK code, we have our switches from

58
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fifty four fifty five fifty six point fifty seven.

59
00:04:39,120 --> 00:04:41,790
Okay, so we'll just go ahead to annex despite.

60
00:04:43,130 --> 00:04:51,140
Now here, you could clearly understand that we want to connect such as this is to the lesbian gay rights,

61
00:04:51,160 --> 00:05:00,470
the is like G50, then we have b 50 W 13 D 16 right to decide the series of group that we need to mention.

62
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We'll just go ahead and will assume that Switch zero will be the least bit better off by or external

63
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pool.

64
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Then we have B 50 the next book, right?

65
00:05:14,240 --> 00:05:20,410
Then we have W30 and the last one is this right?

66
00:05:21,340 --> 00:05:23,140
These are the four reports that we have.

67
00:05:23,440 --> 00:05:28,330
So G50 be 50 W 13, 1969 for LSD.

68
00:05:28,630 --> 00:05:31,240
We have em 14 and 15.

69
00:05:31,570 --> 00:05:31,860
OK.

70
00:05:32,140 --> 00:05:32,740
49.

71
00:05:33,690 --> 00:05:36,390
We'll just be specifying them here.

72
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Right.

73
00:05:36,730 --> 00:05:39,970
So the first lady is acting 40.

74
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OK, then the next one is and 15.

75
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OK, the next one is 40.

76
00:05:48,090 --> 00:05:55,770
And last one is the right, so that remember that first four are the switches and then we have an immediate

77
00:05:55,890 --> 00:05:59,590
two digit numbers are very important because EMI starts at fifty four.

78
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B number will start at 54.

79
00:06:01,800 --> 00:06:03,720
So 22 will be fifty four.

80
00:06:03,840 --> 00:06:05,430
Which one will be at fifty five?

81
00:06:05,460 --> 00:06:10,650
Switch two will be at fifty six and Switch three will be at fifty seven.

82
00:06:10,680 --> 00:06:17,250
Similarly, a leading zero will be fifty eight, but will be fifty nine and Li two will be sixty and

83
00:06:17,250 --> 00:06:19,670
LCD three will be sixty.

84
00:06:19,950 --> 00:06:20,180
Right.

85
00:06:20,490 --> 00:06:26,220
So as we complete this process, you will now see all of the codes which are present in our design,

86
00:06:26,220 --> 00:06:27,090
our fixed rate.

87
00:06:27,450 --> 00:06:29,160
We'll just see this constraint fight.

88
00:06:29,160 --> 00:06:33,320
So press controls and they just need this job done next.

89
00:06:33,930 --> 00:06:40,260
So once this process is completed now, we could go ahead and generate the bitstream for our design.

90
00:06:40,530 --> 00:06:43,130
So let's just go ahead and try to generate the bits.