1
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So in this specific section, we'll be predominantly dealing with the time, so when we consider doing

2
00:00:04,770 --> 00:00:10,260
processing system, we do have a multiple timer that counters which are present right, so we will be

3
00:00:10,260 --> 00:00:16,630
covering each of them in detail so that you could apply the same concept to another time, right?

4
00:00:16,650 --> 00:00:19,470
So we have a private timer for a CPU.

5
00:00:19,560 --> 00:00:22,650
OK, so we have a 32 bit timer, OK?

6
00:00:22,650 --> 00:00:24,840
And then 32 bit washed off timer.

7
00:00:24,840 --> 00:00:28,800
So these are the two private CPU timer available with us.

8
00:00:28,820 --> 00:00:31,470
The next one is the 64 bit global time.

9
00:00:31,470 --> 00:00:34,080
And now when we consider here a private CPU timer.

10
00:00:34,410 --> 00:00:36,150
OK, so that enabled by default.

11
00:00:36,150 --> 00:00:41,610
So we do not need to check or uncheck anything in any configuration window as we do with the battery,

12
00:00:41,630 --> 00:00:41,910
right?

13
00:00:41,920 --> 00:00:47,960
So those are enabled with by default and we will be covering both of them in a day.

14
00:00:47,970 --> 00:00:53,960
So we'll be covering how we utilize 32 bit timer and how we utilize that to bit washed off timer.

15
00:00:54,090 --> 00:01:01,380
So predominantly since we have not worked at with an interrupts yet, so we will be focusing more on

16
00:01:01,390 --> 00:01:01,530
it.

17
00:01:01,920 --> 00:01:04,460
So all of them could be utilizing two more.

18
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Either we could go ahead with the full mode, OK, or we could use an interpreter even more so we will

19
00:01:12,300 --> 00:01:14,250
be covering an interest related concept.

20
00:01:14,250 --> 00:01:19,470
Once we cover fundamental of interest rates will be going fundamental of both of them into details.

21
00:01:20,010 --> 00:01:22,370
Then we have a 64 bit of movable timer.

22
00:01:22,660 --> 00:01:25,170
OK, then something which we could enable.

23
00:01:25,200 --> 00:01:30,120
So these are privy to a CPU and does that an independent block that we have so we could enable them

24
00:01:30,330 --> 00:01:32,850
by checking in a configuration window, right?

25
00:01:32,850 --> 00:01:37,340
So we have in one system watchdog timer and then to triple timer count, right?

26
00:01:37,350 --> 00:01:39,200
So each with the three independent.

27
00:01:39,570 --> 00:01:47,260
So we will not be covering system work or paper, but we will be covering ditsy in this category.

28
00:01:47,790 --> 00:01:53,770
Then along with this, we also have an provision to add Peel APIs, right?

29
00:01:53,770 --> 00:01:55,770
So APIs that you have it and FPGA.

30
00:01:55,770 --> 00:01:59,370
So this include two popular APIs that is inside timer.

31
00:01:59,370 --> 00:02:01,610
Any time is washed up time.

32
00:02:01,620 --> 00:02:01,950
All right.

33
00:02:02,160 --> 00:02:03,870
So we'll be covering out of this.

34
00:02:03,910 --> 00:02:05,370
You will be covering this.

35
00:02:05,400 --> 00:02:05,760
OK.

36
00:02:06,240 --> 00:02:07,740
So these are series off.

37
00:02:08,970 --> 00:02:13,890
The things that we'll be covering in this section now here, we will be considering this to be an intermediate

38
00:02:13,890 --> 00:02:14,220
Typekit.

39
00:02:14,400 --> 00:02:17,620
This will be complicated as compared to what?

40
00:02:17,640 --> 00:02:18,270
Yes, right.

41
00:02:18,690 --> 00:02:21,930
But this will build up our foundation as we move ahead.

42
00:02:21,990 --> 00:02:22,260
Right.

43
00:02:22,710 --> 00:02:27,750
So we have various Tyne-Wear and counter option into the pricing system, which include the private

44
00:02:27,750 --> 00:02:34,350
CPU timer or counters a 64 bit global timer's something which could be configured as an independent

45
00:02:34,350 --> 00:02:34,570
block.

46
00:02:34,710 --> 00:02:41,190
We have a system watchdog timer to triple type of counter and then the old timer, which I say timer

47
00:02:41,190 --> 00:02:42,540
and watchdog time.

48
00:02:42,540 --> 00:02:45,270
This time this washtub time, right?

49
00:02:45,750 --> 00:02:48,600
We'll be covering 32 bit timer, 32 bit washed up time.

50
00:02:48,720 --> 00:02:51,240
Did I give it to you then?

51
00:02:51,240 --> 00:02:56,350
How we enable independent log with the zinc processing system and how we utilize them?

52
00:02:56,370 --> 00:02:58,110
That is how we go out of it.

53
00:02:58,110 --> 00:02:59,340
That tuple Typekit content.

54
00:02:59,400 --> 00:03:02,550
This will also be very and how we use APL.

55
00:03:03,540 --> 00:03:05,430
Eyepiece that is the exciting, right?

56
00:03:05,610 --> 00:03:12,950
It's the same concept could be utilized for as WD 60 for the global gamer and excite time based watchdog.

57
00:03:13,350 --> 00:03:13,660
Right?

58
00:03:13,710 --> 00:03:15,030
So let's get started.