1 00:00:00,060 --> 00:00:03,060 So far, we cover 32 bit of private sleep. 2 00:00:03,960 --> 00:00:11,030 OK, also we covered 32 bit washed off timer rate, and then we also looked into how we use to rate. 3 00:00:11,820 --> 00:00:18,090 What are we going to do with the rest of the timer rate to 64 bit global timer we will be discussing 4 00:00:18,090 --> 00:00:26,010 when we work with the profiling rate or there we will try to focus on how we use a global timer and 5 00:00:26,010 --> 00:00:27,150 system washed off timer. 6 00:00:27,150 --> 00:00:31,140 You could learn on the similar line how we work with the DDC rate. 7 00:00:31,950 --> 00:00:36,540 So the rest two timers, which are available as an IP, is with us in and all designed. 8 00:00:36,550 --> 00:00:37,920 So we'll be discussing it. 9 00:00:38,050 --> 00:00:40,320 So we'll be focusing on any exact time of year. 10 00:00:40,530 --> 00:00:45,920 We'll also be utilising any essay timer while we discuss it, providing on the similar line. 11 00:00:45,930 --> 00:00:51,050 You could also work around with an essay database washed watchdog timer, right? 12 00:00:51,060 --> 00:00:56,790 So this complete the series of a timer, which could be used with the zinc processing system, right? 13 00:00:56,790 --> 00:01:00,330 So let's focus on any essay timer in this specific medium. 14 00:01:00,550 --> 00:01:06,900 OK, and then as we progress to a profiling, we'll be discussing 64 bit global timer work, and the 15 00:01:06,900 --> 00:01:12,600 rest of the timers could also be explored considering the fundamentals that we discuss in this specific 16 00:01:12,600 --> 00:01:12,990 section. 17 00:01:13,260 --> 00:01:17,670 So we already have created a new project and did the same processing system. 18 00:01:17,670 --> 00:01:23,250 Right now, remember that we are planning to utilize an IP, right? 19 00:01:23,250 --> 00:01:28,680 So we are required to provide the necessary interface that allow us to interface with an IP to the zinc 20 00:01:28,680 --> 00:01:29,730 processing system, right? 21 00:01:29,730 --> 00:01:36,270 So we need to enable the zero port on a single processing system to which we will be connecting art 22 00:01:36,420 --> 00:01:41,460 exact right, so that in just over a week on a zinc processing system to reconfigure it. 23 00:01:42,240 --> 00:01:42,560 OK. 24 00:01:42,780 --> 00:01:44,940 So we need to add three things, right first. 25 00:01:44,940 --> 00:01:49,820 One is we need to add an M. G P zero interface. 26 00:01:49,830 --> 00:01:51,660 Okay, then we go to a general. 27 00:01:51,660 --> 00:01:55,470 That day we find reset for our IP. 28 00:01:55,500 --> 00:01:59,460 And the last thing that we required is to have a fabric look great. 29 00:01:59,760 --> 00:02:03,540 So let just use tho frequency to be 100 megahertz, right? 30 00:02:03,570 --> 00:02:09,330 So remember this we are providing the clock of hundred megahertz for our IP, right? 31 00:02:09,330 --> 00:02:15,960 So click OK with this configuration and then we can proceed to add any extra time or IP, right? 32 00:02:15,960 --> 00:02:21,570 So we just search for a timer and then you'll be finding we have a excited timer and the exact time 33 00:02:21,570 --> 00:02:22,690 based washed off timer, right? 34 00:02:22,710 --> 00:02:26,070 So we'll be discussing the excitement in this specific video. 35 00:02:26,070 --> 00:02:32,980 So just select it and double click on it to add it right to refining a series of pain which are available 36 00:02:33,000 --> 00:02:37,470 on a series of an output pen which are available but will not be utilizing any. 37 00:02:38,100 --> 00:02:45,330 Any of this in our agenda will be primarily to understand how we use an exact time or IP to generate 38 00:02:45,330 --> 00:02:50,940 a constant delay first and then as we progress to an interest section, we'll also be discussing an 39 00:02:50,940 --> 00:02:51,380 interrupt. 40 00:02:51,410 --> 00:02:56,760 OK, and then you could explore gen data out zero and generate out when these are basically an output 41 00:02:57,000 --> 00:03:01,440 pin that could be used to check whether our timer is expired or not. 42 00:03:01,440 --> 00:03:01,650 Great. 43 00:03:01,650 --> 00:03:06,810 So since we have a two day modes present with this exact IP, so we have a two output over here, right? 44 00:03:07,110 --> 00:03:11,730 So once we add an IP, the first thing that we do is to perform a connection automation rate. 45 00:03:11,730 --> 00:03:16,590 So this will automatically connect our zinc processing system to any side. 46 00:03:16,890 --> 00:03:22,050 IP rates will not be working with any of this port, which are available over here. 47 00:03:22,290 --> 00:03:25,910 So what we are going to do is will directly be proceeding to validate design. 48 00:03:25,920 --> 00:03:31,740 So this will verify whether all the mandatory connections are connected to the respective pins and we 49 00:03:31,740 --> 00:03:33,630 are ready to generate the exchange rate. 50 00:03:33,630 --> 00:03:37,410 So here you could see these are four critical warning related to our DDR. 51 00:03:37,410 --> 00:03:43,260 But since we have not configured any of the parameters, we could just ignore this warning right here 52 00:03:43,260 --> 00:03:48,840 we go to a two step and generate any on wrapper for our design to one side. 53 00:03:48,840 --> 00:03:50,250 Wrapper is ready right now. 54 00:03:50,250 --> 00:03:55,290 You could clearly observe in our hardware design, we only have to put one instead. 55 00:03:55,660 --> 00:04:01,260 Another one is fixed right where in our past experience justice, that both of these are already been 56 00:04:01,260 --> 00:04:03,030 connected to their respective pin rate. 57 00:04:03,030 --> 00:04:10,380 So we do not need to worry about the performing and intermediate synthesis and then proceed in coordination 58 00:04:10,380 --> 00:04:10,920 of virtue. 59 00:04:11,190 --> 00:04:14,020 We could directly proceed to generate the bits.