1 00:00:00,940 --> 00:00:01,200 Hello. 2 00:00:01,320 --> 00:00:01,890 Welcome back. 3 00:00:02,520 --> 00:00:07,250 In this lesson, we shall give a quick overview of SDM 32 Cubitt Mix. 4 00:00:08,100 --> 00:00:12,510 Okay, so my Cuba makes us open over here to create on your projects. 5 00:00:12,630 --> 00:00:13,710 I can just click. 6 00:00:14,910 --> 00:00:16,290 I can open existant project. 7 00:00:16,320 --> 00:00:18,880 If I had existing projects, that would be listed here. 8 00:00:18,930 --> 00:00:20,020 But I do not have a need. 9 00:00:20,040 --> 00:00:28,110 So there's nothing here I can start to from access MSU Selecta, Access Booth Selecta or Access Cross 10 00:00:28,110 --> 00:00:28,710 Selecta. 11 00:00:29,450 --> 00:00:29,840 Right. 12 00:00:30,330 --> 00:00:34,160 One other key point is the the tops we've got over here. 13 00:00:34,170 --> 00:00:39,900 We've got a file type for new project to load project and a list of recent projects. 14 00:00:39,930 --> 00:00:42,030 If we have a need, we've got a Windows type. 15 00:00:43,210 --> 00:00:46,550 And this allows us to set the, um, the font size, et cetera. 16 00:00:46,590 --> 00:00:50,040 And then we've got this one, this very important one to help one. 17 00:00:50,550 --> 00:00:53,190 When you click on Help Top, you can check for updates. 18 00:00:53,280 --> 00:00:55,650 You can manage embedded software packages. 19 00:00:55,960 --> 00:00:59,430 Let's say you want to install A, B, l, e for Bluetooth low energy. 20 00:00:59,680 --> 00:01:04,140 You run a store, a Bluetooth, low energy package or some other package. 21 00:01:04,140 --> 00:01:07,160 You've got to come to manage embedded software packages to do that. 22 00:01:07,890 --> 00:01:11,670 And you can set your user preferences by clicking over here as well. 23 00:01:12,250 --> 00:01:20,220 Over here, you can give consent for data to be sent to SD microelectronics to sort of monitor the usage 24 00:01:20,220 --> 00:01:20,620 of Cuba. 25 00:01:20,660 --> 00:01:22,500 Makes, you know what to improve the product. 26 00:01:23,490 --> 00:01:24,540 I said is written over here. 27 00:01:24,600 --> 00:01:26,850 If you don't want to do that, you can simply on check this. 28 00:01:27,670 --> 00:01:28,060 Right. 29 00:01:28,880 --> 00:01:32,100 And, um, you can check for updates as well by clicking this. 30 00:01:32,580 --> 00:01:37,440 So I'm gonna start a new project by coming over here, access to board select click here. 31 00:01:44,150 --> 00:01:44,700 It's open. 32 00:01:45,100 --> 00:01:47,030 It's the first time, so it's taken a while. 33 00:01:49,540 --> 00:01:55,470 It's still got certain things to download, and on Zipp, it's quickly doing that. 34 00:02:04,710 --> 00:02:05,610 And it's opened. 35 00:02:06,990 --> 00:02:07,800 So here we are. 36 00:02:08,250 --> 00:02:11,970 We've got our various development boards over here. 37 00:02:12,000 --> 00:02:13,860 We've got the discovery ports. 38 00:02:16,750 --> 00:02:17,650 Different types. 39 00:02:18,060 --> 00:02:18,340 Cross. 40 00:02:18,450 --> 00:02:19,610 Amanda Port Selector. 41 00:02:19,840 --> 00:02:25,360 If I want to select just the MCU Chip, I can click over here and simply search that chip. 42 00:02:25,780 --> 00:02:30,760 I'll see SDM 32 for one one and then it will list. 43 00:02:30,910 --> 00:02:35,320 And when you check here, it keeps the parameter, keeps the price range as well. 44 00:02:35,710 --> 00:02:40,990 Over here, the price starts from two point two eight four two three point four five. 45 00:02:41,050 --> 00:02:42,530 I can reduce the price range. 46 00:02:42,580 --> 00:02:45,880 If I can afford all of this to reduce the options. 47 00:02:45,940 --> 00:02:50,440 These are the options that I have if I want the price to be within this range. 48 00:02:51,190 --> 00:02:51,610 Right. 49 00:02:52,900 --> 00:02:58,060 Because the key that makes set up from, you know, prototype into development such that you have a 50 00:02:58,060 --> 00:03:01,300 clear picture of what you are dealing with over here as well. 51 00:03:01,360 --> 00:03:04,060 It gives the peripherals available on a particular port. 52 00:03:04,540 --> 00:03:06,400 We can filter by peripherals as well. 53 00:03:06,790 --> 00:03:07,600 So what should I say? 54 00:03:07,630 --> 00:03:08,220 I want. 55 00:03:09,550 --> 00:03:13,810 I want to HDD and other peripherals. 56 00:03:13,840 --> 00:03:20,230 I can just a neighbor determine hits enter and Cuba makes you suggest other mce use that I can use. 57 00:03:21,010 --> 00:03:21,730 So let's see. 58 00:03:21,880 --> 00:03:23,830 You can select by Crosswell this one. 59 00:03:23,950 --> 00:03:25,560 I type this a cortex for. 60 00:03:25,660 --> 00:03:27,840 That is why I just call text and voice highlighted. 61 00:03:28,510 --> 00:03:31,930 I can delete this such that led to Cuba mext make that choice for me. 62 00:03:31,960 --> 00:03:37,660 I'm going to select Coatex M 33 over here and it gives me the options. 63 00:03:37,720 --> 00:03:40,690 These are the options and these are the peripherals available as well. 64 00:03:41,980 --> 00:03:42,400 Right. 65 00:03:42,790 --> 00:03:47,480 So this for the MCU selector, let's see, Harbel criticsm seven. 66 00:03:47,620 --> 00:03:53,090 I've included Criticsm seven and it's increased my list and we can check for the line. 67 00:03:53,180 --> 00:03:54,250 So by here, what do we want? 68 00:03:54,370 --> 00:03:57,860 F one series, F zero series, et cetera. 69 00:03:58,140 --> 00:03:58,750 And then. 70 00:04:00,350 --> 00:04:00,560 Okay. 71 00:04:00,640 --> 00:04:02,580 That's what I meant by the lines. 72 00:04:02,890 --> 00:04:04,460 F one, f zero, etc.. 73 00:04:06,850 --> 00:04:09,760 And then the prize, the package as well. 74 00:04:09,850 --> 00:04:13,360 You can select the package if you are into designing your own BCBS. 75 00:04:13,900 --> 00:04:15,820 You can filter by packages as well. 76 00:04:16,630 --> 00:04:17,080 Right. 77 00:04:17,950 --> 00:04:26,170 So I'll just close this and then I'll come back to board selector and then I'm going to just select 78 00:04:26,200 --> 00:04:29,630 the new clue F for one, one for E.T.. 79 00:04:31,450 --> 00:04:34,060 There is the new clue, F for one one over here. 80 00:04:34,450 --> 00:04:35,650 Just double click this. 81 00:04:36,480 --> 00:04:40,900 And when you highlight it, it tells you gives you the specifications of the board. 82 00:04:41,710 --> 00:04:44,650 If it's obsolete, it would tell you it's obsolete. 83 00:04:44,890 --> 00:04:45,830 But this is active. 84 00:04:45,910 --> 00:04:48,270 Therefore, it is written at a market price. 85 00:04:48,310 --> 00:04:50,020 The retail price is over here. 86 00:04:50,050 --> 00:04:57,250 This is thirteen dollars and the futures of the board is listed over here or are listed over here, 87 00:04:57,460 --> 00:04:58,030 I should say. 88 00:04:58,570 --> 00:05:05,530 And if you want access to the data sheet as well as other documentation, you can click these tops over 89 00:05:05,530 --> 00:05:06,730 here to take a look at them. 90 00:05:07,520 --> 00:05:07,890 Okay. 91 00:05:08,140 --> 00:05:13,720 So once I've highlighted, I can double click it or just click starts project over here like this. 92 00:05:14,740 --> 00:05:19,030 And when you select a board, it would ask you, what do you want to initialize? 93 00:05:19,090 --> 00:05:20,860 Or peripherals with default mode. 94 00:05:20,920 --> 00:05:21,340 I'll click. 95 00:05:21,370 --> 00:05:21,820 Yes. 96 00:05:27,120 --> 00:05:29,690 And it's setting up the project. 97 00:05:33,690 --> 00:05:35,910 Okay, so that's what it looks like. 98 00:05:37,080 --> 00:05:39,450 So there's I one nuclear I see you right here. 99 00:05:39,630 --> 00:05:45,510 These are the default setups and we've got the push-Button enabled for us. 100 00:05:46,200 --> 00:05:49,950 We've got the LDA also set as an output pin. 101 00:05:50,790 --> 00:05:54,690 And then we've got the you got to be a two and P three. 102 00:05:55,590 --> 00:06:02,570 And then we've got other things with regards to the zero wire interface and the clock setters. 103 00:06:03,420 --> 00:06:08,780 Okay, so this is known as the pin out of you. 104 00:06:09,120 --> 00:06:12,590 We've got a pin out and configuration tab over here. 105 00:06:12,600 --> 00:06:13,920 We click to set a pin. 106 00:06:13,980 --> 00:06:14,550 Let's see. 107 00:06:15,060 --> 00:06:17,460 I want to set it in as an output pin. 108 00:06:17,520 --> 00:06:22,690 I will simply click this and select GPL output and it becomes an output pin. 109 00:06:23,100 --> 00:06:24,870 Let's say I want to rename this. 110 00:06:25,330 --> 00:06:25,770 All right. 111 00:06:25,800 --> 00:06:26,870 Click this and see. 112 00:06:27,000 --> 00:06:31,120 And to use a label, I can simply call this my output. 113 00:06:32,490 --> 00:06:37,290 And then it becomes an output to be a simple cluster if I want to set it to a different type of pin. 114 00:06:37,320 --> 00:06:40,560 I simply click and select the type that I want. 115 00:06:41,250 --> 00:06:42,480 This is known as the. 116 00:06:43,490 --> 00:06:47,550 This is known as the pin out penult and configuration view. 117 00:06:47,940 --> 00:06:48,330 Right. 118 00:06:48,540 --> 00:06:53,490 And I can drag a click and hold two drug to move it around. 119 00:06:54,060 --> 00:06:55,200 It's allowable to do that. 120 00:06:55,260 --> 00:06:56,100 I can zoom in. 121 00:06:57,120 --> 00:06:57,960 I can zoom out. 122 00:06:59,010 --> 00:07:00,360 I can rotate if I want. 123 00:07:02,070 --> 00:07:02,550 Right. 124 00:07:02,880 --> 00:07:03,330 Okay. 125 00:07:04,050 --> 00:07:06,330 So there's the penult view and we have these. 126 00:07:06,930 --> 00:07:13,420 So, you know, in microcontroller setup when we select a pin. 127 00:07:14,070 --> 00:07:17,280 We've got to do further further configurations. 128 00:07:17,310 --> 00:07:24,080 And what I mean by this is to setup to setup something like a U at a U. 129 00:07:24,240 --> 00:07:30,680 Art is an alternate function on the MCU, meaning we take a GPL, your pin, and then we set it alternate 130 00:07:30,680 --> 00:07:33,570 function as you got before we are able to use it. 131 00:07:33,930 --> 00:07:39,000 So, for instance, if I want to say this, as you said, it's done over here after I have selected 132 00:07:39,450 --> 00:07:40,060 it as U. 133 00:07:40,160 --> 00:07:40,290 S. 134 00:07:40,770 --> 00:07:44,520 I've got to come over here and configure its alternate function. 135 00:07:45,450 --> 00:07:53,280 So under system core over here, we are given you know, we are given options to figure out what GPL 136 00:07:53,280 --> 00:07:56,740 you and these often we wouldn't talk much about these. 137 00:07:56,760 --> 00:07:59,550 We just explained them when we required them racc. 138 00:07:59,610 --> 00:08:01,680 Over here is the bits that won't forget. 139 00:08:01,710 --> 00:08:07,320 These lines are a clock high speed extend or we're not using this or we are saying bypass. 140 00:08:07,410 --> 00:08:10,470 Or we can simply say disable, acyclic, disable. 141 00:08:10,470 --> 00:08:16,890 You realize that this change to yellow, but I can say bypass, which is its default mode, is back 142 00:08:16,890 --> 00:08:19,350 to green and low speed extend or here. 143 00:08:19,590 --> 00:08:21,480 This we are using a crystal for it. 144 00:08:21,900 --> 00:08:25,410 So if I disable that, you see that it's been to get disabled from here. 145 00:08:26,820 --> 00:08:28,950 So as I click disable, it becomes yellow. 146 00:08:29,670 --> 00:08:29,970 Right. 147 00:08:30,000 --> 00:08:32,690 Yellow means you've set the GPL. 148 00:08:32,700 --> 00:08:37,050 You you've got to go and do its actual alternate function configuration. 149 00:08:37,380 --> 00:08:41,430 So whenever you see a pin as yellow, it's means it's setup is incomplete. 150 00:08:42,120 --> 00:08:46,420 So I'll see you ceramic and then it's back to green. 151 00:08:47,520 --> 00:08:47,910 Right. 152 00:08:48,330 --> 00:08:50,340 And then stop over here. 153 00:08:51,200 --> 00:08:52,280 The single wire. 154 00:08:52,710 --> 00:08:53,760 I can disable it. 155 00:08:55,590 --> 00:08:56,190 I'll show you. 156 00:08:56,310 --> 00:08:57,750 That is on the other side. 157 00:08:57,870 --> 00:08:59,850 I just disabled it when I see it. 158 00:08:59,850 --> 00:09:00,840 Use zero wire. 159 00:09:01,540 --> 00:09:02,700 It turned back to green. 160 00:09:03,460 --> 00:09:03,880 Right. 161 00:09:04,600 --> 00:09:08,770 And this you can do you disable the pin by selecting reset. 162 00:09:09,600 --> 00:09:09,980 Okay. 163 00:09:10,830 --> 00:09:11,250 Right. 164 00:09:11,820 --> 00:09:14,610 And we've got Topps here for auto configuration. 165 00:09:14,640 --> 00:09:20,640 If we want another configuration for our HDD, we simply click on a lock and then we select our ADC. 166 00:09:20,700 --> 00:09:23,350 This MCU has a single ADC module. 167 00:09:23,700 --> 00:09:26,880 But this single module has about sixteen channels. 168 00:09:27,570 --> 00:09:31,350 So if we want an ATC, this is where the configuration will be done. 169 00:09:31,410 --> 00:09:32,880 But we're not using an ADC now. 170 00:09:34,080 --> 00:09:36,020 So ATC is under analogue. 171 00:09:36,630 --> 00:09:37,620 We've got timers. 172 00:09:38,120 --> 00:09:45,270 And this tab allows us to figure out various general purpose timers as well as a real time clock. 173 00:09:46,050 --> 00:09:47,760 We've got connectivity as well. 174 00:09:47,850 --> 00:09:52,350 This deals with things like the AI to see the SBI and the U. 175 00:09:52,570 --> 00:09:52,690 S. 176 00:09:53,360 --> 00:09:57,060 As we can see, the you to is setup over here. 177 00:09:57,120 --> 00:10:01,440 That is why it is green and that is why we've got it correct or take over here. 178 00:10:02,070 --> 00:10:08,310 So to see the configuration or to change the configuration or simply click here and you can see it says 179 00:10:08,310 --> 00:10:11,760 Mode is Synchronoss and then hardware flow control disabled. 180 00:10:11,910 --> 00:10:12,250 Okay. 181 00:10:12,690 --> 00:10:16,470 When I disable this when I come over here mode and disable it. 182 00:10:18,090 --> 00:10:25,140 When I come over here and change it or disable it, you see that these payments will be affected because 183 00:10:25,140 --> 00:10:27,350 these parents are the ones connected to the U. 184 00:10:27,510 --> 00:10:31,800 But let's say I go single wire, you see. 185 00:10:31,830 --> 00:10:32,820 Now we've disabled. 186 00:10:33,190 --> 00:10:37,790 Exline shows that the IRS is back to yellow, meaning its configuration is incomplete. 187 00:10:38,060 --> 00:10:42,710 Single wire or half duplex means just one direction communication. 188 00:10:43,520 --> 00:10:49,070 Go back to a Synchronoss and then this is here. 189 00:10:49,640 --> 00:10:54,470 And the configuration of the actual ADC or the actual you. 190 00:10:54,650 --> 00:10:55,790 I should say, is down here. 191 00:10:56,300 --> 00:10:58,810 Things like the box rate we can change over here. 192 00:10:59,330 --> 00:11:05,620 The word length we can change and select the pirate to the data direction, et cetera. 193 00:11:05,870 --> 00:11:09,800 If we are using DME, we can click over here and add and GPL. 194 00:11:09,800 --> 00:11:13,610 You, such as we know is P2, P3. 195 00:11:14,240 --> 00:11:17,450 When we selected these pinions, they go added here automatically. 196 00:11:18,080 --> 00:11:24,980 And whether we want to set ADC interrupt, we come to infix settings and fix stands for Nesse. 197 00:11:24,980 --> 00:11:26,930 That fact or interrupt controller. 198 00:11:27,980 --> 00:11:28,500 So yeah. 199 00:11:28,730 --> 00:11:36,200 So connectivity provides us access to a war connectivity modules and these are the the I2 see S.P.I 200 00:11:36,230 --> 00:11:36,760 and the U. 201 00:11:37,690 --> 00:11:38,030 OK. 202 00:11:38,330 --> 00:11:39,770 The next one is multimedia. 203 00:11:39,980 --> 00:11:44,120 We have a two s over here which we can use for sound and other things. 204 00:11:44,420 --> 00:11:50,330 We've got computing and we've got this module known as the CRC Mean and Cyclic Redundancy Check. 205 00:11:50,660 --> 00:11:51,920 We can use that as well. 206 00:11:52,350 --> 00:11:56,100 You want to add at a middle word such as a file system. 207 00:11:56,310 --> 00:11:59,300 We've got futz efforts that we can include here. 208 00:12:00,350 --> 00:12:04,210 We can also include a real time operating system like free our toes. 209 00:12:04,760 --> 00:12:08,810 And we can include the embed tearless if we want, as well as USP devices. 210 00:12:09,470 --> 00:12:09,860 Right. 211 00:12:10,520 --> 00:12:14,570 So these we talk about them deeper when we are using them. 212 00:12:14,990 --> 00:12:19,120 The next step up here is known as the core configuration. 213 00:12:19,610 --> 00:12:20,900 So we can simply click here. 214 00:12:20,930 --> 00:12:23,120 And this gives us a few of our clock. 215 00:12:24,680 --> 00:12:28,280 We can, um, we can increase the clock frequency. 216 00:12:28,700 --> 00:12:30,830 It says over here that Max is hundred megahertz. 217 00:12:30,860 --> 00:12:31,760 So we've got to keep. 218 00:12:31,850 --> 00:12:36,050 They might and we can know the proc for our various peripherals. 219 00:12:36,350 --> 00:12:41,770 For instance, over here, it tells us that the plug for what time is the time is connected to the MPB 220 00:12:41,770 --> 00:12:42,160 one. 221 00:12:43,090 --> 00:12:50,960 The APB one bus clock currently is set at two four make a hit the clock to be called cortex system time 222 00:12:50,990 --> 00:12:51,330 unassisted. 223 00:12:51,500 --> 00:12:54,040 Time is clock is eighty four, etc.. 224 00:12:54,070 --> 00:12:59,840 So over here we have exactly the values that our farish peripherals would have for their clocks. 225 00:13:00,170 --> 00:13:02,220 So let's say I want to increase the clock to one hundred. 226 00:13:02,270 --> 00:13:06,440 I simply need to type one hundred here hits enter. 227 00:13:07,280 --> 00:13:09,680 And it's going to configure everything appropriately. 228 00:13:09,800 --> 00:13:11,830 And it's sort of arranged everything. 229 00:13:12,610 --> 00:13:19,490 And over here too, we can see are using the high speed internal edge as I hear those for high speed 230 00:13:19,490 --> 00:13:20,060 internal. 231 00:13:20,390 --> 00:13:24,500 Remember, in our setup we said bypass high speed extend or HFC. 232 00:13:24,830 --> 00:13:28,040 That is why this is selected high speed in turn on this being used. 233 00:13:28,870 --> 00:13:30,990 And we are also using low speed external. 234 00:13:32,690 --> 00:13:33,140 Right. 235 00:13:35,440 --> 00:13:37,990 Often use in low speed extend or let's see. 236 00:13:39,850 --> 00:13:40,160 Uh. 237 00:13:47,660 --> 00:13:52,950 So we said no split x10, no use this ceramic, um, ceramic resonator. 238 00:13:53,000 --> 00:13:56,590 And I think there is a ceramic resonator or slate. 239 00:13:56,750 --> 00:13:57,170 Oh, no. 240 00:13:57,300 --> 00:13:59,350 PCV on a microcontroller. 241 00:13:59,440 --> 00:14:00,110 What I should say. 242 00:14:00,660 --> 00:14:00,850 OK. 243 00:14:01,010 --> 00:14:03,340 So that's a quick overview of the clock top. 244 00:14:04,190 --> 00:14:11,270 And then, um, the next step I see to is there's this TEUs here which you use for checking the, um, 245 00:14:11,300 --> 00:14:15,180 the power consumption's and other things with regards to your your board. 246 00:14:15,890 --> 00:14:20,980 You find our top in the in the process is to collect the project money getup. 247 00:14:23,210 --> 00:14:29,840 And over here you can give your project a name because I'll call this simple and then you can decide 248 00:14:29,840 --> 00:14:31,490 on the toolchain you want to use. 249 00:14:32,780 --> 00:14:43,010 So I can say I want to generate the code for SDM 32 Kupe idee, um, MBK or the other IDC if I prefer. 250 00:14:43,070 --> 00:14:46,430 So this allows me to generate code for various ideas. 251 00:14:47,000 --> 00:14:48,530 And you can come over here. 252 00:14:48,710 --> 00:14:52,140 This is the project that's another topic called code generator. 253 00:14:53,810 --> 00:14:53,960 OK. 254 00:14:54,460 --> 00:14:57,800 It says the project's location cannot be empty. 255 00:14:58,130 --> 00:15:00,350 So we've got to give a location for a project. 256 00:15:04,880 --> 00:15:05,600 Let's see. 257 00:15:11,240 --> 00:15:13,310 A crater food called Cuba makes. 258 00:15:19,060 --> 00:15:19,780 Okay, so. 259 00:15:20,860 --> 00:15:21,250 Right. 260 00:15:21,520 --> 00:15:27,790 So let's say we want to generate projekt for SDM 30 to keep idee like this. 261 00:15:27,880 --> 00:15:29,680 And then there's the code generator here. 262 00:15:30,310 --> 00:15:36,730 And over here, you can take such that your files are separated into various plots, H and that C files. 263 00:15:37,140 --> 00:15:39,810 I often do this or you simply take here like this. 264 00:15:41,660 --> 00:15:46,370 And then once you've selected the idea you wish to use, you can simply click generate. 265 00:15:46,460 --> 00:15:48,020 And it would generate it for you. 266 00:15:48,740 --> 00:15:52,280 We'll see how that works when we start dealing with actual projects. 267 00:15:53,040 --> 00:15:54,830 And there isn't much any more. 268 00:15:54,850 --> 00:15:56,570 We can also generate a report. 269 00:15:56,720 --> 00:16:00,510 Over here, we can generate a report for our setup. 270 00:16:01,100 --> 00:16:05,250 Simply come to file, generate a report right here and there. 271 00:16:05,300 --> 00:16:07,100 Would you like to create the project for us? 272 00:16:07,270 --> 00:16:07,590 Click here. 273 00:16:07,880 --> 00:16:09,830 Because the project hasn't been created yet. 274 00:16:10,460 --> 00:16:12,050 OK, a report has been generated. 275 00:16:12,110 --> 00:16:17,860 So I'm going to open the folder and the report comes in to form. 276 00:16:17,860 --> 00:16:19,610 What does the TSD file? 277 00:16:20,210 --> 00:16:23,870 As well as a PDAF encapsulating all these selections you made. 278 00:16:25,110 --> 00:16:27,800 So I'm open into PDAF so that we take a look at it. 279 00:16:32,080 --> 00:16:37,860 So there's the PDAF project to name and the MCU you chose as well as the date. 280 00:16:37,930 --> 00:16:38,980 All of it exists. 281 00:16:40,240 --> 00:16:42,190 And, um, this is the pin out. 282 00:16:48,660 --> 00:16:51,460 And your clock conflagration is also included here. 283 00:16:53,720 --> 00:16:59,360 As well as the other setups that you have, the RACC set up values, we find him here. 284 00:16:59,420 --> 00:17:01,130 This is the art. 285 00:17:02,030 --> 00:17:03,300 Everything is included here. 286 00:17:03,770 --> 00:17:04,750 So this report. 287 00:17:05,630 --> 00:17:06,020 Right. 288 00:17:06,920 --> 00:17:10,050 So that's a quick overview of the estimated two key. 289 00:17:10,210 --> 00:17:10,820 Makes five. 290 00:17:10,880 --> 00:17:14,240 If you have any questions at all, just send me a message or leave in the questions area. 291 00:17:14,330 --> 00:17:16,270 And I shall see you in the next lesson. 292 00:17:16,310 --> 00:17:17,120 Have a nice day.