WEBVTT 00:00.660 --> 00:03.930 So let us try to understand clearly architecture. 00:04.270 --> 00:12.120 OK, so this is basically diagram of a C nine five zero zero created from Xilinx itself. 00:12.770 --> 00:18.570 Will the understanding just fundamental of conditions, we just need to understand the difference that 00:18.570 --> 00:21.350 we have in an architectural design and speech. 00:21.450 --> 00:21.670 OK. 00:21.930 --> 00:24.830 And later on, we'll just try to simplify this block design. 00:24.890 --> 00:27.520 OK, so we already know that we have a microscope. 00:27.540 --> 00:35.880 So the combination of a microscope, that is one to Microtel, if we merge into one block, so that 00:35.880 --> 00:37.060 is still function. 00:38.100 --> 00:42.930 To this are the multiple function blocks that are present inside. 00:42.930 --> 00:45.390 And we already have an experience. 00:45.540 --> 00:53.490 Microcircuits means when we are discussing about percipient and then we have an interconnect, Max and 00:53.490 --> 00:57.320 then Niebla, which basically handles all the operations related to a. 00:57.630 --> 00:59.070 So you have an iReport. 00:59.290 --> 01:04.100 OK, again, we also have a global FALKINER Global Research signals. 01:04.240 --> 01:11.550 OK, then we have a Knoblock which are used to handle an entire input operation, then interconnect 01:11.550 --> 01:14.520 metals, which is used to implement the complicated logic. 01:14.610 --> 01:18.330 And then we have a function block which consists of. 01:19.720 --> 01:26.630 It's in my closet again and other dumb, such as we have a program of Landgate and fixed all the time, 01:26.800 --> 01:28.660 everything to be inside a function. 01:28.840 --> 01:35.800 So the fundamental block that we have that is used to implement the logic in the is a function voxel 01:36.130 --> 01:44.020 up to 18 microsatellites the inside and nine five zero zero three locked into what is inside a function. 01:44.770 --> 01:47.140 So this is a typical Pegram function. 01:47.380 --> 01:51.260 So we have an interconnect matrix connection that is coming over here. 01:51.610 --> 02:00.610 We have a programmable and re all here and it's about boto more or less complicated complementary output 02:00.610 --> 02:02.080 from our interconnect. 02:03.130 --> 02:10.180 Then we have McQuiston so each micro cell can support a single output so we can either choose to have 02:10.180 --> 02:14.140 a combination of logic or we can add or do not have it as a pseudo right. 02:14.410 --> 02:19.780 So for that reason, you've been noticing that creating things that are that can actually be free to 02:19.970 --> 02:21.100 an IO block. 02:21.420 --> 02:27.490 OK, and then that can apply to an output of open or they can also be fed to fostering development so 02:27.490 --> 02:29.710 that we build up a complex equation like. 02:32.600 --> 02:37.240 So this is what we need to be understood, right, and if you go to a microphone. 02:37.640 --> 02:41.140 OK, so this is the third thing that is important for us is a microphone. 02:41.540 --> 02:44.060 Let us try to understand what is inside a microphone. 02:44.270 --> 02:48.920 OK, so here we have a 36 Io's there. 02:48.920 --> 02:55.610 Dessaix I was coming from a switch metric, the signal coming from us fostering to connect. 02:55.820 --> 03:00.400 OK, then that can actually be connected to this five and so OK. 03:00.430 --> 03:02.240 And then we will be getting a product. 03:02.570 --> 03:02.950 Right. 03:03.200 --> 03:06.230 And then that product are basically free to an. 03:06.690 --> 03:08.160 So this is very, very similar. 03:08.180 --> 03:15.110 Then we have an exchange which can be used to pass a normal output as well as a completely complementary. 03:15.980 --> 03:21.650 So if you want to implement a combination of Selcuk, then we will be just following this and then we 03:21.650 --> 03:26.600 can either go to foster interconnect to implement the complex logic, or we can directly feed our signal 03:26.600 --> 03:30.500 to an operator if you want to read, register or to implement a sequencer. 03:30.500 --> 03:35.690 So could we have this provision offered flipflop also? 03:36.140 --> 03:38.780 Finally, these are also connected to certain Rousset. 03:38.810 --> 03:43.480 We have a global research and the global floc that president insipient. 03:43.790 --> 03:45.730 OK, so three things are important for us. 03:45.740 --> 03:49.210 So inside us we have a multiple function block. 03:49.370 --> 03:54.260 So each function block consists of a programmable line that is an 18 month process. 03:54.350 --> 04:03.840 So each function will support an eighty eighty IO connection or connection to the fast interconnect. 04:04.250 --> 04:06.340 So these are the multiple function blocks which are present. 04:06.470 --> 04:11.910 Finally, the communication between this will happening through the faster, faster interconnect metrics 04:11.930 --> 04:13.880 or switch metrics that we have with you. 04:14.390 --> 04:20.200 We haven't dedicated Duboc, which handle all the operations related to a Niu's, and the programming 04:20.210 --> 04:27.910 of this can be done with an experience system programming through Logitech inside a function block. 04:28.220 --> 04:36.170 We know that we have a programmable our nuti and the multiple micro sets and each micro cells have connection 04:36.170 --> 04:38.330 from a global sector or global clock. 04:39.680 --> 04:45.740 Finally, since we have any Microsoft, so we have a simultaneous output connection that can apply to 04:45.740 --> 04:52.700 and I block and further to an output, or they can also be free to fast connect and entitle Microsoft. 04:52.700 --> 05:00.150 If you analyze, we can go into detail how the things are working and we have a five Ankit whose product 05:00.150 --> 05:06.140 demob in fact to an object, and then we have an get to have a provision to get a normalized, less 05:06.200 --> 05:07.220 complementary output. 05:07.730 --> 05:15.910 Then output can either be a combination or it can either be registered for a combination of output hardware. 05:15.920 --> 05:20.930 We do not require Treadstone or we can just follow this path for us of the cases. 05:21.080 --> 05:28.160 In the case of the sequential need, we can just have a few slot added inside us and then giving our 05:28.160 --> 05:29.360 output back to either. 05:30.460 --> 05:33.630 First, organic search metrics are to an output. 05:34.200 --> 05:36.930 OK, so this is a typical architecture of a.