WEBVTT 00:00.150 --> 00:05.700 Let us try to perform a simulation, right, just to verify whether our system is working as expected 00:05.970 --> 00:10.110 since we already set our liturgy as a top model in the simulation. 00:10.110 --> 00:15.930 So also, we just need to go to the simulation tab where we have run simulation click on run behavioral 00:15.930 --> 00:16.740 simulation, right? 00:17.040 --> 00:22.560 So here we have a set of 10 stimulus that will be applied to our system and then we'll be observing 00:22.560 --> 00:26.160 whether the output matches to what we have over here, right? 00:26.370 --> 00:32.640 The first value that we're going to add, it's all zeros, and then we are expecting to get all zeros 00:32.650 --> 00:32.800 right. 00:32.800 --> 00:33.570 And all right. 00:33.600 --> 00:36.270 All right, click on and to represent our input bus. 00:36.930 --> 00:41.430 Then you have a force constant rate, so we just need to add four zeros, right? 00:41.440 --> 00:44.820 So the default format we're just using is hexadecimal right. 00:45.330 --> 00:51.280 So four zeroes in a binary is equal to a single zeroing in hexadecimal right. 00:51.310 --> 00:54.480 But we will be choosing to work with the binary. 00:54.490 --> 00:58.760 So just click on this and then you'll be able to choose the different radix rate. 00:58.770 --> 01:00.930 And here then you could specify for zero. 01:00.950 --> 01:03.180 So we have one two three four zero three. 01:03.570 --> 01:09.510 So once you add this value, let it just really use the time, but it be a nanosecond rate and then 01:09.510 --> 01:10.560 click on this run. 01:10.560 --> 01:16.440 But right, so once you click on Run button, you'll be noticing that you have 0.10 invert, right? 01:16.530 --> 01:22.530 So if you just select the bus, right click and change the Radix to a binary. 01:23.550 --> 01:26.490 You'll get similarly output also to a binary. 01:26.820 --> 01:33.210 So we could observe that for all zeros at an input will be getting all zeros out, and I'll great the 01:33.210 --> 01:34.920 next value that we're going to artists. 01:34.920 --> 01:36.440 One zero zero What right? 01:36.450 --> 01:42.340 So already just go right click on a full scholarship and add one zero zero one. 01:42.630 --> 01:44.310 This is again a binary format. 01:44.550 --> 01:47.300 So we need to choose the Read X correctly, right? 01:47.310 --> 01:52.710 Once this is done, just click on Red Button and for it, we are getting one one zero one, right? 01:52.710 --> 01:55.230 So this is one one zero one right here. 01:55.230 --> 01:57.390 We are exactly getting the same value. 01:57.420 --> 02:02.520 Now let me just focus one one zero one, so we're likely going to be for on student. 02:03.480 --> 02:05.730 Then we have one one zero one. 02:05.730 --> 02:08.070 Again, this is in a binary format. 02:08.070 --> 02:10.920 Right click OK and click on run button. 02:11.110 --> 02:14.940 So the value that we are getting is one zero one one at an output. 02:14.940 --> 02:18.990 And here also we are getting the same value right to the last value that we're going to add is zero 02:18.990 --> 02:19.740 one one one. 02:20.490 --> 02:21.330 So right click. 02:22.600 --> 02:27.760 Ford's constant zero one one one in a binary format. 02:28.060 --> 02:30.750 Click OK and click on red button, right? 02:30.760 --> 02:34.160 So you are getting evaluated zero one zero zero, right? 02:34.180 --> 02:36.430 And here also we are getting the see right. 02:36.760 --> 02:39.170 So our system is working as expected rate. 02:39.190 --> 02:44.220 So this is how we used a multi bit bus with a data flow more relaxing. 02:44.240 --> 02:51.640 Right now, we have an idea how we use the signal to define an undefined net rate, how we work with 02:51.640 --> 02:59.230 then signal based values, OK at an input and output port and use them to work with the data flow modeling 02:59.230 --> 02:59.500 state. 02:59.740 --> 03:07.270 We also covered an example where we looked into how we use a multi bit vector or multi multiple put 03:07.450 --> 03:09.620 to work with our data flow modeling state. 03:09.670 --> 03:09.820 Great.