WEBVTT

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Be frequently finding that sometimes it may happen that you have written a book called, but you are

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not getting what you are expecting out of it, or the school is running at very high frequency so that

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you will be able to analyze the results.

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OK, so you have designed a counter and that is operating at a second and you have connected the output.

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But it's also counter to the.

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And when you try to run programming and if you do use, you simply couldn't be able to observe a result

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on an elitist.

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OK, so they are either after an off or they are either alternate.

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OK, in that case.

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We need to verify whether the school is actually working on the hard work correctly or not.

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OK, so the two most popular apps that we frequently use to debunk are called onto an hardbodies and

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OK, or the second one that we have is an Vieaux Wilstein for Integrated Logic analyzer and the Vieaux

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transfer virtual input outputs.

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What we'll do is we'll just go to the typical futures of food diapers so that we have an abstract idea

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of both of them and in what specific cases they can be.

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Use one another and then will demonstrate the use of food diapers with an actual design.

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So you have an overall picture about how you use an app and what the typical features that you get when

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we walk around with this.

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OK, so first we start with an iron.

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OK, so integrity logic analyzer is a cool.

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OK, and that can be used to monitor the internal signals of autism.

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OK, so this is an important point to remember that only allow us to monitor the internal signals.

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And if you compare this with the video to Vioxx, it is also customizable to customized.

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It'll be customizable basically means that the number of troops that you have on tonight and the weight

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of each group can be configured according to requirement.

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So this could that is the way to allow or will can be used to both monitor as well as driving an internal

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signal.

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So I'll only allow us to monitor the input signal, whereas VIU allow us to both monitor as well as

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trivalent and the signals and that too in real time.

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And that is sometimes necessary.

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OK, so if you just go to an alley, he'll be finding that.

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It gives us a future of which we are having and then more logic logical, including the billion trigger

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recreation edge transition triggers and Dilek Synchronoss to the design being monitored.

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So the clock that we are utilizing in it is a same clock is used to feed.

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I think so though, considering that you have it and clock will also be applied to.

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I and this gives us more insight if we compare it with their then logic analyzer.

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OK, there we are feeding the clock from Wichita, Texas, OK.

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So this is a quite good feature that we get out of an island and then now you can see what is the meaning

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of Conficker.

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So users selectively no uproots.

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OK, and then put Procrit.

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It's also configurable.

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You can have a multiple throughputs which can be combined into a single trigger condition and it can

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also be used to debug the site because in the system.

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OK.

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So the future is so.

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The probe puts sample letter designed to be installed using beta moggy.

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So this is an important point to note that when you choose the debt that we basically stole the sample

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and that affect the number of resources that we utilize.

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So as we increase the debt of an illegal be finding, we consume more BEHRAM resources.

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So we need to wisely choose the debt that we are having for an.

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I will be finding that I laced the sample into a beta, and once, though I'm tired with this, that

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is, for example, if we have chosen and I need to have a of 096, so once all the samples are collected,

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that is Fouzi to nine six samples are collected, then only be able to see a week from now if we compare

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this with envy.

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So we do not consist of any input on any beta so it doesn't have any beta.

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So that basically give us a Real-Time monitor and real time driving signal and that can actually be

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verified like OK, so here you'll be noticing that the input values are read back periodically and displaying

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the biological analyzer.

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OK, so if you compare this with the Nili, we have a bit of vet.

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We stole the number of sample as specified by the depth.

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OK, for Nili.

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And once that depth is full, then we get all the sample on and we want to analyze it.

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If we compare this to VO.

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So the input values are read back periodically and displayed on an Ribadu logic analyzer feature.

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OK, so those are the few differences that we have then.

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One more important point, this will be finding that the foods that we have on an island, so they'll

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be finding that we have.

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We can have an end and that end can range from zero to one zero to three, so decide the maximum number

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of signals that can be analyzed with the help of a highly developed can range from one to four zero

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nine six.

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So this is very important point to note.

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We cannot trigger aioli or we cannot use annihilate to trigger the IPIS.

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Our system that we have inside it is that they can only be used to monitor our signal so poop can reach

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from zero to one zero two three.

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So this are the number of boots that you can attach to annihilates and that can range from one two four

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zero nine six right along with this.

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The important point is the depth that we can have.

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So that can be one zero two four two zero four eight four zero nine six eight nine two one six three

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eight four three two seven six eight sixty five gibi.

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And finally one thirty one.

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That is the maximum that we can have on tonight.

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So those are the few important points against the clock that we'll be using for an eye is the same clock

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that we have utilizing at the same rate.

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So.

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The important point to note about tonight is it basically collect the sample, depending on the depth

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that you specify and once all the sample are free into Aviram and then it displayed it on, then we

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are to analyze it.

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So here we get a provision to to resemble.

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The clock that we used to run and I is the same clock that we have in the U.S., it is recommended,

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in fact, you can use a different clock, the number of probes that you can have on annihilators, one

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zero two four.

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So that basically signifies that we can we can analyze maximum one zero two four signals by utilizing

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entirely OK.

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And the depth can range from.

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One key to one thirty one, OK, so that is the maximum, that depth that we get and we can range from

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one to four zero nine six.

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OK, if we compare this with an VIU so virtual, you have gives an ability to monitor Alvarez drive

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signal, but we do not consist of any VĚRA.

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So we will be reading back very periodically and will be displaying that on Eduardo and later similarly

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will be periodically applying the trigger on to.

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The.

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IP, or the design that we are testing with the help of NBA right here, also the clock is see what

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we have in the design.

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It has been recommended that we should use the steam clock that we have inside the design so that the

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synchronization become perfect.

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OK, so if you just analyzable to hear the food and that is the number of signal that you can monitor

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with the help of an VO.

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Can be from zero to 256.

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OK, so that is the risk that we get, which is less if you compare it, than I and the can range from

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one to two, 56.

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So would the West, as well as the number of inputs are less if we compare it with Danniella and the

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output.

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So that can be used to trigger the signals onto your design.

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So they also reach from zero to 256 and one to 256.

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OK, so those are the few important points that we should have at least.

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Abstract idea so that you get an ability to choose how to handle a specific.

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Scenario, when you want to say right now, what we'll do is we'll try to demonstrate the working of

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who type, so you at least have a good idea about an entire process that you need to follow to connect

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Dippin to a design and then perform the jiggering as well as monitoring.