I guess what you are saying about the positive and negaive crosstalk is the opposite of what they are. Positive cross-talk refers to when one signal is on the falling edge and the other one is on the rising edge. And negative crosstalk is when they are switching in the same direction. Otherwise, your videos are of high quality and I really learnt a lot from them. Hopefully you could keep updating new episode. Thank you sir.
what you are mentioning is polarity of crosstalk value, what we are referring to here is, effect on transition of signal, it will degrade the victim when crosstalk is rising and victim is falling hence negative effect on victim.
what you are mentioning is polarity of crosstalk value, what we are referring to here is, effect on transition of signal, it will degrade the victim when crosstalk is rising and victim is falling hence negative effect on victim.
Can someone please explain how exactly one switching net can affect another net when there is no physical connection between them? What is happening physically (in terms of currents and voltages) that causes the aggressor net's signal/transition to affect the victim net? Thank you!
@@VLSIAcademyhub That makes more sense! What I’m curious about is how the charging/discharging results in a voltage similar to the voltage of the aggressor on the victim! Just wanted to develop an intuitive understanding for my own knowledge. Thank you very much for the response and the great videos!
@@VLSIAcademyhub You’re welcome! And oh, okay I see, right! So we can use that equation to relate the resulting voltage we’d see on the victim based on the current that we’d see induced by the mutual capacitance? What node would we see the voltage at?
Two parallel wires acts as a parallel plate and behave as a capacitor since the voltage level is changing and there is mutual capacitance is present, that is why agressor net switches the victim.
Easy and nice explanation and to the point.
I guess what you are saying about the positive and negaive crosstalk is the opposite of what they are. Positive cross-talk refers to when one signal is on the falling edge and the other one is on the rising edge. And negative crosstalk is when they are switching in the same direction. Otherwise, your videos are of high quality and I really learnt a lot from them. Hopefully you could keep updating new episode. Thank you sir.
what you are mentioning is polarity of crosstalk value, what we are referring to here is, effect on transition of signal, it will degrade the victim when crosstalk is rising and victim is falling hence negative effect on victim.
Hey , I thought cross talk only happens only in telecom industry 😬 Thanks for giving the insights 😀
Haha yeah, but not to that aspect. I think only someone with awareness of PD ans Synrhesis guys would know this
Very nice 👌
Why it is called as aggressor net?
Ur are explaining negative crosstalk for opposite direction is it correct? Check ones i saw some website negative means same direction
what you are mentioning is polarity of crosstalk value, what we are referring to here is, effect on transition of signal, it will degrade the victim when crosstalk is rising and victim is falling hence negative effect on victim.
how do u know it is aggressor and it is victim signal
There's a command in tool which reports this
Can someone please explain how exactly one switching net can affect another net when there is no physical connection between them? What is happening physically (in terms of currents and voltages) that causes the aggressor net's signal/transition to affect the victim net? Thank you!
@@VLSIAcademyhub That makes more sense! What I’m curious about is how the charging/discharging results in a voltage similar to the voltage of the aggressor on the victim! Just wanted to develop an intuitive understanding for my own knowledge. Thank you very much for the response and the great videos!
@@VLSIAcademyhub You’re welcome! And oh, okay I see, right! So we can use that equation to relate the resulting voltage we’d see on the victim based on the current that we’d see induced by the mutual capacitance? What node would we see the voltage at?
Two parallel wires acts as a parallel plate and behave as a capacitor since the voltage level is changing and there is mutual capacitance is present, that is why agressor net switches the victim.