in future uploads, could you please use a pointer on screen as well please? got slightly confusing. maybe just highlight them in the ppt by editing the images in the slides itself i think that should be more convenient. brilliant content nevertheless!
With the edge-triggered flip flops, surely the data is captured on the falling edge? It's only propagated to the output on the rising edge. So, if the input changes between the clock's falling edge and the rising edge, it won't be reflected on the output until the next clock cycle.
in future uploads, could you please use a pointer on screen as well please? got slightly confusing. maybe just highlight them in the ppt by editing the images in the slides itself i think that should be more convenient. brilliant content nevertheless!
Bu dersleri bizlerle paylaştığınız için teşekkürler.
best comp arch course ever
CS and logic throwback love it
Recap ends at 6:10
Combinational Logic ends at 22:12
thats for great lecture
With the edge-triggered flip flops, surely the data is captured on the falling edge? It's only propagated to the output on the rising edge. So, if the input changes between the clock's falling edge and the rising edge, it won't be reflected on the output until the next clock cycle.
I think the light is not so smart, if there are both traffic in A and B all day, maybe one of them will never go through the street