The Elmore delay from src to i is given by the following two equivalent expressions: (13.7)tElmore,i=∑j∈TCj×Rpath(src,i)∩path(src,j)=∑Rk∈path(src,i)Rk∑j∈TkCj The second expression, i.e., Equation (13.7), gives a linear time computation of the Elmore delay. Consider the ...
Let TD be the delay through the non-uniform wire. We determine f (x) such that TD is minimized. We also extend our study to the case where a non-uniform wire has two neighboring wires. Our study shows that the optimal shape function satisfies an integral equation. Numerical methods ...
Let T/sub D/ be the delay through the non-uniform wire. We determine f(x) such that T/sub D/ is minimized. We also extend our study to the case where a non-uniform wire has two neighboring wires. Our study shows that the optimal shape function satisfies an integral equation. ...