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In figure below, you can find equivalent graph for C17 ISCAS circuit which has 5 inputs and 2 outputs. The weights on edges represent delays from one gate (node) to the other. I want an algorithm which calculates the number of paths reaching sink (output) node from one of the inputs that violates a specific delay constraint of the circuit. As an example, I assumed a specific delay of 15 for the circuit shown in the figure. For the first output 5 paths terminating at this output which two of them violates my delay constraint (15).

By dynamic programming, I can find out the total number of paths which ends up on a specific sink node but I can not figure out how many of them has a total path weight more than a specific number (It only gives me the number of paths from source to sink without considering the weights/delays of the paths).

A naive/brute-force solution can be to propagate the weights for each path as we traversing the topological sorted DAG and after accumulating whole the delays at the destination (sink) node, finding out how many of them violates our path weight constraint.

DAG for ISCAS C17 Circuit:

DAG for ISCAS C17 Circuit

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1 Answer 1

The easiest is to calculate exhaustively all the paths from source to sink and their associated costs. Then count all the ones whose cost is higher than the constraint. You can compute the paths by breadth-first or depth-first search.

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