1 research outputs found
PieceTimer: A Holistic Timing Analysis Framework Considering Setup/Hold Time Interdependency Using A Piecewise Model
In static timing analysis, clock-to-q delays of flip-flops are considered as
constants. Setup times and hold times are characterized separately and also
used as constants. The characterized delays, setup times and hold times, are
ap- plied in timing analysis independently to verify the perfor- mance of
circuits. In reality, however, clock-to-q delays of flip-flops depend on both
setup and hold times. Instead of being constants, these delays change with
respect to different setup/hold time combinations. Consequently, the simple ab-
straction of setup/hold times and constant clock-to-q delays introduces
inaccuracy in timing analysis. In this paper, we propose a holistic method to
consider the relation between clock-to-q delays and setup/hold time
combinations with a piecewise linear model. The result is more accurate than
that of traditional timing analysis, and the incorporation of the
interdependency between clock-to-q delays, setup times and hold times may also
improve circuit performance.Comment: IEEE/ACM International Conference on Computer-Aided Design (ICCAD),
November 201