In order for the results of timing analysis to be useful, they must provide insight and guidance on how the circuit may be improved so as to fix any reported timing problems. A limitation of many recent variability-aware timing analysis techniques is that, while they report delay distributions, or verify multiple corners, they do not provide the required guidance for re-design. We propose an efficient block-based parameterized timing analysis technique that can accurately capture circuit delay at every point in the parameter space, by reporting all paths that can become critical. Using an efficient pruning algorithm, only those potentially criti-cal paths are carried forward, while all other paths are discarded during propagation. This allo...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
Abstract- This paper addresses the problem of true delay estimation during high level design. The ex...
We present a novel method to perform timing analysis of hierarchical circuits. It is based on the re...
Driven by the need for faster devices and higher transistor densities, technology trends have pushed...
Static timing analysis has traditionally used the PERT method for identifying the critical path of a...
A new and efficient procedure is proposed to evaluate the timing performance of VLSI circuits with c...
Accurate estimation of critical path delays in circuits is a challenging task, particularly when var...
The continued scaling of digital integrated circuits has led to an increasingly larger impact of pro...
[[abstract]]We propose a false-path-aware statistical timing analysis framework. In our framework, c...
UnrestrictedAs VLSI fabrication process continues to advance and device and interconnect dimensions ...
[[abstract]]In current industrial practice, critical path selection is an indispensable step for AC ...
In this paper, we propose a timing-reasoning algorithm to improve the resolution of delay fault diag...
Variability of process parameters makes prediction of digital circuit timing characteristics an impo...
Timing Verification consists of validating the path delays (primary input or storage element to prim...
The dual-mode delay model, while being effective for characterizing on-chip timing variations, also ...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
Abstract- This paper addresses the problem of true delay estimation during high level design. The ex...
We present a novel method to perform timing analysis of hierarchical circuits. It is based on the re...
Driven by the need for faster devices and higher transistor densities, technology trends have pushed...
Static timing analysis has traditionally used the PERT method for identifying the critical path of a...
A new and efficient procedure is proposed to evaluate the timing performance of VLSI circuits with c...
Accurate estimation of critical path delays in circuits is a challenging task, particularly when var...
The continued scaling of digital integrated circuits has led to an increasingly larger impact of pro...
[[abstract]]We propose a false-path-aware statistical timing analysis framework. In our framework, c...
UnrestrictedAs VLSI fabrication process continues to advance and device and interconnect dimensions ...
[[abstract]]In current industrial practice, critical path selection is an indispensable step for AC ...
In this paper, we propose a timing-reasoning algorithm to improve the resolution of delay fault diag...
Variability of process parameters makes prediction of digital circuit timing characteristics an impo...
Timing Verification consists of validating the path delays (primary input or storage element to prim...
The dual-mode delay model, while being effective for characterizing on-chip timing variations, also ...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
Abstract- This paper addresses the problem of true delay estimation during high level design. The ex...
We present a novel method to perform timing analysis of hierarchical circuits. It is based on the re...