Title :
Cone Resynthesis ECO Methodology for Multi-Million Gate Designs
Author :
Raman, S. ; Lubyanitsky, Mike
Author_Institution :
Intel Technol. India Pvt Ltd., Bangalore
Abstract :
In this paper, we talk about techniques to incrementally resynthesize logic cones within a large design impacted by multiple RTL changes in order to accommodate a late functional ECO. In design methodologies where the RTL is hierarchical and the post route netlist is flat, mapping a change in the behavioral description to the post layout netlist is very complicated and may not even be feasible if the RTL is not written in a synthesis friendly manner. We try to attack this problem by introducing a technique that causes minimum perturbation to the gate level netlist, thereby retaining to a large degree, the goodness metrics of timing convergence, routability and layout cleanliness that were achieved during the various design milestones. This paper talks about the cone resynthesis ECO methodology in detail and highlights its usefulness during tight product deliverable schedules.
Keywords :
circuit layout; logic design; logic gates; network routing; engineering change order; layout cleanliness; logic cone resynthesis; multi-million gate designs; post layout netlist; post route netlist; routability; tight product deliverable schedules; timing convergence; Convergence; Costs; Design engineering; Fabrication; Logic design; Logic gates; Routing; Scheduling; Timing; Very large scale integration; Engineering change order (ECO); cone synthesis; cut point; formal verification; placement; routing;
Conference_Titel :
VLSI Design, 2009 22nd International Conference on
Conference_Location :
New Delhi
Print_ISBN :
978-0-7695-3506-7
DOI :
10.1109/VLSI.Design.2009.28
