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ASPDAC
2016
ACM

Delay uncertainty and signal criticality driven routing channel optimization for advanced DRAM products

8 years 8 months ago
Delay uncertainty and signal criticality driven routing channel optimization for advanced DRAM products
— Signal delay uncertainty induced by crosstalk is a critical challenge to the physical design of long interconnect channels in DRAM products at the 2× and 1× technology nodes. Due to severe cost challenges in a high-volume, commodity market, layout resources including channel width, buffers, and number of metal routing layers are extremely scarce. We describe a new channel optimizer that reduces crosstalk-induced delay uncertainty, weighted by signal criticality and aware of signal activity correlations (e.g., to reduce delay uncertainty by mutual shielding). Instead of the typical signal net permutation strategy, we apply (pessimistic) timing-driven swizzling to minimize the delay uncertainty cost function. Contributions of this work include (1) an accurate and efficient analytical crosstalk delay calculator, (2) scalability up to hundreds of signals and tracks in the routing channel through use of greedy and decomposition strategies as well as a pair-swapping approach, and (3) ...
Samyoung Bang, Kwangsoo Han, Andrew B. Kahng, Mulo
Added 29 Mar 2016
Updated 29 Mar 2016
Type Journal
Year 2016
Where ASPDAC
Authors Samyoung Bang, Kwangsoo Han, Andrew B. Kahng, Mulong Luo
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