Title :
An improved Nelder-Mead method for analog design optimisation applied to deep sub-micron technology
Author_Institution :
SERDES Group, Xilinx, Cork, Ireland
Abstract :
Finding a good trade-off between contradictory specifications requires a certain amount of time and simulations. However, time, simulator licences and hardware resources are often limited. That is why design optimisers were developed, allowing to shorter design cycles. Nonetheless, their performance are often limited by the increasing complexity of the optimisation problem. This paper provides an efficient method to enhance designs based on an improved version of the Nelder-Mead algorithm. Its implementation was done in SKILL, a Lisp like programming language developed by Cadence. The results of high frequency Current Mode Logic (CML) chains realised in 20 nm technology illustrate its performance.
Keywords :
circuit complexity; circuit optimisation; network synthesis; CML chains; Cadence; Lisp like programming language; SKILL; analog design optimisation; deep sub-micron technology; design optimisers; high frequency current mode logic; improved Nelder-Mead method; size 20 nm; Nelder-Mead; Optimisation; SKILL;
Conference_Titel :
Irish Signals & Systems Conference 2014 and 2014 China-Ireland International Conference on Information and Communications Technologies (ISSC 2014/CIICT 2014). 25th IET
Conference_Location :
Limerick
DOI :
10.1049/cp.2014.0678
