Title :
Variability-aware NoC geometry and topology scaling
Author :
Gawish, Eman Kamel ; El-Kharashi, M. Watheq ; Abu-Elyazeed, M.F.
Author_Institution :
Electron. & Electr. Commun. Eng. Dept., Cairo Univ., Cairo, Egypt
Abstract :
In this paper we study the effects of geometry and topology scaling on electrical properties variations among NoC links designed to be identical. The modeled process systematic and random variations of current in CM interconnect, as well as delay variations in VM interconnect are calculated as interconnect, device and mesh size scale at 45 nm. Results show that device geometry scaling mainly affects the current variations. On the other hand, interconnect geometry scaling affects both current and delay variations. Scaling the mesh size will not affect random variations. On the other hand as the NoC mesh size scales from 4×4 to 16×16, the CM interconnect systematic current variations increases by 100%, while the VM systematic delay variations increases by 50% .
Keywords :
integrated circuit design; integrated circuit interconnections; network-on-chip; CM interconnect; NoC links; VM interconnect; current variations; delay variations; device geometry scaling; electrical properties variations; interconnect geometry scaling; mesh size; random variations; size 45 nm; systematic variations; topology scaling; variability-aware NoC geometry; Capacitance; Delays; Geometry; Integrated circuit interconnections; Logic gates; Mathematical model; Systematics; current-mode interconnect; networks-on-chip; process variability; voltage-mode interconnect;
Conference_Titel :
Electronics, Communications and Photonics Conference (SIECPC), 2013 Saudi International
Conference_Location :
Fira
Print_ISBN :
978-1-4673-6196-5
Electronic_ISBN :
978-1-4673-6194-1
DOI :
10.1109/SIECPC.2013.6550789
