High-level synthesis in latency insensitive system methodology

Author

Bomel, Pierre ; Abdelli, N. ; Martin, E. ; Fouilliart, A.-M. ; Boutillon, E. ; Kajfasz, P.

Author_Institution

LESTER Lab., UBS Univ., Lorient, France

fYear

2005

fDate

30 Aug.-3 Sept. 2005

Firstpage

96

Lastpage

101

Abstract

This paper presents our contribution in terms of synchronization processor to a SoC design methodology based on the theory of the latency insensitive systems (US). This methodology 1) promotes pre-developed IPs intensive reuse, 2) segments inter-IPs interconnects with relay stations to break critical paths and 3) brings robustness to data stream irregularities to IPs by encapsulation into a synchronization wrapper. Our contribution consists of IP encapsulation into a new wrapper model containing a synchronization processor, which speed and area are optimized and synthesizability guaranteed. The main benefit of our approach is to preserve the local IP performances when encapsulating them. This approach is part of the RNRT ALIPTA project which targets design automation of intensive digital signal processing systems with GAUT, a high-level synthesis tool.

Keywords

digital signal processing chips; electronic design automation; high level synthesis; system-on-chip; SoC design method; design automation; digital signal processing system; high-level synthesis; latency insensitive system method; relay stations; synchronization processor; synchronization wrapper; Delay; Digital systems; High level synthesis;

fLanguage

English

Publisher

ieee

Conference_Titel

Digital System Design, 2005. Proceedings. 8th Euromicro Conference on

Print_ISBN

0-7695-2433-8

Type

conf

DOI

10.1109/DSD.2005.47

Filename

1559784