Title :
SoC gate level design migration
Author :
Knieser, Michael ; Lucak, Mark ; Wolff, Francis ; Papachristou, Chris
Author_Institution :
Indiana Univ. Purdue Univ., Indianapolis, IN, USA
Abstract :
A successful industrial product has a lifespan of 20 or more years. Off-the-shelf ICs and ASICs both rely on fabrication processes which are obsolete far sooner. The modern ASIC design process offers excellent portability along with HDL (hardware description language) device descriptions and test benches. Older designs, typically captured as gates in schematics and validation files in proprietary simulation environments, make porting a challenge. The validity of, and issues with, converting a legacy gate-level design are presented. There is a trend in certain SoC designs to initiate gate level migrations in order to meet time-to-market pressures. We have developed a design flow for gate-level design migrations and experiences using this flow are discussed.
Keywords :
hardware description languages; integrated circuit design; logic CAD; system-on-chip; ASIC design process portability; HDL device descriptions; SoC gate level design migration; design flow; design porting; fabrication processes; gate schematics; hardware description language; industrial product lifespan; legacy gate-level design; off-the-shelf ASIC; off-the-shelf IC; proprietary simulation environments; test benches; time-to-market pressures; validation files; Application specific integrated circuits; Cellular phones; Fabrication; Graphical user interfaces; Hardware design languages; Microprocessors; Process design; Silicon; Testing; Workstations;
Conference_Titel :
ASIC/SOC Conference, 2002. 15th Annual IEEE International
Print_ISBN :
0-7803-7494-0
DOI :
10.1109/ASIC.2002.1158048
