DocumentCode
1902308
Title
Validation of channel decoding ASIPs a case study
Author
Brehm, Christian ; Wehn, Norbert ; Loitz, Sacha ; Kunz, Wolfgang
Author_Institution
Microelectron. Syst. Design Res. Group, Univ. of Kaiserslautern, Kaiserslautern, Germany
fYear
2011
fDate
24-27 May 2011
Firstpage
74
Lastpage
78
Abstract
It is well known that validation and verification is the most time consuming step in complex System-on-Chip design. Thus, different validation and verification approaches and methodologies for various implementation styles have been devised and adopted by the industry. Application specific instruction set-processors (ASIPs) are an emerging implementation technology to solve the energy efficiency/flexibility trade-off in baseband processing for wireless communication where multiple standards have to be supported at a very low power budget and a small silicon footprint. In order to balance these contrary aims ASIPs for these application domains have a restricted functionality tailored to a specific class of algorithms compared to traditional ASIPs. Downside of the outstanding efficiency/flexibility ratio is the coincidence of bad attributes for validation. Compared to standard processors, these ASIPs often have a very complex instruction set architecture (ISA) due to the tight coupling between the instructions and the optimized micro-architecture requiring new validation concepts. This paper will sensitize for the distinctiveness and complexity of the validation of ASIPs tailored to channel decoding. In a case study a composite approach comprising formal methods as well as simulations and rapid-prototyping for validating an existing channel decoding ASIP is applied and transferred it into an industry product.
Keywords
channel coding; decoding; elemental semiconductors; instruction sets; silicon; system-on-chip; application specific instruction set-processors; baseband processing; channel decoding; channel decoding ASIP; efficiency-flexibility ratio; instruction set architecture; silicon footprint; system-on-chip; wireless communication; Computer architecture; Decoding; Hardware; Pipelines; Program processors; Standards;
fLanguage
English
Publisher
ieee
Conference_Titel
Rapid System Prototyping (RSP), 2011 22nd IEEE International Symposium on
Conference_Location
Karlsruhe
ISSN
Pending
Print_ISBN
978-1-4577-0658-5
Electronic_ISBN
Pending
Type
conf
DOI
10.1109/RSP.2011.5929978
Filename
5929978
Link To Document