Paper Info
Title
Efficient soft error protection for commodity embedded microprocessors using profile information
Abstract
Successive generations of processors use smaller transistors in the quest to make more powerful computing systems. It has been previously studied that smaller transistors make processors more susceptible to soft errors (transient faults caused by high energy particle strikes). Such errors can result in unexpected behavior and incorrect results. With smaller and cheaper transistors becoming pervasive in mainstream computing, it is necessary to protect these devices against soft errors; an increasing rate of faults necessitates the protection of applications running on commodity processors against soft errors. The existing methods of protecting against such faults generally have high area or performance overheads and thus are not directly applicable in the embedded design space. In order to protect against soft errors, the detection of these errors is a necessary first step so that a recovery can be triggered. To solve the problem of detecting soft errors cheaply, we propose a profiling-based software-only application analysis and transformation solution. The goal is to develop a low cost solution which can be deployed for off-the-shelf embedded processors. The solution works by intelligently duplicating instructions that are likely to affect the program output, and comparing results between original and duplicated instructions. The intelligence of our solution is garnered through the use of control flow, memory dependence, and value profiling to understand and exploit the common-case behavior of applications. Our solution is able to achieve 92% fault coverage with a 20% instruction overhead. This represents a 41% lower performance overhead than the best prior approaches with approximately the same fault coverage.
Year
DOI
Venue
2012
10.1145/2248418.2248433
LCTES
Keywords
Field
DocType
high area,high energy particle strike,transformation solution,commodity embedded microprocessors,efficient soft error protection,embedded design space,low cost solution,smaller transistor,solution work,common-case behavior,profile information,soft error,fault coverage,control flow,embedded processor,profiling
Fault coverage,Soft error,Profiling (computer programming),Computer science,Parallel computing,Control flow,Exploit,Real-time computing,Transistor,Fault injection,Embedded system,Overhead (business)
Conference
Volume
Issue
ISSN
47
5
0362-1340
Citations 
PageRank 
References 
16
0.62
24
Authors
3
Name
Order
Citations
PageRank
Daya Shanker Khudia1994.36
Griffin Wright2160.62
Scott Mahlke34811312.08