Peter Folkesson
Chalmers University of Technology
29 Papers
379 Citations
Peter Folkesson is an academic researcher from Chalmers University of Technology. The author has contributed to research in topics: Fault injection & Fault tolerance. The author has an hindex of 12, co-authored 23 publications. Previous affiliations of Peter Folkesson include SP Technical Research Institute of Sweden.
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Papers
Comparison of physical and software-implemented fault injection techniques
TL;DR: Three physical techniques and one software-implemented technique that have been used to assess the fault tolerance features of the MARS fault-tolerant distributed real-time system are compared and analyzed and the results obtained are discussed.
A comparison of simulation based and scan chain implemented fault injection
Peter Folkesson,S. Svensson,Johan Karlsson +2 more
- 23 Jun 1998
TL;DR: This paper compares two fault injection techniques: scan chain implemented fault injection (SCIFI) and fault injection in a VHDL software simulation model of a system, and a newly developed tool called FIMB UL (Fault Injection and Monitoring using BUilt in Logic).
111
Assembly-Level pre-injection analysis for improving fault injection efficiency
Raul Barbosa,Jonny Vinter,Peter Folkesson,Johan Karlsson +3 more
- 20 Apr 2005
TL;DR: A fully automated pre-injection analysis technique aimed at reducing the cost of fault injection campaigns optimizes the fault-space by utilizing assembly-level knowledge of the target system in order to place single bit-flips in registers and memory locations only immediately before these are read by the executed instructions.
Integration and Comparison of Three Physical Fault Injection Techniques
Johan Karlsson,Peter Folkesson,Jean Arlat,Yves Crouzet,Günther Leber +4 more
- 01 Jan 1995
TL;DR: This paper describes and compares three physical fault injection techniques — heavy-ion radiation, pin-level injection, and electromagnetic interference — and their use in the validation of MARS, a fault-tolerant distributed real-time system.
52
Reducing critical failures for control algorithms using executable assertions and best effort recovery
Jonny Vinter,Joakim Aidemark,Peter Folkesson,Johan Karlsson +3 more
- 01 Jul 2001
TL;DR: Fault injection experiments show that the percentage of value failures with severe consequences was reduced to 3% when the state variables were protected with executable assertions and best-effort recovery mechanisms.