The control flow checking technique presented in our paper is based on the new watchdog- processor method SEIS1 (Signature Encoded Instruction Stream). This method is in- tended to check the still uncovered area of state-of-the-art microprocessors using on-chip caches or instruction pipelines, since the processor instruction bus needs not be monitored. The control flow is checked using assigned actual signatures and embedded reference sig- natures. Since the actual and reference signatures are embedded in the checked program, the usual reference database and the time-consuming search/ compare engine in the watch- dog can be omitted. The evaluation of the actual signature is a ...
Shrinking microprocessor feature size and growing transistor density may increase the soft-error rat...
Due to harsher working environments, soft errors or erroneous bit-flips occur more frequently in mic...
Abstract: Many modern embedded systems use networks to communicate. This increases the attack surfa...
The control flow checking technique presented in our paper is based on the new watchdog- proc...
ISBN: 0818621508An approach to concurrent control flow checking that avoids performance and software...
A new watchdog processor scheme for concurrent checking of program control flow is presented. This ...
The present paper explains a new approach to program control flow checking. The check has been inser...
ISBN: 0818628456Concurrent checking consists of permanently verifying the behavior of a system by ch...
The improvement of dependability in computing systems requires the evaluation of fault tolerance mec...
[EN] Control flow monitoring using a watchdog processor is a well-known technique to increase the de...
ISBN: 081862051XControl flow checking techniques are discussed. Invariant properties of the control ...
Abstract—This paper evaluates the concurrent error detection capabilities of system-level checks, us...
Software monitoring and debugging can be efficiently supported by one of the concurrent error detect...
In this paper, a software behavior-based technique is presented to detect control-flow errors in mul...
A watchdog processor for the MOTOROLA M68040 microprocessor is presented. Its main task is to protec...
Shrinking microprocessor feature size and growing transistor density may increase the soft-error rat...
Due to harsher working environments, soft errors or erroneous bit-flips occur more frequently in mic...
Abstract: Many modern embedded systems use networks to communicate. This increases the attack surfa...
The control flow checking technique presented in our paper is based on the new watchdog- proc...
ISBN: 0818621508An approach to concurrent control flow checking that avoids performance and software...
A new watchdog processor scheme for concurrent checking of program control flow is presented. This ...
The present paper explains a new approach to program control flow checking. The check has been inser...
ISBN: 0818628456Concurrent checking consists of permanently verifying the behavior of a system by ch...
The improvement of dependability in computing systems requires the evaluation of fault tolerance mec...
[EN] Control flow monitoring using a watchdog processor is a well-known technique to increase the de...
ISBN: 081862051XControl flow checking techniques are discussed. Invariant properties of the control ...
Abstract—This paper evaluates the concurrent error detection capabilities of system-level checks, us...
Software monitoring and debugging can be efficiently supported by one of the concurrent error detect...
In this paper, a software behavior-based technique is presented to detect control-flow errors in mul...
A watchdog processor for the MOTOROLA M68040 microprocessor is presented. Its main task is to protec...
Shrinking microprocessor feature size and growing transistor density may increase the soft-error rat...
Due to harsher working environments, soft errors or erroneous bit-flips occur more frequently in mic...
Abstract: Many modern embedded systems use networks to communicate. This increases the attack surfa...