This work presents a new Dual-Core LockStep approach to enhance fault tolerance in microprocessors. The proposed technique is based on the combination of software-based data checking and trace-based control-flow checking through an external hardware module. The hardware module is connected to the trace interface and is able to observe the execution of all the processors in the architecture. The proposed approach has been implemented for a dual core commercial processor. Experimental results demonstrate that the proposed technique has a high error detection capability with up to 99.63% error coverage
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...
Microprocessors in safety-critical system are extremely vulnerable to hacker attacks and circuit cro...
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...
This work presents a new Dual-Core LockStep approach to enhance fault tolerance in microprocessors. ...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
The progress of the semiconductor technology and the resulting increase of the transistor integratio...
This paper presents two control-flow error recovery techniques, CFE Recovery using Data-flow graph C...
The dual core strategy allows to construct a fail-silent processor from two instances (master/checke...
Hybrid error-detection techniques combine software techniques with an external hardware module that ...
This article presents Lock-V, a heterogeneous fault tolerance architecture that explores a dual-core...
In this paper, a software behavior-based technique is presented to detect control-flow errors in mul...
Shrinking microprocessor feature size and growing transistor density may increase the soft-error rat...
Computer systems are permanently present in our daily basis in a wide range of applications. In syst...
In various fields, such as those with high-reliability requirements, there is a growing demand for h...
The improvement of dependability in computing systems requires the evaluation of fault tolerance mec...
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...
Microprocessors in safety-critical system are extremely vulnerable to hacker attacks and circuit cro...
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...
This work presents a new Dual-Core LockStep approach to enhance fault tolerance in microprocessors. ...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
The progress of the semiconductor technology and the resulting increase of the transistor integratio...
This paper presents two control-flow error recovery techniques, CFE Recovery using Data-flow graph C...
The dual core strategy allows to construct a fail-silent processor from two instances (master/checke...
Hybrid error-detection techniques combine software techniques with an external hardware module that ...
This article presents Lock-V, a heterogeneous fault tolerance architecture that explores a dual-core...
In this paper, a software behavior-based technique is presented to detect control-flow errors in mul...
Shrinking microprocessor feature size and growing transistor density may increase the soft-error rat...
Computer systems are permanently present in our daily basis in a wide range of applications. In syst...
In various fields, such as those with high-reliability requirements, there is a growing demand for h...
The improvement of dependability in computing systems requires the evaluation of fault tolerance mec...
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...
Microprocessors in safety-critical system are extremely vulnerable to hacker attacks and circuit cro...
We propose a low cost concurrent error detection strategy to improve the Reliability, Availability, ...