In various fields, such as those with high-reliability requirements, there is a growing demand for high-performance microprocessors. Whereas commercial microprocessors offer a good trade-off between cost, size, and performance, they often need to be adapted to meet the reliability demands of safety-critical applications. To address this challenge, a Supervised Triple Macrosynchronized Lockstep architecture for multicore processors is presented in this work. Multiple recovery mechanisms, including rollback and roll-forward, have been implemented to harden the system. By integrating these mechanisms, the microprocessor becomes more robust and capable of mitigating potential errors or failures that may occur during operation. A quad-core ARM C...
Nowadays, high-performance microprocessors are demanded in many fields, including those with high-re...
International audienceScalable shared memory multiprocessors are promising architectures to achieve ...
In this paper, we focus on the problem of recovering processor failures in shared memory multiproces...
Nowadays, high-performance microprocessors are demanded in many fields, including those with high-re...
The checkpoint and rollback recovery techniques enable a system to survive failures by periodically ...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
This work presents a new Dual-Core LockStep approach to enhance fault tolerance in microprocessors. ...
This article presents Lock-V, a heterogeneous fault tolerance architecture that explores a dual-core...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract—Reducing device dimensions, increasing transistor densities, and smaller timing windows, ex...
Nowadays, high-performance microprocessors are demanded in many fields, including those with high-re...
International audienceScalable shared memory multiprocessors are promising architectures to achieve ...
In this paper, we focus on the problem of recovering processor failures in shared memory multiproces...
Nowadays, high-performance microprocessors are demanded in many fields, including those with high-re...
The checkpoint and rollback recovery techniques enable a system to survive failures by periodically ...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
This work presents a new Dual-Core LockStep approach to enhance fault tolerance in microprocessors. ...
This article presents Lock-V, a heterogeneous fault tolerance architecture that explores a dual-core...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract—Reducing device dimensions, increasing transistor densities, and smaller timing windows, ex...
Nowadays, high-performance microprocessors are demanded in many fields, including those with high-re...
International audienceScalable shared memory multiprocessors are promising architectures to achieve ...
In this paper, we focus on the problem of recovering processor failures in shared memory multiproces...