In the nanoelectronics era, multiple faults or failures in circuits and systems deployed in mission- and safety-critical applications, such as space, aerospace, nuclear etc., are known to occur. To withstand these, higher order redundancy is suggested to be used selectively in the sensitive portions of a circuit or system. In this context, the distributed minority and majority voting based redundancy (DMMR) scheme was proposed as an alternative to the N-modular redundancy (NMR) scheme for the efficient implementation of higher order redundancy. However, the DMMR scheme is not self-healing. In this paper, we present a new self-healing redundancy (SHR) scheme that can inherently correct its internal faults or failures without any external int...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
Electronic circuits and systems employed in mission- and safety-critical applications such as space,...
The new generations of SRAM-based FPGA (Field Programmable Gate Array) devices, built on nanometre t...
In the nanoelectronics era, multiple faults or failures in circuits and systems deployed in mission-...
In the era of nanoelectronics, multiple faults or failures of function blocks are likely to occur. T...
In the era of nanoelectronics, multiple faults or failures of function blocks are likely to occur. T...
To boost logic density and reduce per unit power consumption SRAM-based FPGAs manufacturers adopted ...
The distributed minority and majority voting-based redundancy (DMMR) scheme was proposed as an effic...
To increase the amount of logic available in SRAM-based FPGAs manufacturers are using nanometric tec...
[[abstract]]There is growing need for embedded memory builtin self-repair (MBISR) due to the introdu...
Scaling of transistor's channel length is entering the realm of atomic and molecular geometries maki...
Electronic circuits/systems operating in harsh environments such as space are likely to experience f...
[[abstract]]A fault-tolerance technique for flexible-purging redundancy is proposed and designed. Th...
Electronic circuits and systems employed in mission- and safety-critical applications such as space,...
Nanoelectronics, promising significant boosts in device density, power and performance, has been pro...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
Electronic circuits and systems employed in mission- and safety-critical applications such as space,...
The new generations of SRAM-based FPGA (Field Programmable Gate Array) devices, built on nanometre t...
In the nanoelectronics era, multiple faults or failures in circuits and systems deployed in mission-...
In the era of nanoelectronics, multiple faults or failures of function blocks are likely to occur. T...
In the era of nanoelectronics, multiple faults or failures of function blocks are likely to occur. T...
To boost logic density and reduce per unit power consumption SRAM-based FPGAs manufacturers adopted ...
The distributed minority and majority voting-based redundancy (DMMR) scheme was proposed as an effic...
To increase the amount of logic available in SRAM-based FPGAs manufacturers are using nanometric tec...
[[abstract]]There is growing need for embedded memory builtin self-repair (MBISR) due to the introdu...
Scaling of transistor's channel length is entering the realm of atomic and molecular geometries maki...
Electronic circuits/systems operating in harsh environments such as space are likely to experience f...
[[abstract]]A fault-tolerance technique for flexible-purging redundancy is proposed and designed. Th...
Electronic circuits and systems employed in mission- and safety-critical applications such as space,...
Nanoelectronics, promising significant boosts in device density, power and performance, has been pro...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
Electronic circuits and systems employed in mission- and safety-critical applications such as space,...
The new generations of SRAM-based FPGA (Field Programmable Gate Array) devices, built on nanometre t...