International audienceThe costs to protect a commercial microprocessor against soft errors are discussed in this work. Based on hardware and time redundancies, a protection scheme was designed at RT level to mitigate transient faults on combinational and memory circuits. A fault-tolerant IC version of a mass-produced 8-bit microprocessor is protected by the scheme. Design issues and results in area, performance and power are presented comparing the robust microprocessor with its non-protected version. The costs by flip-flop are also discussed permitting to estimate the overheads in area for any architecture. Furthermore, the RT-level protection scheme is compared with an electrical-level scheme based on a non-standard gate
Current high-performance processors suffer from soft er-ror susceptibility issues which are generate...
The increasing performance demands for processors leveraged in mission and safety-critical applicati...
As predicted by Gordon E. Moore in 1975, the number of transistors has doubled every two years over ...
The aggressive scaling of semiconductor devices has caused a significant increase in the soft error ...
This paper proposes the use of metrics to refine system design for soft errors protection in system ...
Transient faults are emerging as a critical reliability concern for modern microproces-sors. Recentl...
Successive generations of processors use smaller transistors in the quest to make more powerful comp...
The exponentially increasing occurrence of soft errors makes the optimization of reliability, perfor...
Continuous shrinking in feature size, increasing power density etc, increases the vulnerability of m...
The occurrence of transient faults like soft errors in computer circuits poses a significant challen...
Soft errors (or Transient faults) are temporary faults that arise in a circuit due to a variety of i...
A fault-tolerant approach to microprocessor design, developed at the University of Michigan, is pres...
There has been a rising demand for well-organized and reliable digital storage as well as transmissi...
As conventional silicon Complementary Metal-Oxide-Semiconductor (CMOS) technology continues to shrin...
One of the major driving forces of the semiconductor industry is the continuous scaling of the silic...
Current high-performance processors suffer from soft er-ror susceptibility issues which are generate...
The increasing performance demands for processors leveraged in mission and safety-critical applicati...
As predicted by Gordon E. Moore in 1975, the number of transistors has doubled every two years over ...
The aggressive scaling of semiconductor devices has caused a significant increase in the soft error ...
This paper proposes the use of metrics to refine system design for soft errors protection in system ...
Transient faults are emerging as a critical reliability concern for modern microproces-sors. Recentl...
Successive generations of processors use smaller transistors in the quest to make more powerful comp...
The exponentially increasing occurrence of soft errors makes the optimization of reliability, perfor...
Continuous shrinking in feature size, increasing power density etc, increases the vulnerability of m...
The occurrence of transient faults like soft errors in computer circuits poses a significant challen...
Soft errors (or Transient faults) are temporary faults that arise in a circuit due to a variety of i...
A fault-tolerant approach to microprocessor design, developed at the University of Michigan, is pres...
There has been a rising demand for well-organized and reliable digital storage as well as transmissi...
As conventional silicon Complementary Metal-Oxide-Semiconductor (CMOS) technology continues to shrin...
One of the major driving forces of the semiconductor industry is the continuous scaling of the silic...
Current high-performance processors suffer from soft er-ror susceptibility issues which are generate...
The increasing performance demands for processors leveraged in mission and safety-critical applicati...
As predicted by Gordon E. Moore in 1975, the number of transistors has doubled every two years over ...