Hardware errors become more common as silicon technologies shrink and become more vulnerable, especially in memory cells, which are the most exposed to errors. Permanent and intermittent faults are caused by manufacturing variability and circuits ageing. While these can be mitigated once they are identified, their continuous rate of appearance throughout the lifetime of memory devices will always cause unexpected errors. In addition, transient faults are caused by effects such as radiation or small voltage/frequency margins, and there is no efficient way to shield against these events. Other constraints related to the diminishing sizes of transistors, such as power consumption and memory latency have caused the microprocessor industry to...
System reliability is becoming a significant concern as technology continues to shrink. This is beca...
Nowadays, embedded systems are becoming increasingly attractive for many applications. Furthermore, ...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
Hardware errors become more common as silicon technologies shrink and become more vulnerable, especi...
Continuous improvements in transistor scaling together with microarchitectural advances have made po...
Technology scaling has led to growing concerns about reliability in microprocessors. Currently, faul...
According to Moore’s law, technology scaling is continuously providing smaller and faster devices. T...
[EN] The continuous raise in the integration scale of CMOS technology has provoked an augment in the...
[Abstract] Current high-performance computing (HPC) systems are comprised of thousands of CPU core...
This work studies the reliability of embedded systems with approximate computing on software and har...
Nanoscale technology nodes bring reliability concerns back to the center stage of digital system des...
The demand for computational power has been leading the improvement of the High Performance Computin...
As high performance computing (HPC) systems continue to grow, their fault rate increases. Applicatio...
As computer chips implementation technologies evolve to obtain more performance, those computer chip...
Failing hardware is a fact and trends in microprocessor design indicate that the fraction of hardwar...
System reliability is becoming a significant concern as technology continues to shrink. This is beca...
Nowadays, embedded systems are becoming increasingly attractive for many applications. Furthermore, ...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
Hardware errors become more common as silicon technologies shrink and become more vulnerable, especi...
Continuous improvements in transistor scaling together with microarchitectural advances have made po...
Technology scaling has led to growing concerns about reliability in microprocessors. Currently, faul...
According to Moore’s law, technology scaling is continuously providing smaller and faster devices. T...
[EN] The continuous raise in the integration scale of CMOS technology has provoked an augment in the...
[Abstract] Current high-performance computing (HPC) systems are comprised of thousands of CPU core...
This work studies the reliability of embedded systems with approximate computing on software and har...
Nanoscale technology nodes bring reliability concerns back to the center stage of digital system des...
The demand for computational power has been leading the improvement of the High Performance Computin...
As high performance computing (HPC) systems continue to grow, their fault rate increases. Applicatio...
As computer chips implementation technologies evolve to obtain more performance, those computer chip...
Failing hardware is a fact and trends in microprocessor design indicate that the fraction of hardwar...
System reliability is becoming a significant concern as technology continues to shrink. This is beca...
Nowadays, embedded systems are becoming increasingly attractive for many applications. Furthermore, ...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...