Add to ORKGInternational audienceWe illustrate that memory repair for high fault rates can be exploited for improving yield, extending lifetime, reducing power, and improving reliability, and consequently can be used to push aggressively the limits of technology scaling. We also present recent advances in low-area and low-power memory repair for high fault rates. As one of our main goals is to use this repair for reducing as much as possible the power dissipation of the memory system, the power dissipation of the repair circuitry should be kept as low as possible. To comply with this constraint, we also propose a repair approach, which further reduces the power dissipation of the repair circuit
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
International audienceWe illustrate that memory repair for high defect densities allows improving yi...
International audienceWe illustrate that memory repair for high fault rates allows improving yield, ...
ISBN 978-1-4673-6377-8International audienceNanometric scaling steadily increases failure rates, whi...
This paper presents memory Built-In Self-Repair approaches allowing to achieve high yield for defect...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
La miniaturisation technologique augmente la sensibilité des circuits intégrés auxdéfauts et nous ob...
Memory Built In Self Repair (BISR) is gaining importance since several years. New fault tolerance ap...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Inherently error-resilient applications in areas such as signal processing, machine learning and dat...
International audienceIn modern SoCs embedded memories should be protected by ECC against field fail...
NUMBER OF PAGES: (xliv+1199+x+305 suppl.)In modern SoCs, embedded memories occupy the largest part o...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
International audienceWe illustrate that memory repair for high defect densities allows improving yi...
International audienceWe illustrate that memory repair for high fault rates allows improving yield, ...
ISBN 978-1-4673-6377-8International audienceNanometric scaling steadily increases failure rates, whi...
This paper presents memory Built-In Self-Repair approaches allowing to achieve high yield for defect...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
La miniaturisation technologique augmente la sensibilité des circuits intégrés auxdéfauts et nous ob...
Memory Built In Self Repair (BISR) is gaining importance since several years. New fault tolerance ap...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Inherently error-resilient applications in areas such as signal processing, machine learning and dat...
International audienceIn modern SoCs embedded memories should be protected by ECC against field fail...
NUMBER OF PAGES: (xliv+1199+x+305 suppl.)In modern SoCs, embedded memories occupy the largest part o...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...
Nanometer memories are highly prone to defects due to dense structure, necessitating memory built-in...