The lifetimes of computer memories which are protected with single-error-correcting-double-error-detecting (SEC-DED) codes are studies. The authors assume that there are five possible types of memory chip failure (single-cell, row, column, row-column and whole chip), and, after making a simplifying assumption (the Poisson assumption), have substantiated that experimentally. A simple closed-form expression is derived for the system reliability function. Using this formula and chip reliability data taken from published tables, it is possible to compute the mean time to failure for realistic memory systems
International audienceTwo error correction schemes are proposed for word-oriented binary memories th...
All modern computers have memories built from VLSI RAM chips. Individually, these devices are highl...
This thesis discusses the types of transient faults caused by heavy-ion or a-particle radiation that...
The paper is concerned with developing quantitative results on the lifetime of coded random-access s...
Abstract—The reliability of memory systems that are exposed to soft errors has been studied in the p...
Chipkill correct is an advanced type of error correction used in memory subsystems. Existing analyti...
This article presents an analysis of the reliability of memories protected with Built-in Current Sen...
In this letter, we investigate fault-tolerance of memories built from unreliable cells. In order to ...
The pace of technological improvement of the semiconductor market is driven by Moore’s Law, enabling...
textAs the feature size of integrated circuits goes down to the nanometer scale, transient and perm...
Modern nanoscale devices with storage capacity typically implement error correction codes (ECCs) in ...
International audienceError-correcting codes (ECC) offer an efficient way to improve the reliability...
An important issue in the reliability of memories exposed to radiation environment is transient mult...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
Error correction codes (ECCs) have been used for decades to protect memories from soft errors. Singl...
International audienceTwo error correction schemes are proposed for word-oriented binary memories th...
All modern computers have memories built from VLSI RAM chips. Individually, these devices are highl...
This thesis discusses the types of transient faults caused by heavy-ion or a-particle radiation that...
The paper is concerned with developing quantitative results on the lifetime of coded random-access s...
Abstract—The reliability of memory systems that are exposed to soft errors has been studied in the p...
Chipkill correct is an advanced type of error correction used in memory subsystems. Existing analyti...
This article presents an analysis of the reliability of memories protected with Built-in Current Sen...
In this letter, we investigate fault-tolerance of memories built from unreliable cells. In order to ...
The pace of technological improvement of the semiconductor market is driven by Moore’s Law, enabling...
textAs the feature size of integrated circuits goes down to the nanometer scale, transient and perm...
Modern nanoscale devices with storage capacity typically implement error correction codes (ECCs) in ...
International audienceError-correcting codes (ECC) offer an efficient way to improve the reliability...
An important issue in the reliability of memories exposed to radiation environment is transient mult...
Reliability is one of the most serious issues confronted by microelectronics industry as feature siz...
Error correction codes (ECCs) have been used for decades to protect memories from soft errors. Singl...
International audienceTwo error correction schemes are proposed for word-oriented binary memories th...
All modern computers have memories built from VLSI RAM chips. Individually, these devices are highl...
This thesis discusses the types of transient faults caused by heavy-ion or a-particle radiation that...