2007
DOI: 10.1063/1.2655531
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Statistical analysis of electromigration lifetimes and void evolution

Abstract: Electromigration failure statistics and the origin of the log-normal standard deviation for copper interconnects were investigated by analyzing the statistics of electromigration lifetime and void size distributions at various stages during testing. Experiments were performed on 0.18 m wide Cu interconnects with tests terminated after certain amounts of resistance increase, or after a specified test time. The lifetime and void size distributions were found to follow log-normal distribution functions. The sigma… Show more

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Cited by 38 publications
(17 citation statements)
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“…It has been observed experimentally that the void caused by EM first reaches its critical size horizontally limited by the grain boundary before it begins to span the interconnect trench [14] [15]. With such a void growth, the step-up resistance of some signal lines (Eg: clockline and bit-line of SRAM) may not exceed the failure threshold typically defined as 10% resistance increase even when the void spans the whole trench.…”
Section: Functional Em Lifetime Resistance Curve and The Void Growthmentioning
confidence: 97%
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“…It has been observed experimentally that the void caused by EM first reaches its critical size horizontally limited by the grain boundary before it begins to span the interconnect trench [14] [15]. With such a void growth, the step-up resistance of some signal lines (Eg: clockline and bit-line of SRAM) may not exceed the failure threshold typically defined as 10% resistance increase even when the void spans the whole trench.…”
Section: Functional Em Lifetime Resistance Curve and The Void Growthmentioning
confidence: 97%
“…Thus, to model the time constant of a signal line, we need to model its EM resistance curve. According to previous research, the resistance evolution curve of the metal line consists of 3 portions [7][8] [14] [15], shown in Fig. 4.…”
Section: Definitionmentioning
confidence: 99%
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“…voids that trigger the line failure is the ultimate cause for the electromigration induced interconnect failure [67,68]. The failure criterion is typically set as a maximum resistance increase that is tolerated for the corresponding interconnect line.…”
Section: Void Evolutionmentioning
confidence: 99%
“…Since, in the case of a Ta, the electrical resistivity of the liner is around 20-70 times larger 11,15 than that of Cu, and the cross-section of the liner is around 10%-40% ͑Ref. 11͒ of the line cross-section, Cu A liner / liner A will be small ͑around 0.25/ 50= 0.005 say͒, and will only contribute to Eq.…”
Section: ͪ ͑1͒mentioning
confidence: 99%