Critical ultra low-k TDDB reliability issues for advanced CMOS technologies

Chen, F.; Shinosky, M.; Li, B.; Gambino, J.; Mongeon, S.; Pokrinchak, P.; Aitken, J.; Badami, D.; Angyal, M.; Achanta, Ravi; Bonilla, G.; Yang, Guifu; Liu, P.; Li, K.; Sudijono, J.; Tan, Yue; Tang, Tien-Hao; Child, Craig

doi:10.1109/irps.2009.5173298

Cited by 20 publications

(9 citation statements)

References 13 publications

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“…The vias in the interconnect stack have the highest reliability concerns [23], [24], [25], [26], [27] and incorporating regularity at the lower levels of abstraction shows clear benefits with the UR implementations using the lowest number of vias as is evident from Fig. 2b.…”

Section: A Raw Implementation Metricsmentioning

confidence: 95%

Manufacturable nanometer designs using standard cells with regular layout

Subramaniyan

Larsson-Edefors

2013

International Symposium on Quality Electronic Design (ISQED)

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Abstract-In addition to performance considerations, designing VLSI circuits at nanometer-scale process technology nodes demands considerations related to manufacturability and cost. Regular layout patterns are known to enhance resilience to random as well as certain types of systematic variations. In this contribution we assess the implications of this layout regularity using design automation for Critical Feature Analysis (CFA) and raw metrics, such as via count. Using the ISCAS'89 benchmark suite, for each benchmark circuit we compare place-and-route implementations that are based on semi-regular and ultra-regular cell layouts. While the CFA counter-intuitively suggests that implementations using ultra-regular layouts have lower Design for Manufacturability (DFM) scores than those using semi-regular layouts, we find that ultra-regular layouts yield implementations with an average of 22% fewer vias at the cost of a small wire length increase.

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Section: A Raw Implementation Metricsmentioning

confidence: 95%

Manufacturable nanometer designs using standard cells with regular layout

Subramaniyan

Larsson-Edefors

2013

International Symposium on Quality Electronic Design (ISQED)

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“…One is the hard breakdown (HBD), which is not completely usable, and the other is the soft breakdown (SBD), which is when a gate current gradually increases before the HBD [4][5][6]. If in a state of SBD the characteristics such as delay are not influenced by degradation very much, it is not necessary to consider such conditions in real design.…”

Section: A Tddbmentioning

confidence: 99%

“…The first is principally reliability factors by which device characteristics deteriorate with time, so-called time degradation, which include timedependent dielectric breakdown (TDDB) [4][5][6], negative bias temperature instability (NBTI) [1][2][3][7][8][9], hot-carrier injection (HCI) [1][2][3], electromigration (EM) [10][11][12][13][14], stress migration (SM), etc. The second is mainly design-dependent factors, which include latch up, electrostatic-discharge (ESD), electromagnetic interference (EMI), power-supply/crosstalk/substrate noises, and also soft-error as a design approach.…”

Section: Introductionmentioning

confidence: 99%

Reasonable circuit analysis considering comprehensively reliability and variability

Kurokawa

Watanabe

Hoshi

et al. 2013

2013 13th International Symposium on Communications and Information Technologies (ISCIT)

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Circuit design in advanced CMOS technologies brings significant reliability and variability challenges. It is necessary to effectively handle the delay variation caused by various factors. In this paper, we make good use of the reliability models that have been proposed until now and present new models for simple and practical use. Then, we present an approach for circuit analysis that comprehensively considers reliability and variability. It includes time-dependent factors such as time-dependent dielectric breakdown (TDDB), bias temperature instability (BTI), hot-carrier injection (HCI), electromigration (EM), and random telegraph noise (RTN). Finally, in the analysis of a circuit with a gated clock, we demonstrate that analysis considering both reliability and variability is very important.

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“…Low-k dielectrics are used in more advanced processes, and metal from the contacts can migrate within the dielectric materials. This process is quite different from CMOS processes with larger feature sizes, which do not use the new insulator materials [7]. Recent information on via reliability from a 32 nm process shows that this reliability problem changes in character for highly scaled devices.…”

Section: "Back-end" Processing Reliability Issuesmetallizationmentioning

confidence: 99%

“…Figure 3. Metal-insulator transition in the low-k dielectric material used for interconnects in an advanced 32 nm process [7]. The leakage takes place between the materials used in multi-level metallization regions.…”

Section: "Back-end" Processing Reliability Issues -Packagingmentioning

confidence: 99%

Scaled CMOS reliability and considerations for spacecraft systems: Bottom-up and top-down perspectives

White

2012

2012 IEEE International Reliability Physics Symposium (IRPS)

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The recently launched Mars Science Laboratory (MSL) flagship mission, named Curiosity, is the most complex rover ever built by NASA and is scheduled to touch down on the red planet in August, 2012 in Gale Crater. The rover and its instruments will have to endure the harsh environments of the surface of Mars to fulfill its main science objectives. Such complex systems require reliable microelectronic components coupled with adequate component and system-level design margins. Reliability aspects of these elements of the spacecraft system are presented from bottomup and top-down perspectives.

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Critical ultra low-k TDDB reliability issues for advanced CMOS technologies

Cited by 20 publications

References 13 publications

Manufacturable nanometer designs using standard cells with regular layout

Manufacturable nanometer designs using standard cells with regular layout

Reasonable circuit analysis considering comprehensively reliability and variability

Scaled CMOS reliability and considerations for spacecraft systems: Bottom-up and top-down perspectives

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