Accurate Modeling Method for Cu Interconnect

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概要

• 論文の詳細を見る

• This paper proposes an accurate modeling method of the copper interconnect cross-section in which the width and thickness dependence on layout patterns and density caused by processes (CMP, etching, sputtering, lithography, and so on) are fully, incorporated and universally expressed. In addition, we have developed specific test patterns for the model parameters extraction, and an efficient extraction flow. We have extracted the model parameters for 0.15μm CMOS using this method and confirmed that 10%τpd error normally observed with conventional LPE (Layout Parameters Extraction) was completely dissolved. Moreover, it is verified that the model can be applied to more advanced technologies (90nm, 65nm and 55nm CMOS). Since the interconnect delay variations due to the processes constitute a significant part of what have conventionally been treated as random variations, use of the proposed model could enable one to greatly narrow the guardbands required to guarantee a desired yield, thereby facilitating design closure.

• 2008-06-01

著者

• Oda Noriaki

  Nec Electronics Corp. Kawasaki‐shi Jpn

• YAMADA Kenta

  NEC Electronics Corporation

• Yamada Kenta

  Nec Electronics Corp. Kawasaki‐shi Jpn

• Takewaki Toshiyuki

  Nec Electronics Corporation

• Iguchi Manabu

  Nec Electronics Corporation

• Suzuki Mieko

  Nec Electronics Corporation

• Yamanaga Koh

  Integrated Research Institute Tokyo Institute Of Technology

• Sekine Makoto

  Nec Electronics Corporation

• Sakamoto Hideo

  Nec Electronics Corporation

• KITAHARA Hiroshi

  NEC Electronics Corporation

• ASAI Yoshihiko

  NEC Electronics Corporation

• OKADA Norio

  NEC Electronics Corporation

• YASUDA Makoto

  NEC Electronics Corporation

• SAKURAI Michio

  NEC Electronics Corporation

• HIROI Masayuki

  NEC Electronics Corporation

• OHNISHI Sadayuki

  NEC Electronics Corporation

• MINDA Hiroyasu

  NEC Electronics Corporation

• Yasuda Makoto

  Nec Electronics Corp. Kawasaki‐shi Jpn

• Oda Noriaki

  Ulsi Device Development Division Nec Corporation

• Kitahara Hiroshi

  Nec Electronics Corp. Kawasaki‐shi Jpn

関連論文

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• A Universal Equivalent Circuit Model for Ceramic Capacitors
• Layout-Aware Compact Model of MOSFET Characteristics Variations Induced by STI Stress
• 2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept
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• Extended-Range High-Resolution FMCW Reflectometry by Means of Electronically Frequency-Multiplied Sampling Signal Generated from Auxiliary Interferometer
• Accurate Modeling Method for Cu Interconnect
• Statistical Corner Conditions of Interconnect Delay (Corner LPE Specifications)
• A Robust Embedded Ladder-Oxide/Cu Multilevel Interconnect Technology for 0.13μm Complementary Metal Oxide Semiconductor Generation
• Chip-Level Performance Improvement Using Triple Damascene Wiring Design Concept for the 0.13μm CMOS Generation and Beyond(Novel Device Architectures and System Integration Technologies)
• Multilevel Aluminum Dual-Damascene Interconnects for Process-Step Reduction in 0.18 μm ULSIs
• Multilevel Aluminum Dual-Damascene Interconnects (Al-DDI) for Process-Step Reduction in 0.18um-ULSIs
• Dual Damascene Interconnect Technology for 130-nm-node Complementary Metal-Oxide-Semiconductor Devices Using Ladder-Oxide Film
• Chip-Level Performance Maximization Using ASIS (Application-Specific Interconnect Structure) Wiring Design Concept for 45nm CMOS Generation(Device,Low-Power, High-Speed LSIs and Related Technologies)
• Linear Time Calculation of On-Chip Power Distribution Network Capacitance Considering State-Dependence
• Key mechanisms for improved EM lifetime of CoWP capped Cu interconnects

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