Evaluating Chip-Level Impact of Cu/Low-<inline-formula> <tex-math notation='LaTeX'>$kappa $ </tex-math></inline-formula> Performance Degradation on Circuit Performance at Future Technology Nodes

Ceyhan Ahmet; Moongon Jung; Panth Shreepad; Sung Kyu Lim; Naeemi Azad

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Performance Degradation on Circuit Performance at Future Technology Nodes

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Evaluating Chip-Level Impact of Cu/Low- $kappa $ Performance Degradation on Circuit Performance at Future Technology Nodes

机译：评估Cu / Low- $ kappa $ 在未来技术节点上性能下降对电路性能的芯片级影响

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Dimensional scaling of interconnects at future technology generations presents major limitations to the improvement of the performances of integrated circuits. In this paper, we investigate the impact of highly scaled Cu/low-κ interconnects on the speed and power dissipation of multiple circuit blocks based on timing-closed full-chip Graphic Database System II (GDSII)-level layouts with detailed routing. First, we build multiple standard cell libraries for 45-, 22-, 11-, and 7-nm technology nodes and model their timing/power characteristics. Next, we pair these standard cell libraries with various interconnect files and build GDSII-level layouts for multiple benchmark circuits to study the sensitivity of the circuit performance and power dissipation to multiple interconnect technology parameters such as resistivity, barrier/liner thickness, and via resistance. We investigate the implications of slowing down interconnect dimensional scaling below 11-nm technology node.

机译：在未来的技术世代中，互连的尺寸缩放对集成电路性能的改善提出了主要限制。在本文中，我们基于时序封闭的全芯片图形数据库系统II（GDSII）级布局和详细布线，研究了大规模Cu /low-κ互连对多个电路块的速度和功耗的影响。首先，我们为45纳米，22纳米，11纳米和7纳米技术节点构建多个标准单元库，并对它们的时序/功率特性进行建模。接下来，我们将这些标准单元库与各种互连文件配对，并为多个基准电路构建GDSII级布局，以研究电路性能和功耗对多个互连技术参数（例如电阻率，势垒/衬里厚度和过孔电阻）的敏感性。我们研究了减慢11纳米技术节点以下的互连尺寸缩放的影响。

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来源
《Electron Devices, IEEE Transactions on》 |2015年第3期|940-946|共7页
作者
Ceyhan Ahmet; Moongon Jung; Panth Shreepad; Sung Kyu Lim; Naeemi Azad;
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作者单位

Microelectron. Res. Center, Georgia Inst. of Technol., Atlanta, GA, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
copper; electrical resistivity; integrated circuit interconnections; integrated circuit layout; vias; Cu; barrier-liner thickness; benchmark circuits; circuit performance; highly scaled copper-low-κ interconnects; integrated circuits; interconnect dimensional scaling; power dissipation; resistivity; timing-closed full-chip Graphic Database System II-level layouts; via resistance; Conductivity; Integrated circuit interconnections; Libraries; Power dissipation; Resistance; Routing; Wires; Back-end-of-the-line (BEOL) scaling; Cu/low- $kappa $ limitations; Cu/low-κ limitations; GDSII layouts; power/performance analysis; power/performance analysis.;

机译：铜;电阻率;集成电路互连;集成电路布局;通孔;铜;衬里厚度;基准电路;电路性能;高比例铜-低-κ互连;集成电路;互连尺寸缩放;功耗;电阻率;时序闭式全芯片图形数据库系统II级布局;通过电阻;电导率;集成电路互连;库;功耗;电阻;布线;电线;后端（BEOL）缩放;铜/低-kappa $限制;Cu /low-κ限制;GDSII布局;功率/性能分析;功率/性能分析。;

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Evaluating Chip-Level Impact of Cu/Low- $kappa $ Performance Degradation on Circuit Performance at Future Technology Nodes

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