Givantha Iddawela scite author profile

Givantha Iddawela

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4Publications

16Citation Statements Received

12Citation Statements Given

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Affiliations

GlobalFoundries (United States)

Publications

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Implementation of hybrid metrology at HVM fab for 20nm and beyond

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et al. 2013

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Metrology tools are increasingly challenged by the continuing decrease in the device dimensions, combined with complex disruptive materials and architectures. These demands are not being met appropriately by existing/forthcoming metrology techniques individually. Hybrid Metrology (HM) -the practice to combine measurements from multiple toolset types in order to enable or improve the measurement of one or more critical parameters -is being incorporated by the industry to resolve these challenges. Continuing our previous work we now take the HM from the lab into the fab. This paper presents the first-in-industry implementation of HM within a High Volume Manufacturing (HVM) environment. Advanced 3D applications are the first to use HM: 20nm Contact etch and 14nm FinFET poly etch. The concept and main components of this Phase-1 Host-based implementation are discussed. We show examples of communication protocols/standards that have been specially constructed for HM for sharing data between the metrology tools and fab host in GLOBALFOUNDRIES, as well as the HM recipe setup and HVM results. Finally we discuss our vision and phased progression/roadmap for Phase-2 HM implementation to fully reap the benefits of hybridization.

Hybrid metrology: from the lab into the fab

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et al. 2014

J. Micro/Nanolith. MEMS MOEMS

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The accelerated pace of the semiconductor industry in recent years is putting a strain on existing dimensional metrology equipment (such as critical dimension-secondary electron microscopy, atomic force microscopy, scatterometry) to keep up with ever-increasing metrology challenges. However, a revolution appears to be forming with the recent advent of hybrid metrology (HM). We highlight some of the challenges and lessons learned when setting up a standard HM solution and describe the first-in-industry implementation of HM within a high-volume manufacturing environment.

Improved scatterometry time-to-solution using virtual reference

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et al. 2015

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Hybrid enabled thin film metrology using XPS and optical

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et al. 2016

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Complexity of process steps integration and material systems for next-generation technology nodes is reaching unprecedented levels, the appetite for higher sampling rates is on the rise, while the process window continues to shrink. Current thickness metrology specifications reach as low as 0.1A for total error budget -breathing new life into an old paradigm with lower visibility for past few metrology nodes: accuracy. Furthermore, for advance nodes there is growing demand to measure film thickness and composition on devices/product instead of surrogate planar simpler pads. Here we extend our earlier work in Hybrid Metrology to the combination of X-Ray based reference technologies (high performance) with optical high volume manufacturing (HVM) workhorse metrology (high throughput). Our stated goal is: put more "eyes" on the wafer (higher sampling) and enable move to films on pattern structure (control what matters). Examples of 1X front-end applications are used to setup and validate the benefits.

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