Photomask Data Prioritization Based on VLSI Design Intent and Its Utilization for Mask Manufacturing
スポンサーリンク
概要
- 論文の詳細を見る
The increase in the time required for data processing, mask drawing, and inspection of photomask, has led to substantial increase in mask manufacturing cost. This has become one of the major challenges in the semiconductor industry. We have developed a data flow process for mask manufacturing in which we refer to design intent information in order to reduce TAT of mask manufacturing processes. We convert design level information “Design Intent (DI)” into priority information of mask manufacturing data known as “Mask Data Rank (MDR)” so that we can identify and sort out the importance of mask patterns from the view point of the design side. As a result, we can reduce mask writing time and mask inspection time. Our objective is to build efficient data flow conversion system from DI to MDR. In this paper we introduce the idea of MDR and the software system that we built for DI extraction. Then we show the experimental results with actual chip data. Lastly we will discuss related issues and their solutions.
- (社)電子情報通信学会の論文
- 2010-12-01
著者
-
NAKATAKE Shigetoshi
University of Kitakyushu
-
Yamabe Masaki
Aset
-
Inoue Tadao
Aset
-
Ishihara Sunao
The University Of Tokyo
-
KATO Kokoro
ASET
-
ENDO Masakazu
ASET
関連論文
- Fast Shape Optimization of Metalization Patterns for Power-MOSFET Based Driver
- A Finite Element-Domain Decomposition Coupled Resistance Extraction Method with Virtual Terminal Insertion
- Graphite Shell Film Formation Induced by Eduction Phenomenon of Ga Implanted by Focused Ion Beam
- Regularity-Oriented Analog Placement with Conditional Design Rules
- An Incremental Wiring Algorithm for VLSI Layout Design
- Photomask Data Prioritization Based on VLSI Design Intent and Its Utilization for Mask Manufacturing
- Non-Core–Shell Nanostructure Deposition on Focused-Ion-Beam Chemical Vapor Deposition
- Three-Dimensional Nanostructure Fabrication by Controlling Downward Growth on Focused-Ion-Beam Chemical Vapor Deposition
- Evaluation of Thermal–Mechanical Vibration Amplitude and Mechanical Properties of Carbon Nanopillars Using Scanning Electron Microscopy
- Height Dependence of Young's Modulus for Carbon Nanopillars Grown by Focused-Ion-Beam-Induced Chemical Vapor Deposition
- Analog Circuit Synthesis with Constraint Generation of Layout-Dependent Effects by Geometric Programming