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그래픽 사용자 인터페이스로 구현한 병렬 프로그래밍 환경
유정목,이동희,이만호,Yoo, Jeong-Mok,Lee, Dong-Hee,Lee, Mann-Ho 한국정보처리학회 2000 정보처리논문지 Vol.7 No.8
This paper describes a parallel programming environment to help programmers to write parallel programs. The parallel programming environment does lexical analysis and syntax analysis like front-end part of common compilers, data flow analysis and data dependence analysis for variables used in programs, and various program transformation methods for parallel programming. Especially, graphic user interface is provided for programmer to get parallel programs easily. 본 논문에서는 사용자의 병렬 프로그램 작성을 도와주는 병렬 프로그래밍 환경에 대해 기술한다. 병렬 프로그래밍 환경은 일반적인 컴파일러의 기능의 전위 부분에 해당하는 어휘분석과 구문분석 기능 수행하고 있으며, 프로그램에서 이용하는 변수들의 데이터 흐름 분석과 데이터 종속성 분석, 그리고, 여러 가지 병렬 프로그램 변환 기법들을 수행한다. 특히 프로그래머가 병렬 프로그램을 용이하게 작성할 수 있도록 그래픽 사용자 인터페이스를 제공한다.
Direct photo-patterning on anthracene containing polymer for guiding stem cell adhesion
유정목,허준석,김현옥,김은경 한국생체재료학회 2016 생체재료학회지 Vol.20 No.3
Background: Various micropatterned surfaces capable of guiding the selective adhesion of biomolecules such as proteins and cells are of great interests in biosensor, diagnostics, drug screening, and tissue engineering. In this study, we described a simple photo-patterning method to prepare micro-patterned films for stem cell patterning using anthracene containing polymers (PMAn). This micro patterned polymer film was prepared by the facile photo-reaction of anthracene units in polymer backbone structure. Results: The UV irradiation of PMAn through a photomask resulted in the quenching of fluorescent intensity as well as the changes in surface wettability from hydrophobic to hydrophilic surface. As a result, UV exposed regions of PMAn film show lower fluorescent intensity as well as higher proliferation rate of mesenchymal stem cells (MSCs) than unexposed region of PMAn film. Furthermore, the selective MSC attachment was clearly observed in the UV exposed regions of PMAn film. Conclusion: We developed a simple cell patterning method with a fluorescent, biocompatible, and patternable polymer film containing anthracene units. This method provides a facile stem cell patterning method and could be extended to various patterning of biomaterials without labor-intensive preparation and no pre-treatment for complex interactions of cell-microenvironment.