• Title/Summary/Keyword: representation of c*-algebra

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Trends of Compiler Development for AI Processor (인공지능 프로세서 컴파일러 개발 동향)

  • Kim, J.K.;Kim, H.J.;Cho, Y.C.P.;Kim, H.M.;Lyuh, C.G.;Han, J.;Kwon, Y.
    • Electronics and Telecommunications Trends
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    • v.36 no.2
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    • pp.32-42
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    • 2021
  • The rapid growth of deep-learning applications has invoked the R&D of artificial intelligence (AI) processors. A dedicated software framework such as a compiler and runtime APIs is required to achieve maximum processor performance. There are various compilers and frameworks for AI training and inference. In this study, we present the features and characteristics of AI compilers, training frameworks, and inference engines. In addition, we focus on the internals of compiler frameworks, which are based on either basic linear algebra subprograms or intermediate representation. For an in-depth insight, we present the compiler infrastructure, internal components, and operation flow of ETRI's "AI-Ware." The software framework's significant role is evidenced from the optimized neural processing unit code produced by the compiler after various optimization passes, such as scheduling, architecture-considering optimization, schedule selection, and power optimization. We conclude the study with thoughts about the future of state-of-the-art AI compilers.

Root Test for Plane Polynomial Pythagorean Hodograph Curves and It's Application (평면 다항식 PH 곡선에 대한 근을 이용한 판정법과 그 응용)

  • Kim, Gwang Il
    • Journal of the Korea Computer Graphics Society
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    • v.6 no.1
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    • pp.37-50
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    • 2000
  • Using the complex formulation of plane curves which R. T. Farouki introduced, we can identify any plane polynomial curve with only a polynomial with complex coefficients. In this paper, using the well-known fundamental theorem of algebra, we completely factorize the polynomial over the complex number field C and from the completely factorized form of the polynomial, we find a new necessary and sufficient condition for a plane polynomial curve to be a Pythagorean-hodograph curve, obseving the set of all roots of the complex polynomial corresponding to the plane polynomial curve. Applying this method to space polynomial curves in the three dimensional Minkowski space $R^{2,1}$, we also find the necessary and sufficient condition for a polynomial curve in $R^{2,1}$ to be a PH curve in a new finer form and characterize all possible curves completely.

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