Abstract: This paper investigates an overall performance of virtualization schemes for a distributed combat system. The analyzed results can be used to enhance design approach for a naval combat system virtualization environment. An integrated ship computing environment for distributed combat systems needs a seamless operation environment. In such a case, hardware resource is constructed considering over load when naval combat system is constituted. Virtualization environment construction is tried for solving problems such as assets overinvestments, etc. However, previous researches focus on virtualization structure research, without what is a suitable virtualization scheme for naval combat systems. Therefore, this paper evaluates available functions and performance through message transmission in a Data Distributed Service (DDS) environment. Experimental results show that performance of each virtualization scheme messages response time.

• Publication Date: 26-Feb-2017
• DOI: 10.15224/978-1-63248-117-7-53
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Abstract: Double Gate FinFET devices are suitable for nano electronic circuits due to better scalability, higher on-current (Ion), improved Sub-threshold Slope (SS) and undoped body (no random dopant fluctuation). Body thickness (TSi) increases the gate control over the channel resulting in reduced short channel effects (SCEs). Thin Tsi increases the quantum confinement of charge, resulting increased threshold-voltage (Vth), and hence, reduced performance. In this work, we have varied the process parameters like channel length (Lg) in presence of noise and analyzed various parameters. Significant variation in the noise spectral density has been observed, which is related to the random occurrence of excess Lorentzian components (1/f2-like nature) associated with generation–recombination (GR) noise.

• Publication Date: 26-Feb-2017
• DOI: 10.15224/978-1-63248-117-7-54
• Views: 0
• Downloads: 0