Implementation of an Automated Interlocking Mechanism with Digital Logic Interface Utilizing VERILOG

The future of labor market depends upon several factors, long-term innovation and the demographic developments. However, one of the main drivers of technological change in the future is digitalization and central to this development is the production and use of digital logic circuits and its derived technologies, including the computer,the smart phone and the Internet. Especially, smart automation will perhaps not cause e.g.regarding industries, occupations, skills, tasks and duties

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Combine Micro-Probing and OBIRCH to Catch Non-Recognizable Fault in RF and Mixed-Mode Integrated Circuits

ISTFA 2007: Conference Proceedings from the 33rd International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2007p0327 ◽

2007 ◽

Author(s):

Cha-Ming Shen ◽

Yen-Long Chang ◽

Lian-Fon Wen ◽

Tan-Chen Chuang ◽

Shi-Chen Lin ◽

...

Keyword(s):

Integrated Circuits ◽

Radio Frequency ◽

Failure Analysis ◽

Case Studies ◽

Mixed Mode ◽

Failure Mechanisms ◽

Deep Submicron ◽

Digital Logic ◽

Successful Approach ◽

Cmos Processes

Abstract Highly-integrated radio frequency and mixed-mode devices that are manufactured in deep-submicron or more advanced CMOS processes are becoming more complex to analyze. The increased complexity presents us with many eccentric failure mechanisms that are uniquely different from traditional failure mechanisms found during failure analysis on digital logic applications. This paper presents a novel methodology to overcome the difficulties and discusses two case studies which demonstrate the application of the methodology. Through the case studies, the methodology was proven to be a successful approach. It is also proved how this methodology would work for such non-recognizable failures.

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Pulse width modulator based on digital logic elements

LastMile ◽

10.22184/2070-8963.2017.62.1.68.75 ◽

2017 ◽

pp. 68-75

Author(s):

V. Goryachev ◽

A. Chuprin

Keyword(s):

Pulse Width ◽

Digital Logic ◽

Pulse Width Modulator

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Digital Logic Design Laboratory using Autodesk Tinkercad and Google Classroom

2020 14th International Conference on Telecommunication Systems, Services, and Applications (TSSA ◽

10.1109/tssa51342.2020.9310842 ◽

2020 ◽

Author(s):

Wervyan Shalannanda

Keyword(s):

Digital Logic ◽

Logic Design

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Digital logic gates in soft, conductive mechanical metamaterials

Nature Communications ◽

10.1038/s41467-021-21920-y ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Charles El Helou ◽

Philip R. Buskohl ◽

Christopher E. Tabor ◽

Ryan L. Harne

Keyword(s):

Integrated Circuits ◽

Electronic Materials ◽

Polymer Networks ◽

Conductive Polymer ◽

Network Connectivity ◽

Logic Gates ◽

Boolean Logic ◽

Digital Logic ◽

Mechanical Metamaterials ◽

Logic Operations

AbstractIntegrated circuits utilize networked logic gates to compute Boolean logic operations that are the foundation of modern computation and electronics. With the emergence of flexible electronic materials and devices, an opportunity exists to formulate digital logic from compliant, conductive materials. Here, we introduce a general method of leveraging cellular, mechanical metamaterials composed of conductive polymers to realize all digital logic gates and gate assemblies. We establish a method for applying conductive polymer networks to metamaterial constituents and correlate mechanical buckling modes with network connectivity. With this foundation, each of the conventional logic gates is realized in an equivalent mechanical metamaterial, leading to soft, conductive matter that thinks about applied mechanical stress. These findings may advance the growing fields of soft robotics and smart mechanical matter, and may be leveraged across length scales and physics.

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