CAD Automation

No matter how much fast and intuitive CAD systems get, users still have to perform the monotonous CAD translation and repair work. To get over this tedium, CAD automation is created that allows users to automate translation and repair procedures without even opening or viewing files graphically. Through CAD automation, thousands of files can be processed automatically, all at the same time. Given below are some of the many functionality of this overpowering CAD Automation, have a look:

Batch Translation and Restoration to Any Layout

The Batch Translation feature of CAD automation allows its users to translate a large number of files from the 3D format into any other desired format and that too within a fraction of hours. This advanced feature helps in avoiding unnecessary chaos of settings adjustments and file manipulations.

Automatically Programmed Translation and Repair to Multiple Formats

Automatic Translation helps in translating thousands of files into the desired formats chosen by its users. All one has to do is to place them in the right folder. Through Automatic translation, users can easily submit their work or receive the finished translation within a few minutes with the help of Trans Magic COMMAND. All their created work can be placed in any of their desired folders. Moreover, the generated data may also contain geometrical previews, visual demonstrations of geometry, XML creation of mass properties, PMI and many more.

Magic Batch and the COMMAND:

The Trans Magic and Magic Batch features of CAD automation are considered to be ideal for those discrete users who are involved in translating multiple files on a steady basis. Trans Magic COMMAND is an extraordinarily tailored and customized enterprise solution for automatic translation and repair; one COMMAND base can fulfil all the requirements of the design and engineering departments. The development of the COMMAND option had made the translation work swifter and had helped in overcoming the frustration tediousness involved with translation and repair.

All in all, the above features make it clear that the CAD automation has definitely made the translation work easier and faster. The customers can now get a chance to create a product they actually want to buy by providing them a visual, personalized, and an interactive overview of their product.

Five Steps from Engineer to Leadership

All the CEOs and top executives of world-famous companies like Facebook, Nissan, Boeing, Amazon, and Microsoft come from engineering backgrounds. This portrays that engineers have something special that makes them great leaders. Check-out these five steps that an engineer into a successful leader.

  1. Flaunt your Success: Getting positive feedback is a sign of success, which needs to be communicated to seniors so they can remember your efforts in the transform’s success.
  2. Share your goals and aspirations: Share your future expectations with your seniors so that they can help.
  3. Having 100% confidence: Dive in confidently into the attitude of a leader even before the role is attained; it will exhibit your leadership skills in front of everyone.
  4. Make Connections: Have a healthy relationship with colleagues; it promotes friendship and helps in career growth.
  5. Always be ready to take risks: Always experiment and take up new challenges; it will help you be a good leader.

8 of the Most Prevalent Engineering Occupations for 2020

The employability prospects of engineering graduates lie in next-gen tech skills such as information technology and automation. So, in this article we have listed a few engineering jobs that are most in-demand for 2020 and beyond.

Data Science and Machine Learning

Data science, on the one hand, involves creating useful information based on bulk data, commonly known as Big Data. While Machine learning, on the other hand, is a subdivision of data science which is used to forecast future events related to business and life.

Automation and Robotics Engineer

Robotics engineers are involved in the designing, development, analysis, and application of robotic systems. The automation sector is the best industry to find work as an automation and robotics engineer.

Petroleum Engineer

The petroleum engineer’s task is usually related to drilling methods, creating drilling equipment, and executing and observing the drilling plan for the extraction of crude oil.

Civil Engineer

Mostly their work is related to designing the infrastructure on which the world hinges. 

Electrical Engineering:

It is the conventional industry, yet it is the most demanding sector offering a variety of jobs.

Alternative Energy Engineer:

Alternative Energy engineering is related to solar energy technology, creating coal-fired power stations or generating energy from a clean or renewable resource.

Mining Engineer:

Mining Engineering is related to designing and planning procedures for handling and disposing of the mined resources to various processing plants.

Project Engineer:

A project engineer is concerned with managing technical projects and tasks related to designing, procuring, manufacturing, and delivering simple components to complex chemical treatment plants. 

In a nutshell, engineering offers a vivid field to work, and all you need is the right skill, which can help you get the right job. So keep upskilling and keep growing.

Engineers and Scientists Worldwide Rely on MATLAB & SIMULINK

Both engineers and scientists rely on MATLAB & SIMULINK to propel the speed of their research and discovery. The tool provides an excellent environment of programming that helps in the development of algorithms. Not only this, programmers rely on MATLAB & SIMULINK to enhance their productivity. So, let’s have a look at this trending tool and learn more about this sophisticated modelling and simulation software.

 MATLAB & SIMULINK Key Features:

Listed below are some of the amazing features of MATLAB and SIMULINK that makes it the most suitable modelling software. Have a look:

  • A Graphical editor is available to build and manage hierarchical block diagrams.
  • Libraries are available for predefined blocks for modelling continuous-time and discrete-time systems.
  • Simulation engine is present with fixed-step and variable-step ODE solvers.
  • Scopes and data displays can be used to view simulation results.
  • Project and data management tools for managing model files and data.
  • Model analysis tools for refining model architecture and increasing simulation speed.
  • MATLAB Function block for importing MATLAB algorithms into models.
  • Legacy Code Tool for importing C and C++ code into models.
  • Single snapshots can be taken to show the performance of the technology based on the model.
  •  In MATLAB & SIMULINK the workflow of the technology can be demonstrated using animation techniques.

Some Applications of MATLAB & SIMULINK

Some common application of MATLAB and SIMULINK:

  • Modelling of Automobile applications
  • Modelling of Aerospace applications
  • Modelling of Industrial Automation Application
  • Large scale modelling
  • Complex Logic building

Future scope

MATLAB & SIMULINK is evolving at a fast pace and the team behind this is making sure that a perfect product is there for all the aspiring engineers and scientists to solve their complex modelling problems using this. This technology has not only made solving complex problems. The future is advancing on big data technologies and data analytics increasing the demand for such modelling software to ensure quality outcomes.

Advanced surfacing in automotive design

Introduction:


Advanced surfacing design course uses CATIA Advanced Surface Design module (GSD workbench), and helps the users produce quality curves or improve imported wireframe. This course also educates the users about how to generate quality surfaces from the wireframe geometry and effortlessly associate the surfaces with developing a topology. This software also teaches how to examine the surface quality and resolve the imperfections, in addition to supervising surfaces in a multi-model environment.


Learnings covered under this course:

On completion of this course, the students will gain expertise in:
Operation of the GSD workbench
Creating good quality curves or improved imported wireframe
Creating a suitable quality surface based on sound wireframe geometry
Assembling, relimiting and effortlessly linking the surfaces to get a topology
Examine the surface quality and rectifying the discrepancies
Managing surfaces in a multimodal environment

Topics covered under this course:
Below mentioned are some of the major topics covered in Advanced surfacing in automotive design course:
1.Generative Shape Design
2.Wireframe Creation
3.Surface Creation
4.Surface Re-limitation and Connection
5.Surface Check Tools
6.Work in Multi-Model Environment with Surfaces
7.Master Project
8.Additional Exercises