Eligibility Criteria | B.Tech/M.Tech/Diploma |
Course Duration | 2 Months |
Certificate | Will be Provided |
AUTOCAD
AutoCAD is most widely used CAD software and is used in almost all the engineering fields. Draft, annotate and design 2d geometry and 3d models with automate floor plans, sections, and elevations. Design faster with industry-specific tool set.
Prerequisites
Prior experience on CAD is not a prerequisite. The course is designed to get you up & running with AutoCAD quickly by teaching you the things you need to know. You need to have basic computer knowledge.
Course Objectives
This course covers all fundamental skills necessary for effectively using AutoCAD and will provide a strong foundation for your career advancement. This course will teach you in detail how AutoCAD as a tool is used for drawing and designing.
Key Contents
Introduction to AutoCAD
Getting started with unit set up and understand AutoCAD interface.
Basic of 2D dimensional drawing and editing
Working using drawing tools
Quick working with modifier tools
Hatch editing in detail
Array edit in detail
Dimensioning technique
Table and table edit in detail
Layer property and layer management
Creating blocks and attributes
Properties of line – line color line weight, line type
Parametric constraints
Geometric constraints
X-Reference
Construction on drawing
Floor plan
Modeling tools and press pull
Solid editing with Boolean operation
3D – move, align, scale, mirror and rotate
3D – move, align, scale, mirror and rotate Meshing operation in detail
Sectional plane, understanding coordinates
Materials, creation of material
Altering material properties
Lighting and camera
Sun and exposure properties
Shadow and background sky
Rendering in AutoCAD Duration: 80 Hrs
3DS MAX DESIGN
Autodesk 3ds Max is a professional 3D computer graphics program for making 3D animations, models, games, and images. The tool provides comprehensive 3D modeling, rendering, animation, and composing solutions for different industries.
Prerequisites
Prior experience on CAD is not a prerequisite. The course is designed to get you up & running with 3ds Max quickly by teaching you the things you need to know. You need to have basic computer knowledge.
Course Objectives
This course covers all fundamental skills necessary for effectively using 3ds Max and will provide a strong foundation for your career advancement. This course will teach you in detail how 3ds Max is used for 3D modeling, rendering, and animation.
Key Contents
Introduction to Autodesk 3ds Max
Getting started with unit set up and understand 3ds Max interface.
Working using standard primitives
Working with extended primitives
Working with compound objects
Work with viewport layout and 3ds configuration.
Basic tools - Move, copy, scale
Snap align and mirror
Creating doors and windows
AEC extent, foliage, railing, and wall
Particle system and forces
Modifier in 3ds max
Basic modeling techniques
Creating Material and modification
Understanding UVW Coordinate and Mapping.
Basic understanding of animation Walkthrough
Editable poly, Spline modeling
Lighting and camera
Exposure control, sunlight
X- reference in 3ds max
Import and export option
Advanced rendering
REVIT MEP CIVIL
Revit MEP is part of Autodesk's BIM (Building Information Modeling) software portfolio and is designed for Architectural, Mechanical, Electrical, and plumbing engineers working either in isolation or as part of a BIM project.
Prerequisites
The training course introduces the fundamental skills in learning the Autodesk Revit MEP software. It is highly recommended for those having experience and knowledge in MEP engineering and its terminology.
Course Objectives
The primary objective of this course is to teach learners the concepts of building information modeling and introduce the tools for parametric engineering design and documentation using Revit MEP.
Key Contents
Introduction to Revit MEP
MEP Design
Work Sharing
Family Creation
Solid Modeling
Equipment
Light Fixture
Devices HVAC Design
Heating and Cooling Load Analysis
Logical System and Duct Work
Inspect System
Electrical Design
Lighting Analysis
Power and Communication Design
Plumbing Design
Fire Protection System
Schedules
STAAD PRO
STAAD. Pro (STAAD stands for Structural Analysis And Designing) is a 3D structural analysis and design software widely used to analyze and design structures for various applications.
Prerequisites
This course is most suited for civil and structural engineering students and professionals. Learners need to have a fair idea about materials being used in building construction.
Course Objectives
This course will introduce one to STAAD Pro's state-of-the-art user interface, prevailing analysis and design engines with sophisticated finite element (FEM), visualization tools, and dynamic analysis capabilities.
Key Contents
Introduction: Staad pro
Staad pro editor
Co-ordinate systems
Global & local co-ordinate systems
Creating a new project using Staad pro
For multiple member Add beam
Creating models using structure wiz
Member offset
Material specification
Group specification
Uniform fence & moment
Creating load combination
Creating load Envelop
Concentrated load
Generating surface meshing
Steel Design as per IS.800
Auto member generation
Overhead water tank Design Slab Design
One way slab
Two way slab Staircase design
ETABS
ETABS (Extended 3D analysis of Building Systems) is a widely used engineering software in construction, known for its highly efficient structure analysis and design programs developed for multi-story building systems.
Prerequisites
This course is most suited for civil engineers, architects, designers, engineering students, and professionals. Basic knowledge of CAD and fundamentals of structural engineering are a must for all looking for this program.
Course Objectives
ETABS certification course empowers learners to generate highly efficient and cost-effective design models. It is a design tool to make complex calculations related to building models easier for engineers, enhancing their skills and employability prospects in the construction industry.
Key Contents
Introduction
Plane frame modeling
Space frame modeling
Load Pattern and Definition
Analysis and Analysis Reports
Concrete Frame Design and Detailing
Shear Wall design
Steel connection design
Steel frame design
Steel joist design
Flat slab design
Waffle slab design
Seismic analysis
Detailing
Steel Design and Detailing
Composite Beam Design
Introduction to Dynamic Analysis
TRIMBLE SKETCHUP
SketchUp is the world's most popular and widely used 3D designing software, majorly used by architects, designers, builders, makers, and engineers in various industries.
Prerequisites
This course is designed for individuals who wish to pursue their career in the field of 3D modeling. SketchUp course will help professionals develop and create advanced 3D models using the tools and 3D warehouse associated with the program.
Course Objectives
Build your 3D modeling skills by mastering EduCADD's certification program in SketchUp. Gain a foundational understanding of the drawing and design tools, and learn how to make your 3D projects more polished and presentable.
Key Contents
Introduction to Trimble SketchUp
Understanding Interface
Navigation, Walking, Camera Views
Shading faces and edges
Shadow & fog, Creating Scene
Selecting & Moving, Scaling & Rotation
Drawing with Line, Line for 3D, Rectangle, Arcs
Push/Pull and offset, follow me tool
Tape measurement tool, dimension tool protector tool
Orbit, pan and zoom tools
Text, 3d text, softening round edge
Guides, Sections and walk
Entity info, sun and shadow
Fog Layer in SketchUp
Organizing with Grouping
Components Create Components
Window, Outliner, Hid/Unhide
Material editing, material import from external source, material rotate, scale, move etc.
Different types of styles available in SketchUp
Importing the 3d models from external source
V-RAY ESSENTIAL
VRay is well known for taking Architectural Visualization to new heights. It provides efficient and outstanding rendering speed, along with robust capabilities and physical accuracy in images.
Prerequisites
This course is ideal for professionals who work as Architects, Graphic Designers, Interior Designers, Game Developers, and students interested in learning more about rendering technology.
Course Objectives
The course curriculum covers topics like Installing and Setting up VRay, overview of color mapping, creating a mesh light, lighting in V-Ray, Global Illumination, and more.
Key Concepts
Getting Ready to Render with V-Ray
Installing and setting V-Ray Critical V-Ray Concepts
Image sampling explained
Key Lighting Tools
Lighting in V-Ray
Global Illumination
Understanding primary and secondary bounces
How irradiance mapping works
Using light cache
Introduction to V-Ray-specific materials
Quality Control with Image Sampling
How to use the Adaptive DMC sampler
The Physical Workflow
Working with VRaySun and VRaySky
Controlling the VRayPhysicalCamera
V-Ray's Effects Tools
Generating caustic effects and V-rayfur
3D rendering
Using Render Elements
Post-lighting a scene
Batch rendering
Revit to 3ds max to vray
BIM 360
Building Information Modeling (BIM) is an intelligent 3D model-based process that provides AEC professionals with insight and tools to efficiently plan, design, construct, and manage buildings and infrastructure.
Prerequisites
Professionals with experience in managing projects within the built environment, including quantity surveyors, project managers, building surveyors, asset managers, facilities managers, architects and engineers, cost engineers, BOM manager, BIM coordinator, and construction project managers, are most suited for this program.
Course Objectives
EduCADD's certificate program in BIM covers the entire BIM process by following a simulated BIM project through its lifecycle. Learners will be guided through each of the major project stages from strategic definition of the project right through to handover, operations, and end of use.
Key Contents
BIM Introduction
BIM: New tools and new processes
BIM design tools and parametric modeling
Lightweight modeling applications
Interoperability
The evolution from file-based exchange to building
BIM for owners and facility managers
Barriers to implementing BIM
Risks and common myths
BIM for architects and engineers
Building object models and libraries
BIM for contractors
Quantity takeoff and cost estimating
BIM for subcontractors and fabricators
Adopting BIM in a fabrication operation
The future: building with BIM
MX ROAD
MX Road is an excellent string-based modeling tool that enables the rapid and accurate design of all types of roads. Individuals such as civil engineers, designers, surveyors, and system designers can access 3D modeling, construction driven engineering, and other analysis all in one engineering application.
Prerequisites
Civil engineers who wish to learn Road Design and Analysis Software, and the use of MXROAD for an interactive 3D modeling of roadways.
Course Objectives
This course aims to help you excel various features of the software, such as interoperable database creation and annotation of 3D project models, digital terrain model creation and integration with Google Earth, design of 2D and 3D drainage, visualization of information-rich model with mapping, building horizontal and vertical alignments, automation of production of contract drawings, design of storm drainage, water, and sewer systems, pavement and subgrade design, and road and junction design.
Key Contents
Basic Concepts and Starting a New Project
Input Survey Data and View Model Data
CAD Environment and Toolbars
Tool tips and Status Tools
Surface Checker and Editing Tools Surface Analysis
Housekeeping
String Naming Convention Quick Horizontal Alignment
Quick Vertical Alignment
Carriageway Design
Rule-Based Superelevation
Cross Fall Checker
Design of Second Road
Road Widening
Dynamic Reports
Junction Design
Kerbs, Footways, and Verges
Working with Project
Quantity Take Off
Quantity take-offs (QTO) are detailed measurements of materials and labor needed to complete a construction project. They are developed by an estimator during the pre-construction phase. This process includes breaking the project down into smaller and more manageable units that are easier to measure or estimate. The level of detail required for measurement may vary. Estimation and costing are essential parts of building construction, and accurately forecasting the cost of projects is a very important skill in demand today. Technology has changed the quantity takeoff method, and today advanced processes like BIM have raised the technology bar with more complicated systems, which have significantly increased estimation accuracy.
Prerequisites
Estimation and costing are essential parts of building construction, and accurately forecasting the cost of future projects is an important skill for civil engineers and cost estimators. This course is designed for individuals who wish to pursue their career in their field, Cost estimation. Skilled QTO professionals are in high demand in the construction industry. This course is most suited for civil engineers.
Course Objectives
EduCADD's Quantity take off course will train learners on creating synchronized, comprehensive project views that merge significant information from building information modeling (BIM) tools such as Revit® Architecture, Revit® Structure, and Revit® MEP software along with geometries, images, and data from other tools. The course also teaches how to calculate areas and count building components automatically or manually and exporting to Microsoft Excel, and publishing to DWF™ format.
Key Contents
Getting Started with Quantity Takeoff (QTO)
QTO Interface Part 2
Understanding 2D Takeoff
Completing a 2D Takeoff
Takeoff Palette Explored
Understanding the Workbook
Reporting and Exporting
Exporting 3D to DW
Basic 3D Model Takeoff
Using the Model Tab
2D/3D Takeoff Workflow
Catalogs
Cost Data within QTO
Item Assignment
Bookmarks in QTO
Advanced QTO of Enumerated Data Type
Revit Structure
Revit Structure is Autodesk's BIM software solution for structural engineers, providing a feature-rich toolset to drive efficient design processes in a BIM environment or when working with other construction disciplines using CAD Software. With Revit Structure, you can create detailed 3D models for concrete RCC, steel, and wooden structures, providing in-depth information regarding structural foundations, beams, columns, pillars, etc.
Prerequisites
Candidates with good knowledge in AutoCAD and exposure to construction sites. This course is designed to get you up & running with Revit Structure by teaching you the things you need to know as a structural engineer.
Course Objectives
After completion of this course, learners and professionals can apply for job roles such as structural draftsmen, structural detailers, and structural modelers. This course involves creating a 3D structural model using hands-on exercises to represent real-world situations for structural design projects. Learning Revit Structure helps structural engineers develop a physical and analytical model of a building structure, utilized to create construction documentation, shop drawings, and fabrication drawings.
Key Contents
Introduction to Autodesk Revit Structure
Basic Concepts and Principles
Building Information Modeling & Revit Structure
Getting Started with a Structural Project
Snaps Tool, Opening, Saving and Closing a Project
Options Dialog Box Setting up a Structural Project Using Levels, Using Grids
Working with Reference Planes
Structural Columns, Walls, Foundations
Beams, Floors, and Open Web Joists
Rotating, Mirroring, and Arraying
Additional Editing Tools, Creating Groups
Documenting Models and Creating Families
Standard Views, Details, and Schedules
3D Views, Sheets, Analysis
Reinforcements and Massing
Creating Building Elements from Massing geometry
REVIT ARCHITECTURE
Revit, a very popular product from Autodesk, is a design software used by architects, engineers, and interior designers to draw, map, and create construction documents and rendered images and also collaborate with other design teams. Architects use Revit to design homes, commercial buildings, landscapes, and Interior designers use it to design 3D layouts that include both geometric and non-geometric information. Civil and mechanical engineers also use Revit to design bridges, roads, tunnels, and other structures with specific instructions. The advantage of creating a building design model with Revit Architecture is that each design model can be stored in a single database file in a digital format.
Prerequisites
Revit Architecture training course is suitable for architects, civil/Arch engineering students & professionals, interior designers and AutoCAD draftsmen pursuing Revit BIM jobs. Working knowledge of architectural design, drafting, and other engineering experience is recommended.
Course Objectives
Revit Architecture course empowers you with the powerful features of Revit. The course aims to make participants more productive by giving them the ability to produce drawings and redefine images of buildings and help navigate the user interface, architectural objects such as floor, walls, roofs, windows, and stairs. This course will assist in the creation of schematic designs through construction documentation. After completing this course, students and professionals can work with BIM technology and look for designations such as Revit technicians (Architecture) or Revit BIM modelers and Interior BIM professionals.
Key Concepts
Introduction to Revit Architecture
Building Information Modeling
Starting a Project
Project Settings
Modeling Basics
Wall, Door, Components, Windows, Roof
Floor and Slab
Railing, Ramp, Stair
Stair Linking Revit and CAD File
Import CAD / Decal
Modeling Basics Room Areas and Openings
Annotation Details
Dimensions / Detail
Floor and Slab Building Information Modeling View and Sheet Composition
Walkthrough and Render
Massing & Site
The Basics of Family
Annotation Details Extrusion, Blend, Revolve
Sweep and Blend Sweep
Additive Manufacturing
3D printing is the process by which the object is created to a 3D shaped object with a digital file. 3D printing is used in both rapid prototyping and additive manufacturing. 3D Printing has the potential to revolutionize the way we create physical objects. The technology is making headway into a number of industries and is the future of prototyping. EduCADD envisions this technology to be at the core of school and higher education and an enabler of innovation. The evolution of 3D printing has seen a rapid growth in the number of companies adopting the technology. The applications and use vary across industries, but broadly include tooling aids. Today 3D printing is widely used in aerospace, Automotive, Medical and Dental, Consumer goods, Industrial goods and the list is growing day by day.
Prerequisites
This course is suitable for beginners with good knowledge of CAD/CAM and for aspiring professionals with little or no experience. Also, it is highly recommended for anyone who has a passion for a career in designing or production. Knowledge of architectural design, drafting, and other engineering experience is recommended.
Course Objectives
The objective of this course is to make learners understand Additive Manufacturing/3D Printing Technology, Trends, Applications, Opportunities & Design tools used for this breakthrough technology. The course covers the process of Additive Manufacturing (AM) and its applications, Learning & Practising on designing Tools and understanding the basic and advanced settings. You also learn about design Thinking and understanding the importance of Design Thinking in Prototyping. The program covers a hands-on project with a 3D printer, its settings, operations, installation, and basic troubleshooting. By the end of the course, the learner will have a good understanding of the process of prototyping from design to printing.
Key Concepts
Introduction of 3D
Evolution of 3D
About Additive Manufacturing
CAD File formats for 3D print
Stereo lithography files
Various Printing technologies (SLA, SLS, FDM, Polyjet printing, color jet printing, SHS, SLM, LOM, Mul jet Printing, DLP)
FDM in detail
Preparation of print-ready file using Plasto 200
Operating Plasto 200- Live Demonstration
STL principle
Object Placement
Print settings
Material properties
Manual Controls
Supports
Project
Microsoft Project with PPM Concepts
Project Planning & Management comprises various courses, which includes industry-specific Management software that are used by Civil, Mechanical Engineers or Architects for accomplishing preliminary tasks like initiating, planning, executing, monitoring, controlling and completing the projects within the estimates of schedule, budget, and resources. Project Planning and Management (PPM) is a common management course for all engineering, management, or information technology fields.
Prerequisites
The ideal audience for this course includes Structural and Project Engineers. Higher-level, more hands-off positions such as project management provide engineers with the opportunity to continue working directly on engineering projects while gaining new skills and, most importantly, offering you the chance to move up in your field.
Course Objectives
Learn how to prioritize, plan, manage, and execute projects, programs, and portfolios, including how to manage capital projects and facilities. Offers courses in various combinations and as a stand-alone basis for different software in Project Planning & Management. These courses make a clear picture of the industry-standard concepts of project management and also provide hands-on experience in handling powerful project management tools.
Key Concepts
Project Management Framework
Organization Structure & Project Lifecycle
Project Initiation
Project Planning - 1
Project Planning - 2
Project Execution
Monitoring And Controlling Process Group
Control Risk
Control Procurement
Control Stakeholders Engagement
Closing Process Group
PLC layout
Introduction Calendar
Task And Its Relationship
Work Breakdown Structure
Constraints & Recurring Task
Define And Assign Resources
Resource Analysis & Leveling
Tracking
Earned Value Analysis
Filters & Groups
Multiple Projects
Customization & Formatting Reports
Oracle Primavera
Project Planning & Management comprises various courses which include industry-specific Management software used by Civil, Mechanical Engineers or Architects for accomplishing preliminary tasks like initiating, planning, executing, monitoring & controlling, and completing projects within the estimates of schedule, budget, and resources. Project Planning and Management (PPM) is a common management course for all engineering, management, or information technology fields.
Prerequisites
The ideal audience for this course includes Structural and Project Engineers. Higher-level, more hands-off positions such as project management provide engineers with the opportunity to continue working directly on engineering projects while gaining new skills and, most importantly, offering you the chance to move up in your field.
Course Objectives
Learn how to prioritize, plan, manage, and execute projects, programs, and portfolios, including how to manage capital projects and facilities. Offers courses in various combinations and as a standalone basis for different software in Project Planning & Management. These courses make a clear picture of the industry standard concepts of project management and also provide hands-on experience in handling powerful project management tools.
Key Concepts
Introduction to Primavera®
Creating EPS and OBS
Work Breakdown Structure
Budgeting
Adding Activities
Relationship
Resource and Roles
Assigning Resource and Leveling
Baseline
Scheduling
Thresholds, Issues, Risk
Report Setup
Creating Project Website
Export and Import
Lumion
Lumion is not your typical architectural visualization software. It’s different. The moment you turn on Lumion and import your 3D model, you’ll feel like you’ve entered a delightful, easy-to-control world. Easily add context, detail, and atmosphere to your project and enjoy a simpler workflow. With Lumion, you can turn any design into an experience others can see and feel.
Prerequisites
Lumion Pro. There’s no limit to how you can show your exterior, interior, landscape, or urban designs. In just a few simple clicks, you can visualize at any scale, convey your unique design style, and add breathtaking atmosphere to every project. No matter your experience with rendering, you can achieve incredible results, incredibly fast.
Course Objectives
In this course, you will learn how to start Lumion projects, add environment, add cameras, set global and direct illuminations, populate your scenes with people, trees, cars, and other elements, create terrains, and produce animations.
Key Concepts
Introduction
Creating A Project
Creating A Residential Project
Creating Mountains and Adjusting Terrain Heights
Adjusting Elevation
Creating Lakes and Rivers
Assigning Exterior Materials to A Residence
Adding People To A Residential Scene
Adding Trees And Buildings to the Site Creating
Realistic Grass
Adjusting The Sun and Clouds-Adding Depth
Placing Interior Objects
Changing Interior Finishers
Creating Fire
Adding Fog and Rain Effects
Creating A Solar Study
Creating a Movie with A Logo Or text Advanced
Professional in Civil CADD
This Course is a combination of the 2 most commonly used in Civil and Architectural industries like 3ds max, Revit Architecture, MEP, Staadpro, Etabs, Sketchup, Vray, Bim, Quality Takeoff, Project management & AutoCAD, which have the tools to make any kind of professional designs in 2D and 3D and representations of construction and various building functions. Software's have the ability to design, measure, analyze and visualize in a real-me working environment so that you can create the best architectural designs for commercial and residential projects, helps a lot in getting a job in construction industries, interior, exterior designing.
This Course is an integrated set of professional-grade applications designed for Civil and architectural Engineering students, comprehensive bundle of CAD tools/software involving advanced features which includes 2 courses with 160+ hours of classroom training and Lifetime Support.
You get Industry-recognized certificates for each course with a unique verifiable link. These links can be included in your resume/Linkedin profile to showcase your design skills.
Prerequisites
This course is most suited for Civil/Architectural engineers, designing working professionals, or students pursuing a career in Architectural/Civil or interior architecture and anyone looking for a career in Design & Construction industries
Course Objectives
Students who are interested in learning designing skills mentioned in the curriculum can start the Design Course for Civil and Architectural industries to upskill and understand professional designing. By learning this course, professionals add value to their work and increase job opportunities in the Civil and Construction industry.
Get a 1-on-1 demo to understand what is included in the course and how it can benefit you from our counselor. The demo session will help you to understand the different skills you will learn and employability options available to a student upon completion of this training program, which will help you to enroll in this course with a clear vision and confidence.
Master in Civil CADD
The course coverage is a comprehensive bundle of CAD tools/software involving advanced features which includes 3 or more courses of intensive classroom training exceeding 280 hours and Lifetime Support. Upon completion of the course, students will gain expertise in their fields and take responsibility for delivering entire civil projects. National Skill Development Corporation This Expert level course equips students with an entire spectrum of CAD skills using multiple CAD software, cutting across a wide range of popular CAD product suites. Students are trained to meet the immediate job requirements involved in various building and construction functions. Students of MCADD are trained to work on Architectural designs for commercial and residential layouts. The same designs can be used for piping, HVAC Ducts and electrical channels within the models. You get Industry Recognized certificates for each course with a unique verifiable link. These links can be included in your resume/Linkedin profile to showcase your design skills.
Prerequisites
This course is most suited for Civil/Architectural engineers, designing working professionals, or students pursuing a career in Architectural/Civil or interior architecture and anyone looking for a career in Design & Construction industries
Course Objectives
Students who are interested in learning designing skills mentioned in the curriculum can start the Design Course for Civil and Architectural industries to upskill and understand professional designing. By learning this course, professionals add value to their work and increase job opportunities in the Civil and Construction industry.
Get a 1-on-1 demo to understand what is included in the course and how it can benefit you from our counselor. The demo session will help you to understand the different skills you will learn and employability options available to a student upon completion of this training program, which will help you to enroll in this course with a clear vision and confidence.