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The Ultimate Guide to AutoCAD vs AutoCAD Architecture

The Ultimate Guide to AutoCAD vs AutoCAD Architecture Toolset for architects and building designers. AutoCAD Architecture vs Revit

The Ultimate Guide to AutoCAD vs AutoCAD Architecture

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AutoCAD and AutoCAD Architecture are both powerful CAD software programs that can be used for a variety of purposes, including architectural design, engineering, and manufacturing. However, there are some key differences between the two programs that can make one a better choice for your specific needs.

In this blog post, we will compare AutoCAD and AutoCAD Architecture in terms of their features, capabilities, and pricing. We will also discuss the factors you should consider when choosing between the two programs.

What is AutoCAD?

AutoCAD is a general-purpose CAD software program that can be used for a variety of purposes, including architectural, mechanical, and electrical design. It offers a wide range of features and tools, making it a versatile option for many different industries.

Some of the key features of AutoCAD include:

  • 2D and 3D drafting
  • Dimensioning
  • Annotation
  • Rendering
  • Sheet metal design
  • Manufacturing
  • Import and export of CAD files

AutoCAD Architecture vs AutoCAD

AutoCAD is a general-purpose CAD software program that can be used to create 2D and 3D drawings. It includes a wide range of features for drafting, editing, and annotating drawings. AutoCAD also supports a variety of file formats, making it easy to share your drawings with others.

AutoCAD Architecture is a specialized CAD software program that is designed for architectural design. It includes a number of features that are specifically designed for creating architectural drawings, such as intelligent walls, doors, and windows. AutoCAD Architecture also includes a library of pre-built architectural objects, which can save you time and effort when creating your drawings.

AutoCAD architecture vs AutoCAD

Both AutoCAD and AutoCAD Architecture are capable of creating high-quality drawings. However, AutoCAD Architecture has a number of features that make it specifically suited for architectural design. These features include:

  • Intelligent objects: AutoCAD Architecture objects are intelligent, which means that they can be manipulated as a whole rather than as individual lines and curves. This makes it easier to create accurate and realistic drawings.
  • Architectural features: AutoCAD Architecture includes a library of pre-built architectural objects, such as walls, doors, and windows. This can save you time and effort when creating your drawings.
  • Parametric modeling: AutoCAD Architecture supports parametric modeling, which allows you to create objects that can be modified by changing their parameters. This can be useful for creating complex architectural objects.

With AEC3DPRINT command, you can natively export the AEC objects to an STL file format that's compatible with 3D printing without converting to 3D solids.

AutoCAD Architecture vs AutoCAD vs AutoCAD LT 

FeatureAutoCAD ArchitectureAutoCADAutoCAD LT
Intelligent objectsYesNoNo
Architectural featuresYesNoNo
Parametric modelingYesNoNo
2D drafting toolsYesYesYes
3D modeling toolsYesYesNo
Annotation toolsYesYesYes
Rendering toolsYesYesNo
SchedulesYesNoNo
Documentation toolsYesYesNo
Standards complianceYesNoNo
Collaboration toolsYesYesNo
Cloud integrationYesYesNo

AutoCAD Architecture has a number of unique commands that are specifically designed for architectural design. These commands include:

  • AECWALL: This command creates a wall object. Wall objects are intelligent, which means that they can be manipulated as a whole rather than as individual lines and curves. This makes it easier to create accurate and realistic walls.
  • AECDOOR: This command creates a door object. Door objects are also intelligent, and they can be customized to fit your specific needs.
  • AECWINDOW: This command creates a window object. Window objects are also intelligent, and they can be customized to fit your specific needs.
  • AECROOF: This command creates a roof object. Roof objects are also intelligent, and they can be customized to fit your specific needs.
  • AECSCHEDULE: This command creates a schedule. Schedules can be used to track the quantities of materials, labor, and equipment used in a project.
  • AECDOCUMENT: This command creates a document. Documents can be used to create drawings, reports, and presentations.
  • AECSTANDARDS: This command ensures that your drawings comply with industry standards.
  • AECCOLLABORATE: This command allows you to collaborate with other users on projects.
  • AECCLOUD: This command allows you to access your drawings and projects from anywhere.

In addition to these unique commands, AutoCAD Architecture also includes a number of other features that are specifically designed for architectural design. These features include:

  • A library of pre-built architectural objects
  • A number of parametric tools
  • A number of tools for creating and managing schedules
  • A number of tools for creating and managing documentation
  • A number of tools for ensuring that your drawings comply with industry standards
  • A number of tools for collaborating with other users on projects
  • Integration with the Autodesk cloud

Tailored Functionality

Organisations can customise AutoCAD for their industries, empowering teams to build and run discipline-specific routines and workflows.

Download the Study here to learn how you can save over 60% in productivity using AutoCAD with Specialised Toolsets.

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AutoCAD Mechanical vs AutoCAD: A Comparison for Mechanical Engineers

AutoCAD Mechanical vs AutoCAD. AutoCAD and AutoCAD Mechanical are both powerful CAD software programs, but they have different strengths and weaknesses. AutoCAD Mechanical is better for mechanical engineering design, while AutoCAD is a more versatile option for general engineering and design.

AutoCAD Mechanical vs AutoCAD: A Comparison for Mechanical Engineers

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AutoCAD and AutoCAD Mechanical are both powerful CAD software programs that can be used for a variety of purposes. However, there are some key differences between the two programs that may make one a better fit for your needs than the other.

In this blog post, we will compare AutoCAD and AutoCAD Mechanical in detail. We will discuss the features, interface, pricing, and best uses of each program. By the end of this post, you will be able to decide which CAD software is right for you.

What is AutoCAD?

AutoCAD is a general-purpose CAD software program that can be used for a variety of purposes, including architectural, mechanical, and electrical design. It offers a wide range of features and tools, making it a versatile option for many different industries.

Some of the key features of AutoCAD include:

  • 2D and 3D drafting
  • Dimensioning
  • Annotation
  • Rendering
  • Sheet metal design
  • Manufacturing
  • Import and export of CAD files

What is AutoCAD Mechanical?

AutoCAD Mechanical is a specialised CAD software program that is specifically designed for mechanical engineering design. It includes a number of features and tools that are specifically useful for mechanical engineers, such as tools for creating and dimensioning parts, as well as tools for generating bills of materials.

Some of the key features of AutoCAD Mechanical include:

  • A library of standard parts and components
  • Tools for creating and dimensioning parts
  • Tools for generating bills of materials
  • Tools for 3D printing
  • Tools for analysis and simulation

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Differences Between AutoCAD Mechanical vs AutoCAD 

There are a number of key differences between AutoCAD and AutoCAD Mechanical. These differences include:

  • Features: AutoCAD Mechanical includes a number of features and tools that are specifically useful for mechanical engineers, such as tools for creating and dimensioning parts, as well as tools for generating bills of materials. AutoCAD does not include these specialized features for mechanical engineering design.
  • Interface: AutoCAD Mechanical has a more specialized interface that is designed to be more intuitive for mechanical engineers. AutoCAD has a more general-purpose interface that is designed to be more accessible to users from a variety of engineering disciplines.
  • Pricing: AutoCAD Mechanical is typically more expensive than AutoCAD.
  • Best uses: AutoCAD is a good choice for general engineering and design projects. AutoCAD Mechanical is a good choice for mechanical engineering design projects.
 

AutoCAD LT vs AutoCAD Mechanical

AutoCAD LT and AutoCAD Mechanical are both CAD software programs that can be used for drafting, designing, and documenting. However, there are some key differences between the two programs.

AutoCAD LT is a 2D drafting and design software program that is designed for general engineering and drafting purposes. It includes a wide range of features and tools for creating and editing 2D drawings, as well as for dimensioning, annotating, and rendering drawings. AutoCAD LT is a less expensive option than AutoCAD Mechanical, and it is a good choice for users who need a 2D drafting and design software program for general engineering and drafting purposes.

AutoCAD Mechanical is a 2D and 3D drafting, designing, and documentation software program that is specifically designed for mechanical engineering. It includes a wide range of features and tools for creating and editing 2D and 3D drawings, as well as for dimensioning, annotating, and rendering drawings. AutoCAD Mechanical also includes a library of standard parts and components, as well as tools for creating bills of materials, generating 3D printing files, and performing analysis and simulation. AutoCAD Mechanical is a more expensive option than AutoCAD LT, but it is a good choice for users who need a 2D and 3D drafting, designing, and documentation software program for mechanical engineering.

AutoCAD mechanical AutoCAD vs AutoCAD mechanical AutoCAD LT vs AutoCAD mechanical

FeatureAutoCAD LTAutoCAD Mechanical
Features2D drafting and design2D and 3D drafting, designing, and documentation
InterfaceGeneral-purpose interfaceSpecialized interface designed for mechanical engineers
PricingLess expensiveMore expensive
Best forGeneral engineering and draftingMechanical engineering

Unique Tools in AutoCAD Mechanical

  • AutoCAD Mechanical Sheet Metal Tools: These tools are specifically designed for sheet metal design, and they include features such as the ability to create flanges, bends, and hems.
  • AutoCAD Mechanical Weldments Tools: These tools are specifically designed for weldment design, and they include features such as the ability to create weld symbols, weld beads, and weld joints.
  • AutoCAD Mechanical Electrical Tools: These tools are specifically designed for electrical design, and they include features such as the ability to create wire routings, connectors, and switches.
  • AutoCAD Mechanical Fluid Power Tools: These tools are specifically designed for fluid power design, and they include features such as the ability to create pipes, valves, and cylinders.
  • AutoCAD Mechanical Geometric Tolerance Tools: These tools are specifically designed for creating geometric tolerances, and they include features such as the ability to create datums, tolerances, and modifiers.
  • AutoCAD Mechanical Surface Modeling Tools: These tools are specifically designed for surface modeling, and they include features such as the ability to create surfaces, solids, and blends.
  • AutoCAD Mechanical Advanced Rendering Tools: These tools are specifically designed for creating advanced renderings, and they include features such as the ability to create realistic shadows, reflections, and materials.

AutoCAD Mechanical and Autodesk Inventor Professional Integration

Inventor to AutoCAD Mechanical

There are two ways to import 3D models into AutoCAD Mechanical:

  1. Import a 3D model from a file: You can import a 3D model from a file that is saved in a supported format, such as STEP, IGES, or Parasolid. To do this, follow these steps:
    1. Click the Insert tab.
    2. In the Import panel, click Import.
    3. In the Import File dialog box, select the file that you want to import.
    4. Click Open.
    5. In the Import Options dialog box, select the options that you want to use for the import.
    6. Click OK.
  2. Create a 3D model in Inventor and then import it into AutoCAD Mechanical: You can create a 3D model in Inventor and then import it into AutoCAD Mechanical. To do this, follow these steps:
    1. Create the 3D model in Inventor.
    2. Save the 3D model in a supported format, such as STEP, IGES, or Parasolid.
    3. Open AutoCAD Mechanical.
    4. Click the Insert tab.
    5. In the Import panel, click Import.
    6. In the Import File dialog box, select the file that you want to import.
    7. Click Open.
    8. In the Import Options dialog box, select the options that you want to use for the import.
    9. Click OK.

If the model changes in Inventor, the changes will be updated in AutoCAD Mechanical if the following conditions are met:

  • The model is saved in a supported format.
  • The model is imported into AutoCAD Mechanical using the Import command.
  • The Update Links option is selected in the Import Options dialog box.

If these conditions are not met, the changes will not be updated in AutoCAD Mechanical.

Here are some additional things to keep in mind when importing 3D models into AutoCAD Mechanical:

  • The model may need to be scaled or positioned correctly in AutoCAD Mechanical.
  • The model may need to be converted to a different type of object, such as a block or a sketch.
  • The model may need to be edited or modified in AutoCAD Mechanical.

By following these steps, you can import 3D models into AutoCAD Mechanical and keep the models up to date with changes made in Inventor.

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AutoCAD Mechanical to Inventor

Inventor has a feature called AnyCAD that allows you to import and work with 2D DWG files in Inventor part, assembly, and drawing environments. AnyCAD is a powerful tool that can help you to save time and improve the efficiency of your design workflow.

To import a 2D DWG file into Inventor, follow these steps:

  1. Click the File menu.
  2. Select Import > 2D DWG.
  3. In the Import DWG File dialog box, select the DWG file that you want to import.
  4. Click Open.

The DWG file will be imported into Inventor as a Reference Model. Reference Models are special types of Inventor models that are linked to the original DWG file. Any changes that you make to the DWG file will be automatically updated in the Reference Model in Inventor.

Here are some additional things to keep in mind when importing 2D DWG files into Inventor:

  • The DWG file must be saved in a supported format, such as DWG or DXF.
  • The DWG file must be opened in read-only mode.
  • The DWG file must be placed on a Reference Plane in Inventor.
  • The DWG file must be updated regularly to reflect the latest changes.

By following these steps, you can import 2D DWG files into Inventor and keep the files up to date with changes made to the original DWG file.

Here are some additional benefits of using AnyCAD:

  • You can use Inventor tools to modify and edit 2D DWG files.
  • You can create 3D models from 2D DWG files.
  • You can create assemblies that contain both 2D DWG files and 3D Inventor models.
  • You can create drawings that contain both 2D DWG files and 3D Inventor models.

AnyCAD is a powerful tool that can help you to save time and improve the efficiency of your design workflow. If you are working with 2D DWG files, I encourage you to try using AnyCAD in Inventor.

Which CAD Software is Right for You?

The best CAD software for you depends on your specific needs. If you are a mechanical engineer who needs specialized tools for mechanical engineering design, then AutoCAD Mechanical is the better choice. If you are a general engineer or designer who needs a more versatile CAD software program, then AutoCAD is the better choice.

Advantages of AutoCAD Plant 3D over Mechanical CAD Software

Mechanical CAD software is designed for the design of mechanical parts and assemblies. It does not offer the same level of features as AutoCAD Plant 3D for plant design, such as:

  • Industry-standard symbols
  • Piping and instrumentation diagrams (P&IDs)
  • Electrical diagrams
  • Structural drawings
  • Integrated reporting and documentation tools

 

Tools: AutoCAD Plant 3D and P&ID vs Autodesk Inventor and SolidWorks

AutoCAD Plant 3D and P&ID tools:

  • Industry-standard symbols: AutoCAD Plant 3D and P&ID include a comprehensive library of industry-standard symbols for pipes, valves, fittings, instruments, and other plant equipment. This makes it easy to create accurate and consistent drawings.
  • Powerful 3D modeling tools: AutoCAD Plant 3D and P&ID offer powerful 3D modeling tools that allow you to create accurate and realistic models of piping systems.
  • Advanced design automation features: AutoCAD Plant 3D and P&ID include advanced design automation features that can help you to speed up the design process and reduce errors.
  • Integrated reporting and documentation tools: AutoCAD Plant 3D and P&ID include integrated reporting and documentation tools that can help you to create accurate and professional documentation.

Autodesk Inventor and SolidWorks Pipe and Tubing Tools:

  • Parametric modeling: Autodesk Inventor and SolidWorks use parametric modeling, which means that the properties of pipe and tubing components are linked to each other. This can be helpful for maintaining consistency in pipe and tubing designs.
  • Clash detection: Autodesk Inventor and SolidWorks include clash detection tools that can help you to identify potential conflicts between pipe and tubing and other components in a design. This can help to avoid costly errors during manufacturing or assembly.
  • Generative design: Autodesk Inventor and SolidWorks include generative design tools that can help you to explore different pipe and tubing design options. This can be helpful for finding the most efficient and cost-effective pipe and tubing solutions.

Tailored Functionality

Organisations can customise AutoCAD for their industries, empowering teams to build and run discipline-specific routines and workflows.

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Ready to get AutoCAD with the Mechanical Toolset?

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Plant 3D Vs AutoCAD: Piping Design and P&ID Schematics

AutoCAD vs Plant 3D: Which Software is Right For You?

Better Piping and P&ID's Designs with the AutoCAD Plant 3D Toolset​

AutoCAD Plant 3D Toolset AutoCAD lt vs AutoCAD Plant 3D, AutoCAD vs AutoCAD Plant 3D Toolset Autodesk Inventor vs AutoCAD Plant 3D, Solidworks vs AutoCAD Plant 3D, Revit vs AutoCAD Plant 3D. AutoCAD Plant 3D training course, AutoCAD P&ID training course, AutoCAD Plant 3D course, AutoCAD P&ID course, Collaboration for Plant 3D

AutoCAD Plant 3D is a powerful toolset for plant design. It offers a wide range of features that are specifically designed for the needs of plant designers and engineers. These features include:

  • A comprehensive library of industry-standard symbols
  • Powerful 3D modeling tools
  • Advanced design automation features
  • Integrated reporting and documentation tools

In this blog we’ll explore the differences in using the AutoCAD Plant 3D Toolset over:

  • AutoCAD LT and AutoCAD 
  • MCAD software such as Autodesk Inventor and Dassault Systemes Solidworks
  • BIM software such as Revit

Advantages of AutoCAD Plant 3D over AutoCAD LT

AutoCAD LT is a less expensive version of AutoCAD that is designed for 2D drafting and design. It does not offer the same level of features as AutoCAD Plant 3D, including:

  • Industry-standard symbols
  • 3D modeling tools
  • Design automation features
  • Integrated reporting and documentation tools

Advantages of AutoCAD Plant 3D over AutoCAD

AutoCAD is a more powerful version of AutoCAD LT that offers a wider range of features. However, it does not offer the same level of specialization for plant design as AutoCAD Plant 3D. AutoCAD Plant 3D includes features that are specifically designed for plant design, such as:

  • A comprehensive library of industry-standard symbols
  • Advanced 3D modeling tools
  • Design automation features
  • Integrated reporting and documentation tools

Advantages of AutoCAD Plant 3D over Mechanical CAD Software

Mechanical CAD software is designed for the design of mechanical parts and assemblies. It does not offer the same level of features as AutoCAD Plant 3D for plant design, such as:

  • Industry-standard symbols
  • Piping and instrumentation diagrams (P&IDs)
  • Electrical diagrams
  • Structural drawings
  • Integrated reporting and documentation tools

 

Tools: AutoCAD Plant 3D and P&ID vs Autodesk Inventor and SolidWorks

AutoCAD Plant 3D and P&ID tools:

  • Industry-standard symbols: AutoCAD Plant 3D and P&ID include a comprehensive library of industry-standard symbols for pipes, valves, fittings, instruments, and other plant equipment. This makes it easy to create accurate and consistent drawings.
  • Powerful 3D modeling tools: AutoCAD Plant 3D and P&ID offer powerful 3D modeling tools that allow you to create accurate and realistic models of piping systems.
  • Advanced design automation features: AutoCAD Plant 3D and P&ID include advanced design automation features that can help you to speed up the design process and reduce errors.
  • Integrated reporting and documentation tools: AutoCAD Plant 3D and P&ID include integrated reporting and documentation tools that can help you to create accurate and professional documentation.

Autodesk Inventor and SolidWorks Pipe and Tubing Tools:

  • Parametric modeling: Autodesk Inventor and SolidWorks use parametric modeling, which means that the properties of pipe and tubing components are linked to each other. This can be helpful for maintaining consistency in pipe and tubing designs.
  • Clash detection: Autodesk Inventor and SolidWorks include clash detection tools that can help you to identify potential conflicts between pipe and tubing and other components in a design. This can help to avoid costly errors during manufacturing or assembly.
  • Generative design: Autodesk Inventor and SolidWorks include generative design tools that can help you to explore different pipe and tubing design options. This can be helpful for finding the most efficient and cost-effective pipe and tubing solutions.

Advantages of AutoCAD Plant 3D over BIM Software

BIM software is designed for the design and construction of buildings. It offers a wide range of features for 3D modeling, clash detection, and quantity takeoff. However, it does not offer the same level of features as AutoCAD Plant 3D for plant design, such as:

  • Industry-standard symbols
  • P&IDs
  • Electrical diagrams
  • Structural drawings
  • Integrated reporting and documentation tools

Advantages of AutoCAD Plant 3D over BIM Software

BIM software such as Revit is designed for the design and construction of buildings. It offers a wide range of features for 3D modeling, clash detection, and quantity takeoff. However, it does not offer the same level of features as AutoCAD Plant 3D for plant design, such as:

  • Industry-standard symbols
  • P&IDs
  • Electrical diagrams
  • Structural drawings
  • Integrated reporting and documentation tools

Tools: AutoCAD Plant 3D Vs Revit

AutoCAD Plant 3D Piping Tools

  • Industry-standard symbols: AutoCAD Plant 3D includes a comprehensive library of industry-standard piping symbols. This makes it easy to create accurate and consistent piping drawings.
  • Powerful 3D modeling tools: AutoCAD Plant 3D offers powerful 3D modeling tools that allow you to create accurate and realistic piping models.
  • Advanced design automation features: AutoCAD Plant 3D includes advanced design automation features that can help you to speed up the design process and reduce errors.
  • Integrated reporting and documentation tools: AutoCAD Plant 3D includes integrated reporting and documentation tools that can help you to create accurate and professional documentation.
  • P&ID Tools: AutoCAD Plant 3D also includes P&ID (Piping and Instrumentation Diagrams) tools that allow you to create accurate and consistent P&ID drawings.

Revit MEP Piping Tools:

  • BIM integration: Revit MEP is a BIM (Building Information Modeling) software, which means that it integrates with other BIM software, such as Revit Architecture and Revit Structure. This can be helpful for coordinating piping designs with other aspects of a building design.
  • Parametric modeling: Revit MEP uses parametric modeling, which means that the properties of piping components are linked to each other. This can be helpful for maintaining consistency in piping designs.
  • Generative design: Revit MEP includes generative design tools that can help you to explore different piping design options. This can be helpful for finding the most efficient and cost-effective piping solutions.

Autodesk Revit and Fabrication Products (Estmep, CADmep and CAMduct) Integration

Revit MEP can connect to Autodesk fabrication products such as ESTmep, CADmep, and CAMduct:

  • ESTmep: ESTmep is a software that can be used to generate fabrication drawings and bills of materials for Revit MEP models. It can be used to generate drawings for a variety of HVAC components, such as pipes, valves, and fittings. ESTmep can also be used to generate bills of materials for these components.
  • CADmep: CADmep is a software that can be used to create 3D models of HVAC components. These models can then be used to create fabrication drawings and bills of materials. CADmep can also be used to simulate the flow of fluids through HVAC systems.
  • CAMduct: CAMduct is a software that can be used to create CNC machine tool paths for HVAC components. These paths can then be used to cut HVAC components from sheet metal. CAMduct can also be used to generate bills of materials for the CNC machine tools.

The Revit MEP can connect to these Autodesk fabrication products through the Autodesk Fabrication Connector. The Autodesk Fabrication Connector is a plugin that allows Revit MEP to export models and data to ESTmep, CADmep, and CAMduct. This allows Revit MEP users to take advantage of the fabrication capabilities of these products.

Here are some of the benefits of connecting Revit MEP to Autodesk fabrication products:

  • Increased efficiency: The Autodesk fabrication products can automate many of the tasks involved in fabrication, such as generating drawings and bills of materials. This can help to increase the efficiency of the fabrication process.
  • Improved accuracy: The Autodesk fabrication products can help to ensure that fabrication drawings and bills of materials are accurate. This can help to reduce errors and rework during the fabrication process.
  • Improved communication: The Autodesk fabrication products can help to improve communication between engineers and fabricators. This can help to ensure that the fabrication process meets the engineer’s specifications.

Plant 3D Setup and Training

To get the most out of Plant 3D, it is recommended to setup Plant 3D and P&ID templates, catalogs and specs and do training. Whether it’s software, training, setup or something custom, Design Consulting has the capabilities to achieve your objectives.

Tailored Functionality

Organisations can customise AutoCAD for their industries, empowering teams to build and run discipline-specific routines and workflows.

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AutoCAD Plant 3D 2024

Ortho Bill of Materials (BOM)

The Ortho Table Setup dialog box includes simplified options and more table capabilities for orthographic drawings. You can now add the Bill of Materials (BOM) for piping, equipment, steel, as well as nozzle and spool lists into ortho drawings.

Spec and Catalog Editor Enhancements

The Edit Parts and Edit Properties functions are enhanced in both Spec and Catalog Editors.

Edit parts within a selected parts family for inclusion in a spec sheet or catalog.

The Edit Parts and Edit Properties functions are enhanced in both Spec and Catalog Editors. Edit parts within a selected parts family for inclusion in a spec sheet or catalog.

Refer to the 2024 Help file for further information 

Pipe Spec Viewer Enhancements

View all parts available for a specific size in the selected spec. Use the search box to look for specific components in the Pipe Spec Viewer.

Any changes to the size and spec lists are both updated in Pipe Spec Viewer and the Part Insertion panel on the ribbon.

Ortho Single-Line Piping Enhancements

In this release, ortho single-line piping offers more enhancements including a new interface for some piping criteria providing better control when you display piping in a single-line representation in orthographic drawings.

Ready to get AutoCAD with the Plant 3D and P&ID Toolset?

Get up to 20% Off Software or Services!

Contact us to find out how much money you can save on software, training or other services. Fill out the form below, by live chat, phone or email.

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Autodesk Docs vs Build: Which is a Better Choice?

Autodesk Docs vs Build
Autodesk Construction Cloud

Autodesk Vs Build

Autodesk Docs and Autodesk Build, which includes all the features of Docs, are two cloud-based software solutions part of the Autodesk Construction Cloud that help construction teams manage their projects. Both platforms offer a variety of features for document management, collaboration, and communication. However, there are some key differences between the two platforms that may make one a better fit for your specific needs.

Autodesk Docs

Autodesk Docs is a document management platform that provides a central location for storing, sharing, and collaborating on project documents. It offers a variety of features for organizing and searching documents, as well as for tracking changes and versions. Autodesk Docs also integrates with other Autodesk products, such as BIM 360 and Revit.

Autodesk Build

Autodesk Build is a project management platform that is specifically designed for the construction industry. It offers a variety of features for managing project schedules, costs, and resources. Autodesk Build also integrates with Autodesk Docs, so you can easily access and share project documents.

Compare Autodesk Docs Vs Build

Feature Autodesk Docs Autodesk Build
Document management Yes Yes
Collaboration Yes Yes
Communication Yes Yes
Project scheduling No Yes
Cost management No Yes
Resource management No Yes
Integration with Autodesk products Yes Yes
Mobile app Yes Yes
Autodesk build Autodesk Construction Cloud. Autodesk construction cloud centralised bid management. Autodesk BIM 360 vs Construction Cloud. Autodesk construction cloud design build plan operate Autodesk BIM 360 vs Construction Cloud. bim 360 vs acc, acc vs bim360, acc vs bim 360. Autodesk Construction Cloud vs BIM 360

Autodesk Vs Build – RFI’s

  • Docs: RFIs can be created and tracked in Docs, but they are not as tightly integrated with the rest of the platform as they are in Build.
  • Build: RFIs are a core feature of Build, and they are tightly integrated with the project schedule and budget. This makes it easy to track the status of RFIs and to ensure that they are resolved in a timely manner.

Autodesk Vs Build –

Issue Tracking

  • Docs: Issue tracking is not a core feature of Docs, but it can be enabled through a third-party integration.
  • Build: Issue tracking is a core feature of Build, and it is tightly integrated with the rest of the platform. This makes it easy to track the status of issues and to ensure that they are resolved in a timely manner.

Autodesk Build Features

Quality Management

Autodesk Build offers a variety of features for managing quality. You can create and track quality checklists, which are used to ensure that tasks are completed correctly. You can also create and track quality reports, which are used to identify and track quality issues.

Safety Management

Autodesk Build also offers a variety of features for managing safety. You can create and track safety checklists, which are used to ensure that work areas are safe. You can also create and track safety reports, which are used to identify and track safety issues.

Project Closeout

Autodesk Build offers a variety of features for managing project closeout. You can create and track closeout checklists, which are used to ensure that all project tasks are completed. You can also create and track closeout reports, which are used to document the project’s completion.

Cost Management

Autodesk Build also offers a variety of features for managing cost. You can create and track budgets, track expenses, and generate reports on project costs. You can also create and track change orders, which are used to modify the project scope or budget.

Here are some additional benefits of using Autodesk Build for quality management, safety management, project closeout, and cost management:

  • Increased visibility: Autodesk Build provides a central location for storing all project information, which makes it easy to track progress and identify potential problems.
  • Improved collaboration: Autodesk Build makes it easy for team members to collaborate on projects, even if they are not in the same location.
  • Automated workflows: Autodesk Build automates many of the tasks involved in quality management, safety management, project closeout, and cost management, which frees up team members to focus on other aspects of the project.
  • Real-time data: Autodesk Build provides real-time data on project progress, which allows team members to make informed decisions and take corrective action as needed.

Which platform is right for you?

The best platform for you will depend on your specific needs. If you are looking for a comprehensive document management platform, then Autodesk Docs is a good option. If you are looking for a project management platform with features for scheduling, costs, and resources, then Autodesk Build is a good option.

Autodesk Docs and Autodesk Build are both powerful platforms that can help you manage your construction projects. The best platform for you will depend on your specific needs. If you are not sure which platform is right for you, then I recommend contacting an Autodesk representative for more information.

Download the free eBook: 5 Ways Project Management Technology Helps Construction Owners Stay on Budget and on Time.

5 Ways Project Management Technology Helps Construction Owners Stay on Budget and on Time
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Connected Structural Design with the Autodesk Architecture Engineering and Construction Collection

Learn how the Autodesk AEC Collection connects Advance Steel, Revit and other programs for structural design, analysis and fabrication
Design Consulting Architecture Engineering and Construction Collection logo Moving at the Speed of Business

Connected Structural Design with the Autodesk Architecture Engineering and Construction Collection

The construction industry has seen a significant transformation in recent years with the adoption of new technologies and software. Structural engineering is no exception, as it plays a crucial role in the success of any construction project. Autodesk Architecture, Engineering, and Construction (AEC) Industry Collection is a suite of powerful software tools that enable structural engineers and fabricators to streamline their workflows and improve collaboration.

In this blog post, we will explore how Advance Steel, a software tool within the AEC Industry Collection, works with other applications such as Revit, Autodesk Docs, Robot Structural Analysis, Navisworks, and more to create a connected design process. We will also discuss the benefits of this approach for structural engineers and fabricators on construction projects.

How Does Advance Steel Work With Other Applications in the Collection?

With the AEC Industry Collection, structural engineers can create detailed designs, collaborate with architects and other stakeholders, and analyse their designs for efficiency and safety. Fabricators can use the software to create shop drawings and CNC files, and contractors can use it to manage construction projects and ensure that they stay on schedule and on budget.

Advance Steel is a software tool within the AEC Industry Collection that provides 3D modeling and detailing for steel structures. It is designed to streamline the design and fabrication process for steel structures, making it easier for engineers and fabricators to collaborate and ensure accuracy.

Advance Steel can be used to create detailed steel models in 3D, including connections, plates, and bolts. It also provides tools for creating drawings, bills of materials, and NC files for fabrication. With Advance Steel, engineers and fabricators can ensure that their designs are accurate and meet industry standards.

How Advance Steel works with other applications in the AEC Industry Collection

One of the key benefits of the AEC Industry Collection is that it provides a connected design process. This means that engineers and fabricators can use multiple software tools in the collection to streamline their workflows and ensure accuracy.

Here are some of the ways that Advance Steel works with other applications in the AEC Industry Collection:

  1. Revit: Advance Steel can be used with Revit to create detailed steel models that include all of the necessary information for fabrication. Revit can also be used to create detailed architectural and MEP models, which can be linked to the steel model in Advance Steel for coordination.

  2. Autodesk Docs: Autodesk Docs is a cloud-based document management platform that can be used to store and share project information. With Autodesk Docs, engineers and fabricators can collaborate on design files, RFIs, submittals, and more.

  3. Robot Structural Analysis: Robot Structural Analysis is a software tool that can be used to analyse steel structures for safety and efficiency. With Robot Structural Analysis, engineers can perform finite element analysis (FEA) on their steel models to ensure that they meet industry standards.

  4. Navisworks: Navisworks is a software tool that can be used for project coordination and clash detection. With Navisworks, engineers can import steel models from Advance Steel and other software tools to check for clashes and ensure.

  5. Other Applications: The AEC Industry Collection includes a wide range of other software tools that can be used in conjunction with Advance Steel. For example, Fabrication CADmep can be used to create detailed ductwork and piping models that can be linked to the steel model in Advance Steel for coordination.

 

Benefits of Connected Design for Structural Engineers and Fabricators

The connected design process enabled by the AEC Industry Collection provides several benefits for structural engineers and fabricators. Here are some of the key advantages:

  1. Improved Collaboration: By using multiple software tools in the AEC Industry Collection, engineers and fabricators can collaborate more effectively. They can share design files, coordinate different aspects of the project, and ensure that everyone is working from the same information.

  2. Streamlined Workflows: The connected design process also streamlines workflows by reducing the need for manual data entry and rework. Engineers and fabricators can move seamlessly between different software tools, and the data is automatically synchronised.

  3. Increased Accuracy: By using software tools like Advance Steel, engineers and fabricators can ensure that their designs are accurate and meet industry standards. They can also perform analysis and simulations to ensure that the structure is safe and efficient.

  4. Faster Time-to-Market: The connected design process enables faster time-to-market by reducing the time needed for design and fabrication. This can help construction companies stay on schedule and avoid delays.

  5. Cost Savings: Finally, the connected design process can also lead to cost savings by reducing the need for rework and minimising errors. This can help construction companies stay on budget and avoid costly mistakes.

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How Dynamo is Revolutionising Structural Design with Advance Steel and Revit

Dynamo is a visual programming tool that is transforming the way structural engineers and designers work. When combined with software tools like Advance Steel and Revit, it offers several benefits that can help streamline workflows and increase efficiency. In this article, we’ll explore the benefits of using Dynamo with Advance Steel and Revit for structural design.

  1. Automating Repetitive Tasks

One of the main benefits of using Dynamo with Advance Steel and Revit is the ability to automate repetitive tasks. For example, Dynamo can be used to automatically create connections between steel elements in Advance Steel based on predefined rules. This can save time and reduce errors, allowing engineers and designers to focus on more complex tasks.

  1. Enhanced Collaboration

Dynamo also improves collaboration between different teams involved in the structural design process. By using a visual programming language, designers and engineers can easily share scripts and workflows with other team members, regardless of their level of technical expertise. This helps to improve communication and ensures that everyone is working from the same information.

  1. Increased Accuracy and Quality

Using Dynamo with Advance Steel and Revit can help improve the accuracy and quality of structural designs. For example, Dynamo can be used to automatically calculate loads and reactions for a structure, or to optimize the size and shape of steel members. This can lead to more efficient and cost-effective designs, as well as better structural performance.

  1. Streamlined Workflows

Dynamo helps to streamline workflows by eliminating the need for manual data entry and reducing the potential for errors. By automating repetitive tasks and using a visual programming language, engineers and designers can move seamlessly between different software tools, saving time and reducing the potential for delays and mistakes.

  1. Improved Visualization

Finally, using Dynamo with Advance Steel and Revit can improve visualisation of the design. With Dynamo, engineers and designers can create complex geometry and parametric models, allowing for greater flexibility and better visualisation of the structure. This can help identify potential issues and make design decisions more effectively.

FeaturesAutoCADAdvance SteelRevit
2D DraftingComprehensive set of 2D drafting tools, including line, circle, polyline, arc, and text toolsLimited 2D drafting tools, including line, circle, and text toolsLimited 2D drafting tools, including line, circle, and text tools
3D ModelingOffers basic 3D modeling tools, including extrude, revolve, and loft toolsOffers more advanced 3D modeling tools, including parametric modeling tools and the ability to automatically generate steel elementsOffers advanced 3D modeling tools, including parametric modeling tools and the ability to create complex geometry
Steel ModelingLimited steel modeling tools, including the ability to create steel elements manuallyOffers more advanced steel modeling tools, including the ability to automatically generate steel elements and parametric modeling toolsOffers basic steel modeling tools, including the ability to create steel elements manually
Steel DetailingLimited steel detailing tools, including the ability to create drawings of steel elementsOffers more advanced steel detailing tools, including the ability to automatically create part drawings, DXF and NC1 files, and CNC data exportOffers basic steel detailing tools, including the ability to create drawings of steel elements
Connection DesignNo connection design toolsOffers comprehensive connection design tools, including the ability to create and analyze connectionsOffers limited connection design tools, including the ability to create basic connections
Structural AnalysisNo structural analysis toolsOffers more advanced structural analysis tools, including the ability to analyze and optimize steel structuresOffers basic structural analysis tools, including the ability to analyze and check steel structures
FabricationNo fabrication toolsOffers comprehensive fabrication tools, including the ability to create shop drawings, CNC data export, and automatic creation of bills of materialsLimited fabrication tools, including the ability to create shop drawings and bills of materials
CollaborationOffers basic collaboration tools, including the ability to share drawings and collaborate on designOffers more advanced collaboration tools, including the ability to connect to Dynamo and synchronize with Revit modelsOffers advanced collaboration tools, including the ability to connect to Dynamo and synchronize with Advance Steel models

AutoCAD offers a comprehensive set of 2D drafting tools, including line, circle, polyline, arc, and text tools. It also offers basic 3D modeling tools, such as extrude, revolve, and loft tools. However, it has limited steel modeling and detailing tools, connection design, structural analysis, and fabrication tools.

Advance Steel offers more advanced steel modeling and detailing tools than AutoCAD. It can automatically generate steel elements, create part drawings, DXF and NC1 files, and export CNC data. It also has comprehensive connection design and fabrication tools. Advance Steel is specifically designed for steel design and fabrication, making it a powerful tool for structural engineers and steel fabricators.

Revit offers advanced 3D modeling tools and basic steel modeling and detailing tools. It can connect to Dynamo and synchronise with Advance Steel models, which makes it an excellent tool for collaboration with architects and other stakeholders in the building design process.

In summary, the choice between AutoCAD, Advance Steel, and Revit depends on the specific needs of the project and the users. AutoCAD is a general-purpose drafting tool, while Advance Steel is specifically designed for steel design and fabrication, and Revit is an excellent tool for collaboration and building design coordination.

 

Analysing Structural Designs: Advance Steel Vs Revit Vs Robot Structural Analysis

FeatureAdvance SteelRevitRobot Structural Analysis
Finite Element AnalysisYesYesYes
Static AnalysisYesYesYes
Dynamic AnalysisYesNoYes
Buckling AnalysisYesNoYes
Nonlinear AnalysisYesNoYes
Eigenvalue AnalysisYesNoYes
Response Spectrum AnalysisYesNoYes
Pushover AnalysisYesNoYes
Design OptimizationYesNoYes
Steel Connections AnalysisYesNoYes
Concrete AnalysisNoYesYes
Wood AnalysisNoYesYes
Masonry AnalysisNoYesYes
Design Code CompatibilityMultipleMultipleMultiple
Integration with Other ToolsRevit, DynamoNavisworksRevit, Navisworks

Overall, all three software products offer FEA capabilities for structural analysis, including static analysis and finite element analysis. However, Robot Structural Analysis offers more advanced analysis options such as dynamic analysis, buckling analysis, nonlinear analysis, eigenvalue analysis, response spectrum analysis, and pushover analysis. Advance Steel offers the ability to analyze steel connections, while Revit offers analysis options for concrete, wood, and masonry.

In terms of design code compatibility, all three software products support multiple design codes. Additionally, Revit and Robot Structural Analysis can integrate with Navisworks for clash detection and coordination, while Advance Steel and Revit can connect with Dynamo for automation and optimization of structural designs.

 

Structural Design Collaboration with the AEC Collection

Structural steel design collaboration is a critical aspect of any construction project. Autodesk AEC Collection offers several collaboration tools, including Navisworks and Autodesk Docs, that can help structural engineers collaborate effectively throughout the design and construction process.

Navisworks is a project review and coordination tool that allows engineers and designers to combine models and data from various sources, including Advance Steel and Revit. Navisworks can help identify and resolve potential design conflicts, allowing for more efficient construction planning and reducing the risk of costly errors during construction.

Autodesk Docs is a cloud-based collaboration tool that allows team members to share and access project information, documents, and models from anywhere and on any device. With Autodesk Docs, structural engineers can collaborate in real-time with other team members, including architects, contractors, and owners. The tool can also help track changes, versioning, and approval workflows, ensuring that all team members are working on the latest version of the project documents.

Connected Structural Design

The Autodesk Architecture Engineering and Construction Collection is a powerful suite of software programs that can help architects create better designs and collaborate more effectively with other professionals in the construction industry. By using programs such as Revit, Navisworks, and Docs, architects can create digital models of buildings and share them with other stakeholders, streamlining the design process and reducing errors. By collaborating with MEP/HVAC, Structural and Civil engineers and designers, architects can ensure that their designs are not only visually appealing but also practical and functional, resulting in better-performing buildings that meet safety and regulatory requirements.

Ready to get your Design Connected?

Discover how Autodesk Architecture Engineering and Construction Collection can streamline your workflow, increase productivity, and optimise your design process. 

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Connected Design

The Autodesk Architecture, Engineering and Construction Collection streamlines design, analysis, and visualization for architecture, engineering, construction, infrastructure, and manufacturing industries. The suite of software programs improves efficiency, reduces errors and rework, and increases cost-effectiveness.

Connected Design with Architecture Engineering and Construction Collection

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What’s New in Autodesk Inventor Professional 2024

Check out the latest in mechanical and product design and engineering in What's New in Autodesk Inventor Professional 2024
Check out the latest in mechanical and product design and engineering in What's New in Autodesk Inventor Professional 2024

What's New in Autodesk Inventor Professional 2024

Autodesk Inventor Professional  2024 is out with a focus on new features and over 100 customer driven enhancements for MBD, Part Modeling, Assembly, Drawings, Graphics, Performance, iLogic, Content Center and the API.

Here’s the top features and enhancements in Autodesk Inventor Professional 2024.

General Enhancements

General

It is now possible to set Perspective With Ortho Faces as the default view setting in both Document Settings and Application options.

  • Set ‘Perspective With Ortho Faces’ as the default view setting

Application Options:

  • Display tab > Appearance > Settings >
  • Display Appearance dialog > Initial Display Appearance > Projection

Modeling document:

  • Document Settings > Standard tab > Display Appearance >
  • Settings > Initial Display Appearance > Projection

Graphics

Render Size Limit Removed

Inventor Studio has had, until now, an imposed 4096 x 4096 pixel rendering output. The limitation has been removed and Inventor Studio will render images up to 16K x 16K resolution, depending on what your graphics card supports.

Custom Environment Image Support

The workflow for using custom hdr and exr images with IBL lighting styles is much improved and is supported for both CPU and GPU ray tracing.

Support for IBL backgrounds

GPU ray tracing now supports rendering with IBL backgrounds.

The following enhancements in Graphics have been added:

  • Section view tools expanded
    • Flip
    • Move
    • Rotate
    • End cap
  • Section options added to mini-toolbar
  • Edit and suppress section views in “View Representations”
  • Control Section View end cap preview during section view plane dragging
  • <= 500 parts – end cap shown by default
  • > 500 parts – end cap not shown
  • Override the setting by selecting or deselecting the option in the mini-toolbar
  • Use custom IBL environment
  • GPU ray tracing now supports:
    • IBL environments
    • Threads
  • Ray Tracing UI update

Part Modeling Enhancements

Sheet Metal

Enhanced profile detection on overlapping sketches

Parameter Window

Text and Boolean values can now be exported

  • Boolean has the options of:
    • Text (True or False)
    • Number (0 or 1)
    • Yes or No
  • Hardness

Mark Feature

  • New behaviour section:
    • Project
    • Wrap (new)
  • Choose direction for mark
  • Mark across multiple coplanar surfaces

Assembly Modeling Enhancements

Oriented Minimum Bounding Box

  • Rotate Bounding Boxes to match angle of parts
  • Represents footprint of components more accurately
  • Available in:
    • Simplify
    • Derive
  • Simplify – bounding box edges measured and appear in parameter window

Patterns

Rectangular Pattern

You can now select a revolved face, cylindrical or conical, to define the direction for a component pattern. The Pattern Component command uses the face axis to define the pattern direction. Use the standard controls to flip the direction.

It is not necessary to activate the selector when using an origin axis, clicking the flyout activates the selector and chooses the selected axis. The direction selection does not change with the activation of the selector, you must also select a new direction.

Circular Pattern

Circular pattern for components is enhanced to provide incremental and fitted positioning methods.

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New: Finish Feature

The new Finish feature enables you to not only specify the appearance of your parts, components and assemblies, but also the manufacturing process such as material coating or surface finish.

All applied finishes are listed in a new Finishes folder in the browser. You can re-order the finishes in the browser node, suppress, rename or delete them.

In Drawings, a new “Parameters – Finish” type category is added to the Leader Text and the Format Text dialogs to enable Finish information to be used in drawing notes. These parameters will automatically be updated if changed in the modelling environment. This enhances your drawing by adding additional manufacturing process information to the documentation.

Each Finish feature setting has a parameter with corresponding unique name in the “Finish Parameters” category in the Parameters dialog. All Finish parameters can be exported. Exported parameters are displayed in iProperties. Note that change in iProperties doesn’t affect the model finish feature parameters.

The Finish feature can be captured in Model States, iPart an iAssembly.

3D Annotations (MBD) Enhancements

3D Weld Symbols

3D weld symbols are now available as one of the 3D annotation types. Create and edit weld and subweld symbols in a part or assembly model. Then, retrieve the associative symbols in drawings. 3D weld symbols are included in exports to 3D PDF, DWF, and Shared Views.

3DA Envelope Requirement Modifier

The Envelope Requirement modifier is now available for hole notes and dimensions. In the annotation preview, click on a dimension and in the toolbar select the envelope modifier.

Annotation Scale

In this release, 1:5 scale is added to the annotation scale drop down per DIN EN ISO 55455

All Over Modifier

The All Over modifier is now available for feature control annotations.

Drawing Enhancements

Sheet Property

Sheet Name is added as a Sheet Property and can be used in text.

It is now easier to recognize if a filter is applied to the parts list. An icon in the browser and the Parts List dialog displays a filter symbol when one is applied.

Break Line

A change was made to the “Break Out Line” object type for ISO standards. Until now, the “Visible” layer on “Thickness” was set to 0.5 mm. Now, as per the updated standard, the “Break Out Line” object type uses the “Break Line” layer by default with a thickness of 0.25 mm. This also applies to DIN/GB/JIS standards.

Many 2D weld symbols in drawings were updated as per ISO/BSI/DIN/GB standards. The newly introduced 3D weld symbols use ISO, DIN and ANSI standards. The changes include updating the names of fields and adding new fields depending on the selected weld type. The changes were made to Square Butt Welds, Fillet Welds, or Plug Welds for example.

Drawing Line Colour Controls

With this release, color scheme settings can be set for drawing sketch elements. Until now, it was difficult to work with elements if their color conflicted with the sheet color setting. The new Sketch options under the Drafting heading allow the color of sketch elements to be set for the drawing environment.

Revision Clouds

Revision clouds are full-fledged Inventor objects and no longer in the SDK. Add them to drawing sheets or views, move them around, add or delete vertices, and like other annotation styles the formatting is managed using the Styles Editor. Being sketch-based they can be edited either in their cloud state or from the sketch.

Edge Symbol

Starting from this release of Inventor, you can define an Edge Symbol based on ISO 13715:2019 standard. The new Edge Symbol command is added to the Symbols panel of the Annotate tab. The Edge symbol style is added to the drawing Style and Standard Editor.

Tube and Pipe Enhancements

Custom Elbows

In previous versions of Inventor, it was only possible to add a 45 or 90 degree elbow to a rigid pipe run. Starting from this release , it is now possible to apply custom angled elbows.

When a style with Custom Elbows is activated, select the Custom Elbows option in the Route dialog and either use the curved arrow manipulators, or type a value to angle the elbow relative to the current position.

  • When dragged by 45 or 90 degrees, the route is populated with a rigid elbow. Rigid elbow is placed as a Standardpart.
  • When dragged to other than 45 or 90 degrees, the route is populated with a custom elbow. Custom elbow is placed as a Custompart

Minimum and maximum angles are defined in the Custom Angle (CA) column within the Content Center part.

New Custom Elbow Styles

New styles which support the use of custom elbows (Custom Elbow 45, Custom Angle 90) are available in the Tube and Pipe Styles dialog.

iLogic Enhancements

Vault Workflow Enhancements

With Inventor 2024, working with Vault has never been easier. New functions added to iLogic allow Inventor to check out, get files, search Vault, and much more as part of your automations. Vault code snippets added to the editor make it easy to quickly get started.

Add a Custom Content Center Part

You now have the ability to place and define a custom part in iLogic. Create a custom part in Content Center, or insert a standard Content Center part as a custom part, and create a rule to capture the current state. The “AddCustomConterCenterPart” function is created. When you edit the part and repeat the capture operation, iLogic rule updates accordingly. Also, when you edit the rule, the part updates as well.

Close an Open Form

A new function to close an open form is added in this release of Inventor. Note that this is only available for non-modal forms.

Interoperability Enhancements

UCS Support

Both JT and STEP support the option to include UCS on import.

OBJ Import

Performance when opening OBJ files has been improved.

Solid Edge

Support for reading SolidEdge 2023 is added.

Parasolid

Support for importing and exporting Parasolid version 35 is added.

Access to Manual Inspection added to Fusion 360 tools

From within Inventor you can send a part (.ipt) file to Fusion 360 and create manual inspection tasks.

Fusion Exports Workflow

If a change has occurred in the Inventor model state or design view used for a Fusion 360 export, and you click Open in Fusion 360 in the export context menu, you are notified that the Inventor model and Fusion 360 model are out of sync and are given the option to update the Fusion 360 model before opening it.

Learn More about Autodesk Inventor 2024

Ready to get Inventor Professional 2024?

Discover how Autodesk Inventor 2024 can streamline your workflow, increase productivity, and optimise your design process. 

Get up to 20% Off Software or Services!

Contact us to find out how much money you can save on software, training or other services. Fill out the form below, by live chat, phone or email.

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Connected Design

Check out the latest in mechanical and product design and engineering in What's New in Autodesk Inventor Professional 2024

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What’s New in Autodesk AutoCAD 2024

check out the latest ion AutoCAD 2024 with specialized toolsets. The essential software for industries such as manufacturing, engineering, construction, and infrastructure. Its industry-specific workflows, such as BIM and collaboration tools, help professionals to create accurate and efficient designs. Features like PDF import, DWG compare, data extraction, dynamic blocks, and layer management make AutoCAD a versatile and powerful tool for 2D drafting and 3D modeling.
check out the latest ion AutoCAD 2024 with specialized toolsets. The essential software for industries such as manufacturing, engineering, construction, and infrastructure. Its industry-specific workflows, such as BIM and collaboration tools, help professionals to create accurate and efficient designs. Features like PDF import, DWG compare, data extraction, dynamic blocks, and layer management make AutoCAD a versatile and powerful tool for 2D drafting and 3D modeling.

What's New in Autodesk AutoCAD 2024

Autodesk AutoCAD 2024 is out with a focus on Accelerating Creativity, Tailored Functionality and a Connected Design Experience.

AutoCAD 2024 Categories Moving at the Speed of Business

Autodesk AutoCAD 2024 Overview

Accelerating Creativity

Focus on quickly creating and collaborating on innovative solutions using assistive machine learning technology to improve design workflows.

The performance enhancements in AutoCAD 2024 really stand out—both with how fast it opens and the speed of switching between models and view ports. It’s much faster than any previous versions.
Michael Shurgalla
Senior Design Technology Specialist, Merrick

Activity Insights

Bridge information gaps in collaborative AutoCAD workflows and stay connected to essential data throughout project lifecycles

My Insights Macro Advisor & Dashboard

Provides valuable information to you at the right time and in the right context to assist with steps that you can automate.

Count & Blocks Palette

Counting blocks is now up to 70% faster and reusing design content with blocks is up to 47% faster.

Autodesk AutoCAD 2024 Macro Advisor. Provides valuable information to you at the right time and in the right context to assist with steps that you can automate.
What's New in Autodesk AutoCAD 2024 - Automatically place blocks in your drawing based on where you’ve inserted the same ones thus far, reducing the number of clicks and saving you valuable time in the process.

Smart Blocks: Placement and Replacement

Automatically place blocks in your drawing based on where you’ve inserted the same ones thus far, reducing the number of clicks and saving you valuable time in the process.

Quickly find the blocks you need with machine learning powered functionality, delivering powerful time-saving automations.

Tailored Functionality

Organisations can customise AutoCAD for their industries, empowering teams to build and run discipline-specific routines and workflows.

Autodesk AutoCAD 2024 Specialised Toolset Moving at the Speed of Business

Ready to Get Connected?

Save up to 20% on Autodesk Software and Services

ACAD for Mac – M series chip

Added support for Apple Silicon increased AutoCAD for Mac’s overall performance by 2x*

Connected Design Experience

Autodesk creates an ecosystem of industry-leading design software and technology partners.

Web AutoLISP APIs

AutoLISP, a staple feature of AutoCAD desktop, now enables customisations to automate a sequence of commands in AutoCAD on the web 

AutoLISP, a staple feature of AutoCAD desktop, now enables customizations to automate a sequence of commands in AutoCAD on the web 

AutoLISP

AutoCAD LT now includes AutoLISP

Leverage thousands of previously written programs created for use in AutoCAD-based programs. AutoCAD LT supports AutoLISP Source (LSP) files, compiled LSP files, Fast-load AutoLISP (FAS), and Visual LISP Applications (VLX) files.

Markup Import & Markup Assist

Faster cross-platform markup workflows through expanded machine learning capabilities & essential experience improvements 

Markup Import & Markup Assist

Faster cross-platform markup workflows through expanded machine learning capabilities & essential experience improvements 

Markup Import Markup Assist​ Moving at the Speed of Business

Migrating Custom Settings

The CUI, tool palettes, and templates have undergone enhancements to facilitate the transfer of customised files and locations.

To utilise personalized configurations:

  1. Access the Autodesk AutoCAD <product and release> folder drop-down list from the Windows Start menu. Choose Migrate From a Previous Release.
  2. In the resulting Migrate Custom Settings dialog box, specify the release you wish to migrate from.
  3. Select the customized settings you want to transfer to the latest release.

Tab Improvements

The Start, File and Layout Tabs have been improved.

Trace Updates

Enhancements to the Trace environment continue, with the introduction of the COPYFROMTRACE command and additional settings controls on the toolbar.

Autodesk Docs Improvements

The following improvements have been made to Autodesk Docs:

  • Improved support and performance when viewing large files on Autodesk Docs.
  • Improved Desktop Connector resulting in improved performance displaying a drawing in the Start tab and opening a drawing from Autodesk Docs.
  • Improved navigation on the Start tab for drawings stored on Autodesk Docs

AutoCAD 2024 Vs AutoCAD LT 2024

AutoCAD 2024 offers more advanced features for 3D modeling, customisation with add-on apps and APIs, rendering, and CAD standards, among other features, while AutoCAD LT 2024 is a more affordable version that still offers many of the essential features for 2D drafting, annotation, and automation. 

FeaturesAutoCAD 2024AutoCAD LT 2024
Find and replace blocks based on other blocks in your drawingYesNo
Stay informed of relevant file changes with details of multi-user activities in a DWG fileYesNo
Utilise AutoLISP programs to automate repetitive tasks and enhance workflowsYesYes
Extend AutoLISP programs with third-party automation libraries, and utilize specialised editors to write and debug programsYesNo
Create and edit 2D geometryYesYes
Annotate drawings with traces, text, dimensions, leaders & tablesYesYes
Customize the ribbon and tool palettesYesYes
Attach and import data from PDF filesYesYes
Share and use data from DGN files, Navisworks, & Bing MapsYesYes
Create and edit 3D models with solids, surfaces, & mesh objectsYesNo
Customize with add-on apps and APIsYesNo
Extract object data to tablesYesNo
Create renderings with lighting, materials, & visual stylesYesNo
Apply and monitor CAD standardsYesNo
Automate counting objects and blocksYesYes
Share drawings with colleagues directly from AutoCAD or AutoCAD LTYesYes
Import feedback and incorporate changes with a click of a buttonYesNo
Learn new features and workflows to work faster with My InsightsYesNo

What's New in Specialised Toolsets

AutoCAD Architecture and MEP 2024

AEC3DPRINT

With AEC3DPRINT command, you can natively export the AEC objects to an STL file format that’s compatible with 3D printing without converting to 3D solids.

Enhanced Design Center Content

New MVBlocks and block references are available in Design Center.

More than 200 new MVBlocks and block references are added to the AutoCAD Architecture (US Imperial) and AutoCAD Architecture (US Metric) content packs for Design Center. The added content is available in metric profile for non-English languages. The content includes external lighting, bathroom accessories, furniture, site, kitchen fittings, and more.

Enhanced Design Center Content Moving at the Speed of Business

Refer to the 2024 Help file for further information 

AutoCAD Mechanical 2024

ANSI/ASME Standard Revision Update

The section line symbol within AutoCAD Mechanical is updated to support the AWS Y14.3 – 2012 standard revision. To support AWS Y14.3 – 2012, all aspects of the section line symbol are revised to correspond with AWS Y14.3 – 2012.

AutoCAD Mechanical continues to support the AWS Y14.3 – 2003 standard revision to allow documents created in previous releases to be opened, edited, and saved without updating the section line symbol standard. By supporting AWS Y14.3 – 2012 and AWS Y14.3 – 2003, you can annotate new and as-built designs using the required standard revision.

ISO Standard Revision Update for Taper and Slope Symbols

The taper and slope symbol within AutoCAD Mechanical is updated to support the ISO 3040:2016(E) standard revision. To support the ISO 3040:2016(E), all aspects of the taper and slope symbol is revised to correspond with ISO 3040:2016(E).

AutoCAD Mechanical continues to support the ISO 3040:2009(E) standard revision to allow documents created in previous releases to be opened, edited, and saved without updating the taper and slot symbol standard. By supporting ISO 3040:2016(E) and ISO 3040:2009(E), you can annotate new and as-built designs using the required standard revision.

Refer to the 2024 Help file for further information 

AutoCAD Plant 3D 2024

Ortho Bill of Materials (BOM)

The Ortho Table Setup dialog box includes simplified options and more table capabilities for orthographic drawings. You can now add the Bill of Materials (BOM) for piping, equipment, steel, as well as nozzle and spool lists into ortho drawings.

Spec and Catalog Editor Enhancements

The Edit Parts and Edit Properties functions are enhanced in both Spec and Catalog Editors.

Edit parts within a selected parts family for inclusion in a spec sheet or catalog.

The Edit Parts and Edit Properties functions are enhanced in both Spec and Catalog Editors. Edit parts within a selected parts family for inclusion in a spec sheet or catalog.

Refer to the 2024 Help file for further information 

Pipe Spec Viewer Enhancements

View all parts available for a specific size in the selected spec. Use the search box to look for specific components in the Pipe Spec Viewer.

Any changes to the size and spec lists are both updated in Pipe Spec Viewer and the Part Insertion panel on the ribbon.

Ortho Single-Line Piping Enhancements

In this release, ortho single-line piping offers more enhancements including a new interface for some piping criteria providing better control when you display piping in a single-line representation in orthographic drawings.

AutoCAD Map 3D 2024

Coordinate System Update

AutoCAD Map 3D 2024 supports the new coordinate systems in the following categories:

  • SnakeGrid EWR2
  • NAD83(CSRS) / Alberta 3TM

Refer to the 2024 Help file for further information 

AutoCAD Electrical 3D 2024

Pipe Spec Viewer Enhancements

Create a schematic symbol table from schematic reports.

The schematic report lists the symbols used in the project along with its description in a table. You can also surf through a particular symbol that is used in various locations of the project.

Wire Type Synchronisation

Wire type can now be synchronized for all wires in the network with the same signal code across the drawings.

In previous releases, when you update the type of the wire connected to the source arrows, the destination wire type was not updated. In AutoCAD Electrical 2024 toolset, when the wire type is updated at the source arrow, all wires in the network are updated to the same wire type of the source. New wire layers are created along with its properties if the destination drawing doesn’t contain the new wire type.

Refer to the 2024 Help file for further information 

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Connected Infrastructure Design with the Autodesk Architecture Engineering and Construction Collection

Connected infrastructure design with the Autodesk Architecture Engineering and Construction Collection
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Connected Infrastructure Design with the Autodesk Architecture Engineering and Construction Collection

Civil engineering projects involve complex designs and planning. For a successful project, the various components of the design and planning process must work together seamlessly. Autodesk’s Architecture Engineering and Construction Industry Collection offers a suite of software tools that allow for connected design in infrastructure projects. The collection integrates different applications, including Civil3D, Revit, Autodesk Docs, and InfraWorks, to enable civil engineers to work collaboratively and efficiently. This blog post will explore how Civil3D works with other applications in the collection, the benefits of connected design for civil engineers, and infrastructure projects.

How Does Civil3D Work With Other Applications in the Collection?

Civil3D is a software tool for civil engineers that helps in the design and analysis of infrastructure projects such as roads, highways, and land development. Civil3D works seamlessly with other applications in the collection to allow for connected design in infrastructure projects.

Revit is a software tool for architects and engineers that allows for the creation of detailed building models. Revit can import Civil3D data, allowing architects to see how buildings interact with the surrounding infrastructure.

Autodesk Docs is a cloud-based document management system that enables teams to collaborate on project documentation in real-time. Civil engineers can use Autodesk Docs to manage project documentation, including design plans, construction schedules, and specifications.

InfraWorks is a software tool that allows for the creation of 3D models of infrastructure projects. Civil engineers can use InfraWorks to visualize the impact of infrastructure projects on the surrounding environment. InfraWorks can also import data from Civil3D, enabling the creation of detailed 3D models of infrastructure projects.

The Benefits of Connected Design for Civil Engineers and Infrastructure Projects

Connected design offers several benefits for civil engineers and infrastructure projects. Let’s explore some of these benefits in more detail.

Improved Collaboration

One of the main benefits of connected design is improved collaboration between engineers and other members of the project team. By using software tools like Civil3D, Revit, Autodesk Docs, and InfraWorks, engineers can work together in real-time to make changes and updates to the model. This collaborative approach can lead to more efficient and effective decision-making, which can ultimately save time and reduce errors in the design process. Connected design also allows for better communication between team members, as everyone has access to the same data and can easily share their ideas and feedback.

Streamlined Design Process Connected design also streamlines the design process for civil engineers. With software tools like Civil3D, engineers can create accurate and detailed 3D models of their designs, which can be easily imported into other applications like Revit and InfraWorks. This integration between different software tools eliminates the need for manual data transfer, which can be time-consuming and error-prone. The streamlined design process also allows for faster iteration and decision-making, as engineers can quickly make changes and updates to the model based on feedback from other team members.

More Accurate and Detailed Modeling

Connected design enables civil engineers to create more accurate and detailed models of their designs. With software tools like Civil3D, engineers can create 3D models that accurately represent the real-world conditions of the project site. This level of detail allows engineers to analyze and test their designs more thoroughly, which can help identify potential issues and prevent costly mistakes during construction. More accurate and detailed modeling also enables engineers to optimize their designs for efficiency, reducing the overall cost and environmental impact of the project.

Better Data Management Connected design also provides better data management for civil engineers. With software tools like Autodesk Docs, engineers can store and manage all project data in one central location. This eliminates the need for manual data transfer and ensures that all team members have access to the most up-to-date information. Better data management also enables engineers to track changes and updates to the design over time, which can be helpful for future maintenance and repairs.

Enhanced Visualisation

Finally, connected design enables enhanced visualization for civil engineers. With software tools like InfraWorks, engineers can create 3D models of entire cities and infrastructure projects, which can be used to visualize the impact of the project on the surrounding environment. Enhanced visualization can also be helpful for presenting designs to stakeholders and the public, as it provides a clear and detailed representation of the project.

Unlocking the Potential of Connected Civil Engineering Design with Autodesk's AEC Industry Collection

Civil 3D, InfraWorks, and Revit are all part of the Autodesk Architecture, Engineering, and Construction (AEC) industry collection, and are designed to work together for connected design workflows.

InfraWorks is used for creating and visualizing large-scale infrastructure projects, such as roads, highways, and airports. It provides tools for creating 3D models of proposed designs, analyzing the impacts of these designs on the surrounding environment, and sharing and collaborating with other stakeholders.

Civil 3D, on the other hand, is focused on detailed civil engineering design, such as grading, drainage, and road design. It allows for the creation of detailed design models, analysis of earthwork quantities, and the creation of construction documentation.

Revit is a BIM software that provides tools for creating and managing detailed 3D models of buildings and structures. It can be used to create and analyze structural designs, as well as to manage building information throughout the design and construction process.

When used together, these tools enable a connected design workflow that allows for the creation and analysis of both the infrastructure and the buildings and structures that will be integrated into it. InfraWorks can be used to create a preliminary design of the infrastructure project, which can then be imported into Civil 3D for detailed design and analysis. Revit models can also be integrated into the design process, allowing for the creation of detailed building information models that can be analyzed in the context of the surrounding infrastructure.

Overall, the connected design workflow enabled by these tools allows for greater collaboration and efficiency throughout the design and construction process, leading to better outcomes for infrastructure projects.

 
 

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AutoCAD vs. AutoCAD Civil 3D vs. Revit

AutoCAD is a general-purpose CAD software used for 2D drafting and 3D modeling, whereas Civil 3D is specifically designed for civil engineering tasks such as road design and land development. Revit is a BIM software used for building design and construction documentation. While AutoCAD and Civil 3D are more focused on geometric design, Revit allows for the creation of detailed 3D models with parametric design features. Civil 3D and Revit also offer collaboration features such as cloud-based sharing and real-time updates, which are not available in AutoCAD. The choice between these software depends on the specific needs and tasks of the project.

FeaturesAutoCADCivil 3DRevit
2D DraftingYesNoYes
3D ModelingYesYesYes
Geometric DesignYesYesLimited
Civil Engineering DesignNoYesYes
Road DesignNoYesLimited
Land DevelopmentNoYesLimited
BIM FeaturesNoNoYes
Parametric DesignNoNoYes
Cloud-Based SharingNoYesYes
Real-Time UpdatesNoYesYes
Bridge DesignNoYesYes
TopographyNoYesYes
Civil Structural EngineeringNoYesYes

 

Civil 3D vs. Infraworks

Civil 3D and InfraWorks are both part of the Autodesk AEC industry collection and are commonly used for civil engineering and infrastructure design projects. While they share some similarities, they have distinct differences in terms of their focus and capabilities.

Civil 3D is primarily focused on detailed design for civil engineering projects, such as grading, drainage, and road design. It is a powerful tool for creating accurate 3D models of proposed designs and analysing earthwork quantities, as well as for creating construction documentation. Civil 3D is ideal for engineers who need precise control over the design process and require a high level of detail and accuracy.

InfraWorks, on the other hand, is focused on conceptual design and visualization for large-scale infrastructure projects, such as highways, airports, and rail networks. It provides tools for creating 3D models of proposed designs, analyzing the impacts of these designs on the surrounding environment, and sharing and collaborating with other stakeholders. InfraWorks is ideal for early-stage design, where the focus is on understanding the potential impacts of a project and communicating that information to stakeholders.

When used together, Civil 3D and InfraWorks enable a connected design workflow that allows for the creation and analysis of both the detailed civil engineering design and the larger-scale infrastructure design. Civil 3D can be used to create detailed design models, which can then be imported into InfraWorks for visualisation and analysis in the context of the surrounding environment. InfraWorks models can also be used to create preliminary designs that can be refined and detailed in Civil 3D.

A feature comparison matrix for Civil 3D and InfraWorks might include the following:

FeatureCivil 3DInfraWorks
Detailed designYesNo (focused on conceptual design)
Earthwork quantitiesYesNo
Terrain modelingYesYes
Analysis toolsYesYes
VisualisationLimited (focused on detailed design)Extensive (focused on conceptual design)
CollaborationLimited (focused on detailed design)Extensive (focused on conceptual design)

Overall, the connected design workflow enabled by Civil 3D and InfraWorks allows for greater collaboration and efficiency throughout the design and construction process, leading to better outcomes for infrastructure projects. Civil 3D is ideal for detailed design, while InfraWorks is ideal for early-stage design and visualisation.

Empowering Civil Engineering Design with Dynamo for Civil 3D: Streamline Workflows and Boost Efficiency

Dynamo for Civil 3D is a powerful tool that allows users to automate complex design tasks and create custom workflows for Civil 3D. Dynamo is a visual programming language that can be used to create custom scripts that automate repetitive design tasks, such as creating road alignments, profiles, and surfaces.

With Dynamo, Civil 3D users can create custom tools and workflows that are tailored to their specific project needs. For example, users can create scripts that automatically generate designs based on predefined parameters, or scripts that analyze and optimize designs for cost and efficiency.

The use of Dynamo for Civil 3D can significantly streamline the design process, reduce errors, and improve project outcomes. By automating repetitive tasks, engineers and designers can focus on higher-level design decisions and creative problem-solving.

Connected Infrastructure Design

The Autodesk Architecture Engineering and Construction Collection is a powerful suite of software programs that can help architects create better designs and collaborate more effectively with other professionals in the construction industry. By using programs such as Revit, Navisworks, and Docs, architects can create digital models of buildings and share them with other stakeholders, streamlining the design process and reducing errors. By collaborating with MEP/HVAC, Structural and Civil engineers and designers, architects can ensure that their designs are not only visually appealing but also practical and functional, resulting in better-performing buildings that meet safety and regulatory requirements.

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The Autodesk Architecture, Engineering and Construction Collection streamlines design, analysis, and visualization for architecture, engineering, construction, infrastructure, and manufacturing industries. The suite of software programs improves efficiency, reduces errors and rework, and increases cost-effectiveness.

Connected Design with Architecture Engineering and Construction Collection

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Connected Architecture Design with the Autodesk Architecture Engineering and Construction Collection

Connected Architecture Design with the Architecture Engineering and Construction Collection
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Connected Architecture Design with the Autodesk Architecture Engineering and Construction Collection

The field of architecture has come a long way from hand-drawn sketches and blueprints. With the rise of technology, architects now have access to a wide range of software tools that can help them design and construct buildings more efficiently. One such tool is the Autodesk Architecture Engineering and Construction (AEC) Collection, a suite of software programs designed to facilitate connected design and collaboration among architects, engineers, and other construction professionals.

Understanding Autodesk AEC Collection

The Autodesk AEC Collection is a comprehensive suite of software programs that includes tools for building information modeling (BIM), 2D and 3D design, visualization, and analysis. It includes software programs such as Revit, AutoCAD, Navisworks, and Docs, among others. By using the AEC Collection, architects can create, manage, and share their design data more effectively, resulting in a more streamlined and efficient design process.

The Benefits of Connected Architecture Design

Connected design refers to the process of collaborating with other professionals involved in the construction process. By working together and sharing information, architects, engineers, and builders can reduce errors, speed up the design process, and ultimately create better buildings. Connected design also enables architects to incorporate feedback from other stakeholders, resulting in a more comprehensive and effective design.

Collaborating with Revit in AEC Collection

One of the key tools in the AEC Collection is Revit, a BIM software program that allows architects to design and collaborate on building projects in real-time. Revit enables architects to create a digital model of a building, complete with all the necessary information, such as dimensions, materials, and structural details. This model can then be shared with other professionals in the construction process, such as engineers and builders, to facilitate collaboration and ensure a more efficient design process.

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Connecting with Navisworks and Docs

Navisworks and Docs are two other software programs included in the AEC Collection that can help streamline the design process. Navisworks is a project review software that allows architects and engineers to visualise and analyse their designs in 3D. This can help identify any potential clashes or issues before construction begins, reducing the likelihood of errors and delays. Docs, on the other hand, is a cloud-based collaboration tool that enables architects to share and manage design data with other professionals in real-time, from any location.

AutoCAD vs. AutoCAD Architecture vs. Revit

While all three software programs are used in the architecture industry, they serve different purposes. AutoCAD is a 2D drafting and design software program, while AutoCAD Architecture is a 3D design tool specifically for architects. Revit, on the other hand, is a BIM software program that enables architects to create digital models of buildings with all the necessary information. While each program has its own strengths and weaknesses, architects can use them together in the AEC Collection to create a more comprehensive and effective design.

Tool/CommandAutoCADAutoCAD ArchitectureRevit
2D drafting✔️  
3D design ✔️✔️
Walls ✔️✔️
Doors ✔️✔️
Windows ✔️✔️
Stairs ✔️✔️
Roofs ✔️✔️
Slabs/Floors ✔️✔️
Structural elements  ✔️
MEP/HVAC  ✔️
Building Information Modelling (BIM)  ✔️

Collaboration with Other Disciplines in AEC Collection:

The AEC Collection also includes software programs designed for MEP/HVAC, Structural and Civil engineering and design. By working together with these professionals, architects can ensure that their designs are not only visually appealing but also practical and functional. MEP/HVAC software programs such as AutoCAD MEP and Revit MEP enable architects to create accurate and detailed mechanical, electrical, and plumbing (MEP) systems. This ensures that these systems are integrated seamlessly into the building design, resulting in better performance and energy efficiency.

Structural engineering software programs such as Revit Structure and Robot Structural Analysis can help architects design structurally sound buildings that can withstand various forces and loads. By incorporating these programs into the design process, architects can create more efficient and cost-effective designs that meet safety requirements.

Civil engineering software programs such as AutoCAD Civil 3D and InfraWorks enable architects to design roadways, bridges, and other infrastructure projects with accuracy and precision. By working together with civil engineers, architects can ensure that their designs are integrated into the surrounding environment and meet the necessary safety and regulatory requirements.

Connected Architecture Design

The Autodesk Architecture Engineering and Construction Collection is a powerful suite of software programs that can help architects create better designs and collaborate more effectively with other professionals in the construction industry. By using programs such as Revit, Navisworks, and Docs, architects can create digital models of buildings and share them with other stakeholders, streamlining the design process and reducing errors. By collaborating with MEP/HVAC, Structural and Civil engineers and designers, architects can ensure that their designs are not only visually appealing but also practical and functional, resulting in better-performing buildings that meet safety and regulatory requirements.

Ready to get your Design Connected?

Discover how Autodesk Architecture Engineering and Construction Collection can streamline your workflow, increase productivity, and optimise your design process. 

Get up to 20% Off Software or Services!

Contact us to find out how much money you can save on software, training or other services. Fill out the form below, by live chat, phone or email.

P: 1800 490 514 |  E: info@designconsulting.com.au

Connected Design

The Autodesk Architecture, Engineering and Construction Collection streamlines design, analysis, and visualization for architecture, engineering, construction, infrastructure, and manufacturing industries. The suite of software programs improves efficiency, reduces errors and rework, and increases cost-effectiveness.

Connected Design with Architecture Engineering and Construction Collection

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Connected Design with the Autodesk Architecture Engineering and Construction Collection

The Autodesk Architecture, Engineering and Construction Collection streamlines design, analysis, and visualization for architecture, engineering, construction, infrastructure, and manufacturing industries. The suite of software programs improves efficiency, reduces errors and rework, and increases cost-effectiveness.
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Connected Design with the Autodesk Architecture Engineering and Construction Collection

In today’s fast-paced world, the construction industry is continuously evolving with new technology advancements. As technology advances, it becomes essential to have an efficient and connected design process that incorporates design, analysis, and visualization. The Autodesk Architecture, Engineering and Construction Collection is a comprehensive suite of software programs that facilitate this process. This blog post will discuss how the Autodesk Architecture, Engineering and Construction Collection can benefit various industries by connecting design, analysis, and visualization.

Connected Design Workflow: How Software Programs Work Together

The Autodesk Architecture, Engineering and Construction Collection consists of multiple software programs that allow for a connected design workflow. The software programs in the collection work together seamlessly, allowing for efficient design, analysis, and visualization. The collection includes software programs such as AutoCAD, Revit, Navisworks, and more. Each software program is designed to perform a specific task, and when used together, they create a comprehensive design workflow.

Designing with Precision: AutoCAD and Revit in the AEC Collection

The first step in any construction project is design. The Autodesk Architecture, Engineering and Construction Collection includes various software programs that aid in the design process. AutoCAD is a widely used software program that allows for 2D and 3D drafting. AutoCAD is used to create detailed drawings, and it is compatible with other software programs in the collection. Revit is another software program that is used in the design process. Revit allows for BIM (Building Information Modelling), which helps in creating a detailed 3D model of the building. By using Revit, the design process becomes more efficient, as the software program allows for collaboration between various stakeholders.

Revit and Civil 3D: Enhancing Infrastructure and Construction Projects with 3D Modeling and Efficient Design Collaboration

Revit and Civil 3D are commonly used in the AEC industry for infrastructure and construction projects. Revit creates 3D models of buildings, while Civil 3D designs infrastructure projects. Used together, they complement each other and improve the design process by identifying potential design issues in 3D models. Changes made in one software program are automatically updated in the other. This streamlines the design process and helps identify issues early in the design phase.

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How Revit and Advance Steel Work Together to Streamline Steel Design and Fabrication

Revit and Advance Steel are two software programs that can be used together in the architecture, engineering, and construction (AEC) industry. Revit is a building information modeling (BIM) software that is used to create 3D models of buildings, while Advance Steel is a 3D modeling software that is used to design steel structures.

When used together, Revit and Advance Steel can improve the efficiency and accuracy of the design process. For example, an engineer can create a 3D model of a building in Revit and then export it to Advance Steel to design the steel structure. The engineer can then import the steel structure design back into Revit to ensure that it is compatible with the rest of the building design.

In addition, when changes are made in one software program, they are automatically updated in the other software program. This means that any changes made to the steel structure design in Advance Steel will be automatically reflected in the building design in Revit, and vice versa.

Using Revit and Advance Steel together can also help identify potential design issues early in the design phase. The 3D models created in Revit and Advance Steel can be used to identify clashes or conflicts that may have been missed in 2D design drawings. This can help save time and reduce the risk of errors and rework later in the project.

In conclusion, Revit and Advance Steel are powerful software programs that can be used together to improve the efficiency and accuracy of the design process in the AEC industry. The ability to export and import design elements between the two software programs and ensure that changes are automatically updated can streamline the design process and help identify potential issues early in the design phase.

Efficient Analysis with Navisworks and Autodesk Robot Structural Analysis Professional

The Autodesk Architecture, Engineering and Construction Collection includes software programs that aid in the analysis process. Navisworks is a software program that allows for coordination and simulation of construction projects. Navisworks helps in identifying clashes, reducing errors and rework, and creating more efficient designs. Additionally, Autodesk Robot Structural Analysis Professional is used to perform structural analysis of buildings. The software program helps in identifying structural deficiencies and optimizes the design process.

Bringing GIS Mapping and Connected Design Together: A Comprehensive Approach with Autodesk's AEC Collection

In today’s world, design and construction projects require a more comprehensive approach than ever before. With the Architecture Engineering and Construction (AEC) Collection from Autodesk, architects, engineers, and construction professionals have access to a suite of powerful tools that can help them collaborate and work more efficiently. One of the most valuable features of the AEC Collection is its ability to integrate with Geographic Information Systems (GIS) mapping, providing a more accurate and detailed view of project sites and landscapes.

AutoCAD Map 3D is a powerful software tool for GIS mapping, which allows users to access, manage and analyse spatial data. With AutoCAD Map 3D, users can easily import and export data from various sources, such as aerial imagery, satellite imagery, and other GIS data. This software also provides a wide range of tools for data analysis, visualization and editing, making it an essential tool for GIS professionals. Some of the key features of AutoCAD Map 3D include 3D modelling and visualisation, data query and analysis, and advanced geospatial analysis tools. By leveraging these features, users can create accurate and comprehensive maps and spatial data sets for a wide range of applications.

GIS mapping is a critical component of many construction projects, particularly those that involve large-scale developments or infrastructure. By overlaying geographic data such as topography, hydrology, and geology onto a digital map, project teams can better understand the context of their projects and make more informed decisions. The AEC Collection’s integration with GIS mapping tools allows architects, engineers, and construction professionals to access this data within their design software, creating a more seamless and connected workflow.

With the AEC Collection, design professionals can also collaborate with each other in real-time using tools such as Navisworks and Docs. Navisworks allows teams to integrate and coordinate models from multiple disciplines, while Docs enables document management and sharing across teams. By using these tools in conjunction with GIS mapping, project teams can ensure that all stakeholders have access to the most up-to-date information, reducing errors and improving overall project efficiency.

Enhancing Oil and Gas Plant Design with the AEC Collection and Plant 3D

The Architecture Engineering and Construction (AEC) Collection is a powerful suite of software programs designed to facilitate connected design for the architecture industry. One of the key software programs in this collection is Plant 3D, which is specifically designed for oil and gas plant design.

Plant 3D is a comprehensive software program that enables users to design, model, and analyze piping and instrumentation diagrams (P&ID) for oil and gas plants. With its intuitive interface and advanced tools, Plant 3D allows users to create accurate and detailed 3D models of plant layouts, equipment, and piping systems.

One of the key advantages of using the AEC Collection and Plant 3D for oil and gas plant design is the ability to collaborate with other disciplines in the industry, such as civil engineering and structural design. By working together in a connected design environment, designers and engineers can ensure that all aspects of the plant design are integrated seamlessly, from the initial concept through to construction and operation.

In addition, the AEC Collection and Plant 3D offer a range of powerful tools for data management and analysis, enabling users to track and monitor plant performance, optimize plant layouts, and identify potential safety hazards or operational issues.

Some of the key features of Plant 3D include:

  • Intelligent P&ID design and management tools
  • Comprehensive 3D modeling capabilities
  • Advanced piping and instrumentation analysis tools
  • Integration with other AEC Collection software programs, such as Navisworks and Docs

By leveraging these features, designers and engineers in the oil and gas industry can streamline their design processes, improve collaboration, and ensure that their plant designs are optimized for safety, efficiency, and performance.

Enhancing Visualisation with 3DS Max and InfraWorks

Visualisation is an essential part of any construction project. The Autodesk Architecture, Engineering and Construction Collection includes software programs that aid in the visualization process. 3DS Max is a software program that allows for rendering and animation of 3D models. 3DS Max helps in creating realistic visuals, which help in selling designs to clients. Autodesk InfraWorks is another software program that helps in creating visualizations of infrastructure projects. InfraWorks allows for collaboration between various stakeholders, and it helps in creating a more efficient design process.

Streamlining AEC Projects with Autodesk Docs

Autodesk Docs is a powerful document management tool that can help streamline AEC projects when used in conjunction with the Architecture Engineering and Construction Collection (AEC Collection) software. The AEC Collection includes several software programs that are essential for building design and construction, including Revit, Civil 3D, and Advance Steel.

By using Autodesk Docs to manage project documents, stakeholders can easily access and collaborate on project files from anywhere, at any time. This can improve project efficiency and communication, as all team members can stay up-to-date on project progress and changes.

Moreover, the AEC Collection software can be seamlessly integrated with Autodesk Docs, allowing users to store and manage their project files directly within Autodesk Docs. This integration makes it easier for teams to collaborate on project files and ensures that all project documentation is stored in one place, reducing the risk of lost or missing files.

For example, Revit models can be directly linked to Autodesk Docs, allowing team members to access and collaborate on the most up-to-date model at all times. Civil 3D designs can also be stored in Autodesk Docs, making it easy to share and collaborate on complex civil engineering projects.

Overall, by using Autodesk Docs in conjunction with the AEC Collection software, AEC professionals can streamline their project workflows, improve collaboration and communication, and ensure that project documentation is secure and easily accessible.

AEC Collection in Various Industries: Architecture, Engineering, Construction, Infrastructure, and Manufacturing