New Year Special Limited Time 65% Discount Offer - Ends in 0d 00h 00m 00s - Coupon code: get65

Autodesk ACP-01301 Exam Topics, Blueprint and Syllabus

Autodesk Certified Professional - Revit for Architectural Design

Last Update December 25, 2024
Total Questions : 145

Our Autodesk Certified Professional ACP-01301 exam questions and answers cover all the topics of the latest Autodesk Certified Professional - Revit for Architectural Design exam, See the topics listed below. We also provide Autodesk ACP-01301 exam dumps with accurate exam content to help you prepare for the exam quickly and easily. Additionally, we offer a range of Autodesk ACP-01301 resources to help you understand the topics covered in the exam, such as Autodesk Certified Professional video tutorials, ACP-01301 study guides, and ACP-01301 practice exams. With these resources, you can develop a better understanding of the topics covered in the exam and be better prepared for success.

ACP-01301
PDF

$36.75  $104.99

ACP-01301 Testing Engine

$43.75  $124.99

ACP-01301 PDF + Testing Engine

$57.75  $164.99

Autodesk ACP-01301 Exam Overview :

Exam Name Autodesk Certified Professional - Revit for Architectural Design
Exam Code ACP-01301
Actual Exam Duration The Autodesk ACP-01301 exam duration is 120 minutes (2 hours).
Expected no. of Questions in Actual Exam 60
What exam is all about Autodesk ACP-01301 is an exam that tests the knowledge and skills of individuals in using Autodesk software for designing and engineering purposes. The exam covers topics such as creating and modifying 2D and 3D models, managing files and data, collaborating with others, and using advanced features and tools. Passing the exam demonstrates proficiency in using Autodesk software and can lead to certification as an Autodesk Certified Professional.
Passing Score required The passing score required in the Autodesk ACP-01301 exam is 70%. This means that you need to answer at least 70% of the questions correctly to pass the exam and earn the Autodesk Certified Professional (ACP) certification. The exam consists of multiple-choice questions and performance-based tasks that assess your knowledge and skills in using Autodesk software. To prepare for the exam, it is recommended to take training courses, practice with the software, and review the exam objectives and sample questions provided by Autodesk.
Competency Level required I don't have access to the latest information about the Autodesk ACP-01301 exam. However, based on the previous version of the exam, the competency level required for the Autodesk ACP-01301 exam is intermediate to advanced. The exam is designed for professionals who have experience using Autodesk software and are familiar with the concepts and workflows related to the software. Candidates should have a good understanding of the software's features, tools, and functions, as well as the ability to apply them to real-world scenarios. Additionally, candidates should have a solid understanding of industry standards and best practices related to the software.
Questions Format The Autodesk ACP-01301 exam consists of multiple-choice questions.
Delivery of Exam I do not have access to the current delivery format of the Autodesk ACP-01301 exam. However, according to the Autodesk website, the exam can be taken online or in-person at an Autodesk Authorized Certification Center. It is recommended to check with the certification center or Autodesk website for the most up-to-date information on exam delivery.
Language offered The Autodesk ACP-01301 exam is offered in English language only.
Cost of exam I don't have access to the current pricing information of Autodesk ACP-01301 exam. However, you can visit the official website of Autodesk or contact their customer support to get the latest pricing details.
Target Audience The Autodesk ACP-01301 certification is designed for professionals who work with Autodesk software, particularly in the areas of architecture, engineering, and construction. The target audience for this certification includes: 1. Architects: Architects who use Autodesk software for designing and modeling buildings can benefit from this certification. They can learn advanced techniques for creating complex designs and improving their workflow. 2. Engineers: Engineers who use Autodesk software for designing and analyzing structures can benefit from this certification. They can learn how to use the software to optimize designs and improve their efficiency. 3. Construction professionals: Construction professionals who use Autodesk software for project management, scheduling, and cost estimation can benefit from this certification. They can learn how to use the software to improve their project management skills and increase their productivity. 4. Students: Students who are pursuing a career in architecture, engineering, or construction can benefit from this certification. It can help them gain a competitive edge in the job market and demonstrate their proficiency in Autodesk software. Overall, the Autodesk ACP-01301 certification is ideal for anyone who wants to enhance their skills and knowledge in Autodesk software and advance their career in the AEC industry.
Average Salary in Market I don't have access to current market data. However, according to Payscale, the average salary for an Autodesk Certified Professional (ACP) ranges from $50,000 to $100,000 per year, depending on the job title, experience, and location. It's important to note that certification alone does not guarantee a specific salary, as other factors such as job performance, industry demand, and negotiation skills also play a role in determining compensation.
Testing Provider I do not have the ability to provide the Autodesk ACP-01301 exam for testing. However, you can visit the Autodesk website to find authorized testing centers or online proctoring options to take the exam.
Recommended Experience I don't have personal experience, but I can provide you with the recommended experience for Autodesk ACP-01301 exam. According to Autodesk, the recommended experience for the ACP-01301 exam includes: 1. At least 400 hours of hands-on experience with Autodesk software, including AutoCAD, Revit, or Inventor. 2. Familiarity with the basic concepts of building design and construction. 3. Knowledge of industry-standard workflows and best practices for using Autodesk software. 4. Understanding of the principles of 3D modeling, visualization, and rendering. 5. Experience with project management and collaboration tools, such as Autodesk BIM 360. 6. Familiarity with the Autodesk Certified Professional program and the exam format. 7. Knowledge of the Autodesk certification process and requirements. It is important to note that these are only recommendations, and individuals with different levels of experience may still be able to pass the exam with proper preparation and study.
Prerequisite The prerequisite for Autodesk ACP-01301 exam is to have a basic understanding of Autodesk software and its applications. Additionally, candidates should have experience in using Autodesk software for at least 400 hours or have completed an Autodesk-approved training course. It is also recommended that candidates have a basic understanding of design principles and workflows.
Retirement (If Applicable) Autodesk usually announces the retirement date of their exams on their official website. It is recommended to check their website or contact their support team for the latest information on the retirement date of the ACP-01301 exam.
Certification Track (RoadMap): The Autodesk ACP-01301 exam is part of the Autodesk Certified Professional (ACP) program, which is a certification track or roadmap for professionals who use Autodesk software in their work. The ACP program offers certifications in various Autodesk software products, including AutoCAD, Revit, Inventor, and Maya, among others. The ACP-01301 exam specifically focuses on Autodesk Certified Professional: Revit for Architectural Design. It is designed to test the candidate's knowledge and skills in using Revit for architectural design, including creating and modifying building elements, managing views and sheets, and collaborating with other team members. To become certified in Autodesk ACP-01301, candidates must pass the exam and meet the eligibility requirements, which include having at least 400 hours of hands-on experience using Revit for architectural design. The certification is valid for three years and can be renewed by passing a recertification exam or earning continuing education credits.
Official Information https://www.autodesk.com/certification/all-certifications/revit-architectural-design-professional
Take Self-Assessment Use Autodesk ACP-01301 Practice Test to Assess your preparation - Save Time and Reduce Chances of Failure

Autodesk ACP-01301 Exam Topics :

Section Objectives
Modeling and materials
  • Create and modify architectural and site elements
    • Work with walls and wall types
      i. May include creating and modifying compound, stacked, and linear curtain walls; wall alignment; editing a wall profile; layer wrapping; wall joints; embedded walls; sweeps and reveals; wall constraints; attaching a wall to a floor; and advanced editing of wall types.
    • Create and modify floors, roofs, and ceilings
      i. May include edge conditions; boundary conditions; slope; variable thicknesses; advanced editing of floor, roof, and ceiling types; and editing a ceiling grid to accommodate ceiling related objects.
    • Work with circulation elements: stairs, ramps, and railings
      i. May include creating a stair and landings by sketch; modifying an existing stair; and advanced editing of stairs, ramps, and railing types.
    • Cut openings in building elements
      i. May include openings in walls, floors, ceilings, roofs, structural beams, braces, and structural columns.
    • Work with columns
      i. May include placing and modifying columns on a grid; and understanding the difference between architectural and structural columns.
    • Understand the functions and limitations of model and detail groups
    • Use massing elements
      i. May include knowing what a mass is and how to use the creation methods available: sweep, extrusion, revolve, blend, voids, etc
    • Work with site and topography tools
      i. May include knowing how to use topography and building pad creation methods.
  • Use and modify element materials
    • Associate a material with an object or a style
    • Create and edit a basic material and its properties: May include understanding how material settings and properties affect the appearance of an associated element.
    • Load a material library
  • Use selection sets
    • Create, edit, and load selection sets
  • Create and modify rooms and areas
    • Create, edit, and delete rooms
      i. May include room constraints; area and volume computations; room separation lines; controlling room inventory; and understanding the impact of bounding elements.
    • Create, edit, and delete areas
      i. May include creating an area plan, adding area boundaries, and setting the area type.
Families
  • Manage family categories and types
    • Configure family types
      i. May include adding, renaming, and duplicating family types; and editing properties of a family type.
    • Understand concepts of family categories and types
      i. May include sub-categories, simple formulas, and nested families (annotation and model).
    • Differentiate between various types of families
      i. May include system, component/loadable, and in-place families.
    • Transfer system families between projects
  • Use family parameters
    • Create or delete an instance or type parameter
    • Determine the appropriate parameter discipline, type, and grouping
      i. May include text, number, Boolean (yes/no), etc.
    • Modify a room calculation point
  • Create family content
    • Select the appropriate family template
    • Add reference planes, lines, and dimensions
    • Create geometry
      i. May include forms, symbolic lines, model lines, and visibility settings.
    • Associate dimensional parameters
      i. May include constrain, flex, align, lock, and labels.
    • Work with hosted and non-hosted elements in a model
      i. May include wall-based, floor-based, face-based, workplane-based, etc.
Documentation
  • Annotate views
    • Use Dimensions
      i. May include dimension precision; editing witness lines; locking/revealing dimensional constraints; spot dimensions; and custom dimension styles
    • Create and modify annotation families for documentation 4
      i. May include creating labels and tags; and calculating values.
    • Use a matchline
      i. May include how to create a match line and assign a view reference.
  • Create and use detail components
    • Load and create a detail component family
    • Add a detail component
    • Define a repeating detail
  • Demonstrate an understanding of phases and design options
    • Use phase filters
      i. May include an understanding of graphic display overrides and the use of phase filters.
    • Assign, display, and accept primary design options
      i. May include switching between design options and option sets.
  • Use document revisions
    • Understand sheet issues/revisions
      i. May include revision numbering; issuing a revision; showing the tag and/or cloud; and settings such as per project/per sheet.
    • Create a revision cloud
  • Configure export and print settings
    • Configure export settings
      i. May include export options, file format, and reports
    • Configure custom print setup
      i. May include hidden line views, saving configurations, and options.
  • Work with color schemes
    • Define and use area and room color schemes
    • Create a color scheme legend
Views
  • Apply advanced view techniques
    • Understand browser organization
      i. May include discipline, phase, and view types
    • Set view properties
      i. May include view scale; locking views; view orientation (true north and project north); view range; underlays; temporary view properties; associating levels and views with a scope box; and applying a section box to control the display of a view.
    • Apply visibility/graphic overrides 5
      i. May include element visibility (not including Analytical); filters; graphic overrides for linked files and object styles; and controlling workset visibility.
    • Apply and edit view templates
      i. May include understanding the importance of using view templates; the implications of altering existing view templates; and temporary view properties.
    • Create and manage call-out views
      i. May include detail views, reference views, and modifying sketch boundaries.
    • Set up a view for rendering
      i. May include perspective and camera views; shading; lighting; and basic rendering.
    • Set up a sheet
      i. May include adding a title block, view alignment, guide grids, and adding revisions on sheet
    • Apply worksharing display modes to a view
    • Use duplicate views
      i. May include understanding the difference between independent and dependent views; creating dependent views; and applying dependent views.
  • Manage, create, and modify schedules
    • Develop and customize schedules
      i. May include material takeoffs, sheet lists, etc.
    • Manipulate schedule data
      i. May include fields; filters; sorting/grouping; formatting (including conditional formatting); itemize every instance (or not); and adding calculated/combined parameters.
Revit project management
  • Link or import files
    • Understand the difference between imported and linked files
      i. May include CAD files, images, PDFs, and positioning
    • Manage linked files
      i. May include adding at the proper position, removing, loading, and reloading.
    • Understand the concept of copy and monitor elements from a linked file
      i. May include how to conduct a coordination review.
  • Define worksharing concepts
    • Understand why worksharing features are used
      i. May include worksets; central file; file synchronization; element borrowing/relinquishing and cloud worksharing.
  • Use levels and grids
    • Modify level and grid types
    • Edit level and grid properties
      i. May include 2D and 3D level extents.
  • Transfer project standards and establish shared coordinates
    • Transfer and review project standards
    • Understand the concept of shared coordinates
      i. May include an understanding of project and survey points; internal origin; and acquire/publish.
  • Edit object styles
    • Control the appearance of elements at a project level
      i. May include object styles; line styles (patterns, weights, colors); halftones/underlay; and understanding the element visibility hierarchy.
  • Conduct maintenance on a Revit project
    • Understand and use purge
      i. May include understanding the results of purging a model using Purge All and Purge Selected.
    • Understand and use the audit and compact tools
      i. May include an understanding of how to use the tools as well as when and why it is important to use them.
    • Assess review warnings in Revit
    • Check a model for interferences
      i. May include understanding the principles and importance of Interference checks
  • Understand shared, project, and global parameters
    • i. May include understanding the use of shared, project, and global parameters.