AutoCAD® is computer-aided design (CAD) software that architects, engineers and construction professionals rely on to create precise 2D and 3D drawings.
Draft, annotate and design 2D geometry and 3D models with solids, surfaces and mesh objects
Automate tasks such as comparing drawings, adding blocks, creating schedules and more
Customize with add-on apps and APIs
Features:
AutoCAD® 2021 software includes industry-specific toolsets; improved workflows across desktop, web and mobile; and new features such as drawing history.
Work faster with specialized toolsets
AutoCAD includes industry-specific features and intelligent objects for architecture, mechanical engineering, electrical design and more.
Automate floor plans, sections and elevations
Draw piping, ducting and circuiting quickly with parts libraries
Auto-generate annotations, layers, schedules, lists and tables
Use a rules-driven workflow to accurately enforce industry standards
Watch Video Here to learn Some Important Autocad Commands for job interviews.
Commands Explained here are text, Mtxt, dimension, leaders, hatch, attributes,attdef, ddattxt, block attribute, data extraction, xref, attach, reload, detach, inload, bind, overlay, underlay, frame, clip, distance, angle, area, radius, purge, ltscale, xplode, scale, pedit, model space, paper space, zoom, scale and Border templates
2D drafting, drawing and annotation
What's 2D drafting and drawing? Why 2D CAD software?
2D drafting and drawing is the process of creating and editing technical drawings, as well as annotating designs. Drafters use computer-aided design (CAD) software to develop floor plans, building permit drawings, building inspection plans and landscaping layouts. CAD software for 2D drafting can be used to draft designs more quickly and with greater precision, without using stencils and technical drawing instruments. 2D CAD software also allows users to document and annotate drawings with text, dimensions, leaders and tables.
Collaboration
Importing PDF Files: You can import the geometry, fills, raster images, and TrueType text from a PDF file into the current drawing. The visual fidelity along with some properties such as PDF scale, layers, line weights, and colors can be preserved.
PDF files are a common way of publishing and sharing design data for review and markup. AutoCAD supports creating PDF files as a publishing output for AutoCAD drawings, and importing PDF data into AutoCAD using either of two options:
PDF files can be attached to drawings as underlays, which can be used as a reference when collaborating on projects.
PDF data can be imported as objects, in part or entirely, which can be used a reference and also modified.
If you import PDF data, you can choose to specify a page from a PDF file or you can convert all or part of an attached PDF underlay into AutoCAD objects.
How Objects are Translated
When a PDF file is generated, all supported objects are translated into paths, fills, raster images, markups, and TrueType text. In PDF, paths are composed of line segments and cubic Bézier curves, either connected or independent. However, when a PDF file is imported into AutoCAD-based products, note the following:
curves are converted into circles and arcs if they are within a reasonable tolerance to those shapes. Otherwise, they are converted into 2D polylines.
Elliptical shapes can be converted into 2D polylines, splines, or ellipses depending on how they were stored in the PDF.
As an option, each set of approximately collinear segments can be combined into a polyline with a dashed line type named PDF_Import.
Compound objects such as dimensions, leaders, patterned hatches, and tables result in many separate objects as if these objects were exploded.
Solid-filled areas are imported as 2D solids, or optionally as solid-filled hatches. They are assigned a 50% transparency to make sure that any text within the areas is visible.
Text that used TrueType fonts is preserved, but text that originally used SHX fonts is imported as separate geometric objects.
Raster images generate PNG format files that are attached to the drawing file as external references. These image files are saved in a folder specified by the PDFIMPORTIMAGEPATH system variable, which can also be specified in the Options dialog box, Files tab.
Point objects are converted to zero-length polylines.
Markups are not imported.
Text Created with SHX Fonts After you import a PDF, you can use the PDFSHXTEXT command to convert the geometric representation of any SHX text into multiline text objects. The conversion process compares the selected geometry successively against the selected SHX fonts listed in the dialog box. When the geometry and an SHX font are a close enough match to pass the recognition threshold that you specify, the geometry is converted into multiline text objects. Note: Asian-language big fonts are not supported. You can then use the TXT2MTXT command to combine the multiline text objects that you select into a single multiline text object.
Limitations
When an AutoCAD DWG file is exported as a PDF file, both information and precision are unavoidably lost. It is important to be aware of the degree of visual fidelity that can be reasonably expected.
The data in DWG files are stored as double-precision floating-point numbers, while the data in PDF files are only single precision. This reduction rounds off coordinate values, and the loss of precision is most noticeable in the following cases:
Computed locations such as tangent points, the endpoints of arcs, and the endpoints of rotated lines
Data with a large dynamic range from the largest to the smallest values
Large coordinates in PDF files such as those found in maps
PDF files that were generated with a low dpi (dots per inch) setting
Note: The highest precision setting in a PDF exported from AutoCAD is 4800 dpi.
Protecting a Design
Design concepts often need to be shared with a wider collaborative team. However, the organization or professionals that originate the design can be concerned that the design files might be used or copied in an unauthorized way. Legal liability might also be a concern. When you work with someone else's PDFs, it's possible that the originator created the PDFs to communicate the design's visual aspects but with intentionally reduced precision or data portability. Here's what you might encounter:
PDFs with the dpi deliberately set low to provide only a visual representation of the design at low precision.
PDFs containing only a raster scan of a design. AutoCAD can import the raster image from a PDF, but it doesn't support raster-to-vector conversion. Converting raster images to vector data with specialized software cannot provide the same level of precision as objects created directly with AutoCAD.
If you receive low dpi PDFs or PDFs containing only a raster image, you might want to consider the alternative of relying on a legal agreement with the originator that specifies terms of use and liability.
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