3D Architectural Rendering
3D architectural rendering uses specialized system software
to take a 2D (flat) picture and create a 3D representation. A wireframe model
is created and then texture, colors, lighting, shading, and materials are added
to make the picture look more realistic. Outside of entertainment, many numbers
of business, industries are also using 3D rendering and animation, and you will
find it used in design/architecture, gaming, marketing/advertising, interior
design, and real estate and
construction.
Advantages of 3D architectural rendering services
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3D rendering is attractive to customers
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It creates exact presentations and drawings
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It gives the ability to troubleshoot early on
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It edits the design in real-time
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3D architectural rendering is cost-effective
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It enhances the marketing experience
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Creates virtual reality and simulation opportunities
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Highlight the real estate property’s best feature
3D rendering services and designs for your real estate
business
Rendering is a final state of creating a picture and
animation for audience view, our software’s and dedicated 3D architectural
rendering programs have different methods of automating the rendering process.
3D architectural rendering is an intensive process and it may take hours to
complete in some cases, depending on the complexity, size, and resolution of
the picture being created. Our professional 3D experts can perform a variety of
3D architectural rendering techniques include
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Ray tracing
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HDR rendering
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Z-buffer triangle rasterization
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Scanline rendering
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Radiosity
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Path-tracing and more
Ray tracing
Ray tracing is an intensive process that has traditionally
been used for non-real time 3D rendering, and it creates stunning photo-realistic
imagery for applications like feature advertising and films.
HDR rendering helps us to see fine details on a variety of light
conditions and it uses tone mapping and other techniques to display a high dynamic range of vision.
Z-buffer triangle rasterization
It is one of the most common and best developed 3D renderings
techniques using today and it is used to help the system determine whether an object will be visible on-screen or out of view.
Scanline rendering
It is an advanced 3D rendering technique and speeds up
processing, and it maintains the active polygon spans from one scanline
rendering to the next.
Radiosity rendering
Radiosity is a 3D rendering method that works well on
surfaces that reflect the light diffusely and radiosity rendering can add
realism by providing soft shadows, natural light, and subtle effects of color.
Path tracing
Path tracing and rendering is an enhanced ray tracing process
that creates the depth of field, shadows, ambient occlusion, motion blur,
caustics, light scattering, indirect lighting, and other effects.
