In any Building Information Modeling (BIM) workflow, models progress through different stages of development. Many begin as rough concepts but then evolve into detailed, data-rich representations used for design coordination, construction documentation, and facility management. But how do teams align on the specificity and precision appropriate to the phase?

That’s where Levels of Development (LOD) come in. Broadly, LOD defines the specificity of both the geometry and the data associated with each model element. It helps teams determine how much information is available at any given stage, making it easier to manage expectations and remain focused as a project progresses.

Vectorworks provides the tools to develop models progressively, track LOD status, and share the right information at the right time. Let’s explore the basics of LOD in practice and how Vectorworks makes managing it more efficient.

LOD vs. Level of detail: What’s the difference?

While Level of Development (LOD) and Level of Detail may sound similar, they serve different purposes:

  • LOD (Level of Development) defines how much trust can be placed in an element’s geometry and data. It specifies what is known about an object at a given stage, helping teams make informed decisions about design, construction, and maintenance.
  • Level of Detail is only about how detailed an object appears visually, without considering the accuracy of its metadata, dimensions, or reliability.

For example, a door at LOD 200 might appear as a simple rectangular placeholder with rough dimensions and no specific properties. At LOD 300, the same door has precise dimensions, material assignments, and performance specifications—making it suitable for construction documentation. The difference isn’t just how the door looks—it’s about how much data is available for cost estimation, ordering, and installation coordination.

The 3D massing model represents basic information. Parameters like area, height, volume, location, and orientation are defined.

LOD 200: Schematic Design

  • What it represents: A preliminary model with basic geometry and estimated dimensions, starting to define relationships between elements.
  • What’s included: Approximate size, shape, and location of components.
  • Metadata may include general classifications (e.g., “wall” vs. “structural wall”) but not detailed specifications.

At this stage, objects may resemble the final design, but they don’t yet have the data needed for construction documents or precise cost estimation.

Generic elements are modeled with approximate size, shape, location, and quantities.

LOD 300: Detailed Design

  • What it represents: A model developed with precise geometry and associated data used for construction documentation and coordination.
  • What’s included: Precise dimensions, spatial relationships, materials, and basic performance specifications (e.g., door material and swing direction).
  • Information is specific enough for cost estimation and approval by engineers/contractors but not yet detailed enough for fabrication.

A door at LOD 300 is no longer just a placeholder — it has the correct size, swing, and material properties, making it ready for construction drawings but not manufacturing.

Model is defined by elements with specific assemblies, precise size, shape, location, and quantities.

LOD 350: Coordination Model

  • What it represents: A refined model that accounts for how elements interact, ensuring they fit together without conflicts.
  • What’s included: Connections between disciplines (structural, mechanical, plumbing, electrical), clash detection-ready geometry with accurate alignment and interfaces, and more detail on supports, anchor points, and penetrations.

This stage helps prevent costly errors—like a beam running through a ventilation duct—by ensuring that all systems are correctly coordinated before construction begins.

LOD 400: Fabrication & Installation

  • What it represents: A model developed to support manufacturing, prefabrication, and on-site installation.
  • What’s included: Precise fabrication details—including connections, fasteners, and assembly instructions—and the data needed for procurement and pre-assembly, such as manufacturer specifications and installation tolerances.

At this stage, a steel beam isn’t just a shape—it includes bolt-hole placements, weld details, and materials sourced from a specific manufacturer. LOD 400 is when a model stops being just a reference and starts becoming an instruction set for manufacturers and contractors.

LOD 500: As-Built (Digital Twin & Lifecycle Management)

  • What it represents: A verified model reflecting the actual built conditions of a project.
  • What’s included: Field-verified dimensions, materials, and installed locations.
  • Metadata for asset tracking, maintenance schedules, and lifecycle management.
  • Can be used for facility operations, renovations, and long-term asset management.

LOD 500 isn’t just about having a complete model—it’s a tool for managing the building’s future, from HVAC servicing to fire alarm system upgrades.

How Vectorworks supports LOD workflows

Vectorworks provides BIM-integrated modeling tools that allow you to refine both geometry and data reliability as a project progresses through different LOD stages. Instead of rebuilding elements at each phase, you can develop your models incrementally, ensuring that objects meet the required level of accuracy and information for design coordination, construction documentation, and facility management.

Parametric objects for scalable detail

  • What it does: Vectorworks allows you to create objects that store multiple levels of geometric and metadata detail, making it possible to refine elements as project needs evolve.
  • Why it helps: Instead of redrawing elements at every LOD stage, you can adjust and enhance their complexity while retaining data consistency.

A wall may start as a simple volume (LOD 200), later include material layers and framing details (LOD 300), and finally be ready for fabrication with fasteners and manufacturer data (LOD 400).

Tracking model completeness with data visualisation

  • What it does: You can assign custom visual attributes to elements based on your embedded data, helping teams to see at a glance which objects are incomplete, under development, or fully defined at any stage.
  • Why it helps: This method provides a visual way to confirm model reliability and helps you and contractors identify missing information before a project reaches a critical phase.

If a window lacks manufacturer specifications, it can be flagged for missing data before construction begins.

Smart data management without the hassle

  • What it does: The Data Manager in Vectorworks allows you to attach, edit, and manage structured data without manually entering every detail.
  • Why it helps: Ensures consistent, structured data that evolves alongside the model, making it more reliable for scheduling, cost estimation, and asset management.

Instead of keeping maintenance schedules in a separate document, you can attach that data directly to building elements for future facility management at LOD 500.

You deserve to design seamlessly

LOD provides a structured approach to developing BIM models, ensuring that geometry and data remain accurate and reliable at every stage. With Vectorworks, you can refine objects progressively, track missing information effortlessly, and export structured data without disruptions. Parametric objects, data visualisation, IFC export, smart data management, and classification tools work together to keep your workflow smooth, organised, and ready for collaboration.

Whether you’re focused on design coordination, construction documentation, or facility management, Vectorworks helps you maintain clarity and precision—so you can design with confidence.