Global Building Information Modelling (BIM) Market: By Component (Software, Services, Hardware); Project Lifecycle Stage (Planning & Design, Construction, Operations & Maintenance); Deployment Mode (On-Premise, Cloud-Based); End Use (Buildings [Commercial, Residential], Infrastructure [Transportation, Utilities, Public Sector], Industrial Facilities, Healthcare & Education, Government Buildings); Application (3D Modelling, 4D Scheduling, 5D Cost Estimation, 6D Sustainability & Energy Modelling, 7D Facility Management); Distribution Channel (Direct Sales [Vendors & Solution Providers], Value-Added Resellers [VARs], Government Procurement Platforms, Online Portals); Region – Market Size, Industry Dynamics, Opportunity Analysis and Forecast for 2025–2034. The report offers the value (in USD Billion) for the above segments.

Market Overview

The Global Building Information Modelling (BIM) Market was valued at USD 12.1 billion in 2024 and is projected to reach USD 31.9 billion by 2034, growing at a CAGR of 10.2% during the forecast period from 2025 to 2034.

The Global Building Information Modelling (BIM) Market is being dramatically influenced by public-sector mandates for the use of digital construction processes and for addressing issues of sustainability and infrastructure modernization. In the U.S.A., the General Services Administration (GSA) requires all major federal building projects to employ BIM standards since 2003, thereby FacultyWiki facilitating data-driven planning and lifecycle management for the sustenance of government facilities. The acceleration of BIM employment within the architecture, engineering, and construction (AEC) industries have therefore followed in private and public domains.

The National Institute of Building Sciences (NIBS), through the National BIM Program and US National BIM Standard (NBIMS-US), develops and maintains consensus standards to guide all BIM implementations in the United States. These standards promote interoperability, model accuracy, and information exchange in the project delivery environment and thus facilitate organized digital workflows in facility design, construction, and operations.
In the European Union, BIM implementation is backed by the European Union Public Procurement Directive (2014/24/EU) which allows the member states to make BIM mandatory for public works. Of the United Kingdom, Germany, and Italy, they have established national BIM strategies through this directive. Thus, it compels mandatory BIM usage for public infrastructure projects. Ultimately, it aims at enhancing cost transparency, sustainability outcomes, and risk reduction in construction.

CDBB now comes under the supervision of BEIS, which is a colonial UK government department. In the UK, the initiative has been used in developing the framework for the UK BIM. This framework, in turn, is intended to promote Level 2 BIM maturity, structured data use throughout the lifecycle of construction, and BIM for design lifecycle across a gamut of applications.
BIM is also required for architectural, structural, and MEP works, in addition to other requirements, by the BCA as part of its Building Information Modelling Roadmap. This also involves representation to the regulatory bodies for large projects proposed in Singapore as part of its campaign in creating a digital delivery ecosystem in the built environment through the government. Such government standards and mandates all over the world have made sure the penetration of BIM across construction, real estate, and infrastructure.

Market Drivers

Government-led digital infrastructure mandates, cost-efficiency goals, and public procurement policies driving BIM adoption 

The Building Information Modeling (BIM) market is primarily driven by public sector policies aimed at modernizing infrastructure, increasing cost transparency, and improving construction quality. To ensure integrated planning and lifecycle facility management, the General Services Administration (GSA) in the US mandates that BIM be used for all significant federal building projects. The National Institute of Building Sciences (NIBS) promotes industry-wide BIM adoption through its U.S. National BIM Standard (NBIMS-US), encouraging structured digital processes in construction. The European Union's Public Procurement Directive (2014/24/EU), which allows member states to require BIM for public projects in the UK, Germany, France, and Italy, is driving the technology's global adoption. For large-scale projects in Singapore, the Building and Construction Authority (BCA) requires BIM for regulatory submissions. In the architecture, engineering, and construction (AEC) sectors, these national regulations and guidelines are crucial facilitators of digital transformation, promoting better project outcomes and lower lifecycle costs.

Market Opportunity

Smart cities, digital twin development, and sustainability programs accelerating BIM integration

Government spending on Smart Cities, Infrastructure sustainable development, and Digital Twin development gives bright prospects to BIM. A few programs promoting digital technologies such as BIM on the overall lifecycle management of infrastructure include the Department of Energy Smart Buildings Initiative or EDC program from the FHWA. Also, the U.S. Infrastructure Investment and Jobs Act (IIJA) supports state and local governments further incorporating BIM in their transport and public facility projects. In Europe, improvement in energy-efficient buildings and carbon-neutral construction will get through innovative model-based workflows developed via Horizon Europe R&D funding and national BIM implementation plans. Governments in the Asia-Pacific, especially Singapore and South Korea, are including BIM as part of their national urban digitization plans to enable integrated planning, simulation, and monitoring. Public sector objectives such as decarbonization, resilience, and data transparency shall therefore be the paving stones for the future growth of BIM platforms and services.

Market Restraining Factor

Cost of implementation, interoperability challenges, and uneven technical readiness slowing uptake   

Despite solid policy backing, formidable barriers threaten the advancement of BIM in a broad manner. The most apparent constraint is the high cost of BIM software, training and process reengineering-scarcely affordable by small architectural firms and contractors. Though U.S. National Institute of Standards and Technology promotes digital design standardization, inconsistent applications and interoperable barriers across various BIM platforms still constitute problems for users. Governments have yet to harmonize digital data protocols fully, which complicates collaboration among stakeholders utilizing different data protocols.

Segmentation Analysis

By Component

Major components of the BIM market are available for end-to-end digital modelling for construction assets. Such components include software (modelling platforms, simulation tools, coordination software), hardware (workstations, VR, AR, scanners), and services (consulting, training, integration). Software leads in this sector in creating digital twins, 3D modelling, clash detection, and asset lifecycle tracking. The National Institute of Building Sciences in the U.S. (NIBS) facilitates the standardization of software under the National BIM Standard-US (NBIMS-US). Services are particularly important at large for driving implementation on public infrastructure projects funded either by the U.S. General Services Administration (GSA) or the UK Infrastructure and Projects Authority (IPA).

By Project Lifecycle Stage

Store BIM jobs during all the phases of the construction project: Planning & Design, Construction, Operations & Maintenance. The planning and design phase benefits from 3D modelling, simulation, and cost estimation that BIM provides. Construction scheduling, logistical planning, and real-time inter-team collaboration can all be facilitated by BIM. In the operations and maintenance phase, BIM models, on the contrary, act as digital assets for facility management, retrofitting, and performance optimization. This approach of life cycle segmentation is being pursued in public policy such as the U.S. GSA BIM Guidelines and Singapore's IDD strategy that incorporates smart facility management into BIM.

By Deployment Mode

BIM offerings are provided both on-premises and through hosted or cloud configurations. Government agencies and contractors for defence and critical infrastructure projects might be inclined to have an on-premises system with their data security concerns. The cloud-based BIM is nevertheless rising to prominence owing to its scalability, real-time sharing feature and ease of use for updates. Public organizations such as the UK’s Centre for Digital Built Britain (CDBB) and the European Commission are promoting cloud deployment for across-the-border teamwork and data pooling between multiple departments for transnational infrastructure projects.

By End Use Industry

BIM adoption varies across sectors. For construction BIM in building, to mapping architectural and MEP (mechanical, electrical, plumbing) systems. For infrastructure, such as roads, bridges and railways, BIM aides in the long-term management and maintenance of assets. In addition, requirements on government buildings and public utility projects to use BIM (such as of the U.S. GSA or the Germany’s Federal Ministry for Digital and Transport) can stand as considerable demands. J Healthc Eng Educe BIM is also utilised in the healthcare and education sectors to minimise the cost of building ownership and operation, funded via public capital expenditure schemes. In some of the above discussed sectors for which stimulus packages or infra-structure modernization programs are in the pipeline, the use of BIM will increasingly be seen as another compliance and efficiency driven demand.

By Application

The application range composed of 3D (visual design), 4D (time-based scheduling), 5D (cost estimation), 6D (sustainability analysis) and 7D (facility management). The U.S. DOE Smart Building initiative promotes the use of BIM to perform energy and carbon footprint analysis (6D). The Federal Highway Administration (FHWA) advocates for 4D and 5D BIM to be utilised in transportation asset planning, as this models have been found to increase cost accuracy and reduce schedule delays. These next-generation applications are consistent with national objectives for efficient, robust and data-driven delivery of infrastructure.

By Distribution Channel

BIM solutions are sold via direct sales to enterprise clients, and through resellers including value added resellers (VARs) and over the Internet. Big infrastructure and government customers will deal with the solution provider directly for custom work. VARs focus on small and mid-size companies and provide packaged services with training and support. In the U.S., there are platforms provided from the General Services Administration (GSA) and from the EU from official e-procurement portals for purchasing BIM tools in the public works. These distribution schemes can also coordinate the acquisition of software with pertinent national digital transformation goals.

Regional Snapshot

• North America

North America is one of the early adopters of BIM solutions and possesses well-established government mandates for infrastructure upgradation. In United States, BIM is mandated for all federal buildings by General Services Administration (GSA) leading the method for national level digital design and management. The U.S. National BIM Standard (NBIMS-US) The National Institute of Building Sciences (NIBS) is responsible for the U.S. implementation of BIM standards, which is overall intended to ensure interoperability and model consistency between agencies and private contractors. The BIM adoption has been receiving an exponential push after the Infrastructure Investment and Jobs Act (IIJA) allocated funds to such smart, green and resilient infrastructure projects. In Canada, both Infrastructure Canada and provincial organizations are moving toward BIM frameworks to enhance project transparency and lower lifecycle cost objectives in public infrastructure and building projects, such as transit and healthcare facilities. Topic of the project.

• Europe 

The standardization of BIM in Europe and addition to public policy has been leaders. BIM is recommended in the European Union (EU) for public tenders in the Public Procurement Directive (2014/24/EU), and some member states have adopted national BIM mandates for public infrastructure, including UK, Germany, France and Italy. Adoption in building and civil infrastructure projects, led by the UK Centre for Digital Built Britain (CDBB) and the UK BIM Framework, focuses on Level 2 maturity and the implementation of structured data environments. The EU’s central research and innovation program Horizon Europe is offering funding for sustainability solutions based around digital twins and BIM that fits in with the European Green Deal. From the other side, BIM also contributes to comply with EU’s energy performance and circular economy objectives by including the environmental modelling within the design and construction phase.

• Asia Pacific

In Asia Pacific, BIM usage is growing rapidly due to urbanization, smart city initiatives, and national digitalization agendas. Singapore: Building and Construction Authority (BCA) requires BIM in regulatory submission files from large, tiered projects (e.g., “floor area in excess of 5,000 square meters”), in the context of Integrated Digital Delivery (IDD). In China, MOHURD is advancing BIM through national standards and model city pilots, and the nation’s 14th Five-Year Plan promotes digitalization in construction. The Ministry of Land, Infrastructure, Transport and Tourism (MLIT), Japan, is encouraging BIM usage in the public domain through i-Construction. Its Smart Cities Mission and an emerging National Infrastructure Pipeline are beginning to apply BIM to large urban and transport projects in India, but uptake is uneven because of a lack of skills and funding.

• Latin America

BIM is slowly being adopted in Latin America, encouraged by infrastructure development and modernization policies. In Brazil, the federal government launched and phased a national BIM mandate (Decree No. 9983/2019), requiring the use of BIM in public works to be Reino Unidos followed from 2021, led by BIM BR Strategy. These initiatives seek to increase cost transparency, reduce mistakes, and encourage innovation in government projects. In Mexico, Colombia and Chile, too, BIM integration trials for transport and healthcare schemes are underway – with the backing of, in many cases, the Inter-American Development Bank, national planning agencies. BIM maturity varies across the region, but the drive towards digital public procurement and international project finance is stimulating widespread uptake.

• Middle East & Africa

Use of BIM in Middle East and Africa are in the nascent stage but are proliferating with the ambitions of smart cities and huge infrastructure investments. In the Middle East, the UAE and Saudi Arabia have incorporated BIM into public works procedures and flagship initiatives like NEOM and Dubai 2040. These are centred around digital twin adoption and sustainability in accordance to Vision 2030 and other national transformation programs. BIM is being pushed by large developers and government departments in the region for use in urban planning, transport and energy projects. In Africa, the application of BIM is still at an embryonic stage, however governments of South Africa, Kenya, and Egypt are considering BIM as part of urban growth and affordable housing. International development partners such as the African Development Bank and UN-Habitat are advocating BIM as an aspect of digital capacity-building and infrastructure resilience programmes.

List of Top Leading Companies

• Autodesk Inc.
• Bentley Systems Inc.
• Nemetschek Group
• Trimble Inc.
• Dassault Systèmes
• Hexagon AB
• Siemens Digital Industries Software
• AVEVA Group
• Asite Solutions Limited
• Graphisoft (a part of Nemetschek Group)
• RIB Software SE
• Beck Technology Ltd.
• Allplan GmbH (Nemetschek Group)
• Procore Technologies Inc.
• Trimble Viewpoint (a division of Trimble Inc.)

The Key developments

2024

• U.S. General Services Administration (GSA) updates P100 standards to expand BIM requirements across federal buildings
• In early 2024, the GSA released its updated Facilities Standards (P100), emphasizing mandatory BIM integration at multiple project milestones including conceptual design, development, and construction documentation. Native and IFC-format BIM deliverables became required across new federal construction and major renovations.

2025

• U.S. federal agencies mandate advanced BIM deliverables for lifecycle facility management
• Following Executive Order 14057, agencies including GSA, DoD (via UFC 1‑300‑09N), and USACE incorporated BIM Level 2+ deliverables (e.g. COBie data) and open-standard facility-management models to support energy benchmarking and operations analytics.

2025

• Latvia mandates BIM for all publicly funded “third‑group” building projects beginning January 1, 2025, Latvia’s Cabinet of Ministers finalized amendments requiring BIM model submission for architecture, structural engineering, and MEP in publicly funded third‑group projects elevating BIM from voluntary to mandatory status in public procurement.

Mid‑2025

• Germany launches full BIM mandate for federal trunk road and rail infrastructure projects Starting in 2025, Germany officially requires BIM-based planning and execution for all federal transportation infrastructure marking a national policy shift in alignment with digital infrastructure goals.

2025 Roadmap Deadline

• UK to transition from BIM Level 2 to BIM Level 3 across public sector project. The UK mandated Level 2 BIM since 2016 and is now preparing for a national upgrade to Level 3 maturity by 2025, enhancing collaboration and digital procurement standards across public infrastructure projects.

2025 (ongoing)

• Other emerging mandates and strategies drive BIM uptake globally
• Countries including Italy, Spain, Norway, Denmark, Finland, and Australia continue expanding BIM mandates according to national strategies often lowering financial thresholds, standardizing interoperability, and embedding BIM in innovation infrastructure plans.

Report Coverage

The report will cover the qualitative and quantitative data on the global building information modeling bim market. The qualitative data includes latest trends, market players analysis, market drivers, market opportunity, and many others. Also, the report quantitative data includes market size for every region, country, and segments according to your requirements. We can also provide customize report in every industry vertical.

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