A mixed industrial jobsite with drones surveying, a large gantry 3D printer producing concrete walls and data center buildings under construction.
Boise, Idaho, September 6, 2025
The construction sector is moving from pilots to routine use of advanced tools as drones, large-scale 3D printing and data‑center builds reshape jobsites. Drones and AI deliver georeferenced models, thermal inspections and automated volumetrics for progress tracking and safety. Gantry and robotic 3D printers cut stages, reduce waste and speed low‑rise and repeatable projects. Meanwhile, resilient data center construction demands tighter sequencing, redundant utilities and specialized MEP work. A major $15 billion semiconductor expansion in Boise, Idaho exemplifies how industrial-scale projects accelerate demand for technology, skilled crews and integrated site infrastructure.
What’s new: Construction firms and public agencies are increasingly using drone-enabled site monitoring, large-scale 3D printing, and specialized data-center construction methods to meet tighter schedules, bigger projects, and higher performance standards. State transportation departments report heavy drone use for road and bridge projects, while a major private project has started in Boise: a $15 billion expansion of a semiconductor fabrication campus that will dramatically increase local construction activity.
Drones have moved from testing to daily operations on many job sites. They are widely used for high-resolution imagery, mapping, progress tracking, and real-time visual intelligence. When combined with mapping and design software, drone data creates georeferenced site models used for measurements, volumetric checks, cut-and-fill analysis, stockpile monitoring, and alignment verification — tasks that once required many site visits.
3D printing for construction is growing fast. The market was valued at about $37 million in 2023 and is projected to expand rapidly — cited projections show roughly 100% annual growth toward a multibillion-dollar market by 2032. Large gantry systems and robotic arms now print walls, cores, and facade elements from digital models, cutting formwork and finishing stages and enabling complex shapes without extra tooling.
Data-center construction is one of the busiest commercial sectors. Modern designs focus on uninterrupted uptime, concurrent maintainability, and fault tolerance. Builders and owners are adding layered security, redundant power like diesel generators, solar backup, and diverse connectivity paths using fiber and satellite links. Location choices emphasize fiber access, power, safety, and tax incentives.
Multiple state transportation agencies report heavy and growing drone use for roadwork, bridge repair, railroad projects, and material monitoring. Examples of operational trends and tools include:
Agencies rely largely on well-known drone makes for day-to-day work and are experimenting with LiDAR payloads and specialized craft for underground or confined-space tasks. Some DOTs face procurement challenges tied to federal rules about allowed manufacturers and are using mitigation steps such as disconnecting cloud features or processing imagery offline.
Builders are using large-scale concrete or geopolymer extrusion systems for low-rise housing, modular components, schools, hospitals, and emergency shelters. The technology reduces manual labor needs and waste, supports near just-in-time delivery, and can cut construction stages so structures are printed in days rather than months. Adoption is strongest where labor shortages or urgent needs exist, including disaster response and repetitive-layout projects.
Cloud and AI companies continue to invest in new campuses and specialized facilities. Modern data-center builds require tight coordination of electrical, mechanical, and security systems, with extra emphasis on resilient power generation, perimeter hardening, and multiple connectivity routes. Examples of major projects across the U.S. show the scale of investment and the need for construction methods that prioritize uptime and maintainability.
A Boise-based semiconductor company has begun a roughly $15 billion expansion at its campus, described as the largest construction project in the state. Planned work includes 15 new buildings built with about 8,000 tons of steel, a large office, a 2,800-space parking garage, on-site water treatment, and extra infrastructure. At peak, the project may host more than 30 cranes, three on-site concrete batch plants, a rock-crushing operation, and as many as 4,000 construction workers. The new facility will be many times larger than the existing plant and will work with other national operations to meet demand for memory and AI-related chips.
These technology trends push projects toward greater speed, accuracy and transparency. Drone documentation supports faster approvals and clearer record-keeping; 3D printing can reduce labor and material waste; and data-center best practices raise standards for resilience and neighborhood impact planning. At the same time, procurement rules, supply chains, and training needs will determine how quickly agencies and contractors can fully shift to these new methods.
Source: Reporting and industry data compiled from a construction and technology analysis by Ocere Ltd.
Drones capture high-resolution photos and video, produce maps and 3D models, measure volumes, monitor progress, inspect hard-to-reach areas, and feed data into software for planning and approvals.
The construction 3D printing sector was small in 2023 but is projected to grow rapidly, with estimates suggesting roughly 100% annual growth in some forecasts toward a multibillion-dollar market by 2032.
Data centers require continuous uptime and maintainability, so construction emphasizes redundancy, security, resilient power sources, and careful site selection for fiber and energy supply.
Many DOTs find it difficult or costly to switch quickly. Federal rules about allowed manufacturers complicate procurement, and agencies are testing alternatives while using mitigation like offline processing of drone data.
They change job roles rather than eliminate them outright. Drones and 3D printers streamline tasks and reduce repetitive field work, while projects still need skilled operators, technicians, and site managers.
| Topic | Main uses | Benefits | Challenges |
|---|---|---|---|
| Drones | Mapping, progress monitoring, inspections, volumetrics, thermal surveys | Faster data, fewer site visits, better records, improved safety | Procurement rules, data security, pilot training |
| 3D printing | Walls, structural cores, facade panels, modular units | Lower waste, faster build time, fewer trades, complex forms | Scale limits, material standards, regulatory acceptance |
| Data centers | Resilient power, redundant connectivity, secure perimeters | High reliability, service continuity, long-term value | High cost, complex systems integration, site constraints |
| Micron Boise project | Semiconductor fab expansion, infrastructure support | Major local jobs, large-scale construction experience | Supply chain demand, workforce coordination, heavy logistics |
Note: This article summarizes industry developments and a specific large-scale construction project. Data and projections referenced here were compiled from an industry analysis by Ocere Ltd.
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