We provide comprehensive structural solutions for foundations, wood, steel, and concrete buildings, emphasizing resilience, sustainability, and cost-effectiveness. From advanced geotechnical insights in foundation design and the natural flexibility of wood structures to the strength of steel framing and the durability of concrete, we tailor each system to meet specific site conditions, seismic requirements, and future expansions. Through rigorous collaboration, advanced modeling, and continuous assessment, we create versatile, code-compliant designs that maximize long-term value for owners and occupants.

A building’s foundation is its backbone, bearing the full structural load and transferring it safely to the ground while accounting for soil conditions, site constraints, and future expansions. By integrating cost-effective strategies and multidisciplinary feedback from the outset, we ensure resilience, safety, and adherence to industry standards. This collaborative approach addresses seismic, constructability, and site-specific challenges, ultimately delivering high-performance foundations that maximize long-term value for owners and occupants.

• Design of foundation walls, strip footings, grade beams, and pad footings.

• Earth-retaining structures for challenging site conditions.

• Concrete foundation solutions for pre-engineered buildings.

• Building condition assessments to identify repair or upgrade needs.

• Seismic restraint design for equipment and structural components.

Wood structures are prized for their natural beauty, flexibility, and lower environmental impact. Utilizing timber's strength and versatility, our teams create durable systems—from traditional timber frames to advanced wood-composite assemblies—that meet modern architectural and performance needs. With extensive experience in various climates and building types, we provide solutions that fulfill clients' aesthetic, commercial, and sustainability objectives. By integrating technologies like BIM modeling and advanced analysis, we optimize wood designs to ensure structures are safe, efficient, and easy to maintain or modify in the future.

• Wood columns/posts, load-bearing walls, and shear wall configurations.

• Lateral design and floor/roof diaphragms for seismic and wind resistance.

• Restoration and rehabilitation of aging or damaged wood structures.

• Sustainable material selection.

• Integration with other structural systems in hybrid designs.

Steel is perfect for everything from high-rise buildings to industrial facilities. Our teams combine technical expertise with a clear understanding of project goals to provide steel framing solutions that optimize cost, sustainability, and ease of construction. We design new-builds and upgrade existing buildings, we leverage extensive knowledge of building codes and global best practices. Our engineers effectively address challenges like wind loads, seismic resilience, and blast resistance by using advanced modeling techniques, ensuring the delivery of high-performing and reliable steel structures.

• Open Web Steel Joist design and reinforcing for efficient load support.

• Modular construction methods to speed up schedules and reduce costs.

• Value engineering and peer review to refine and optimize steel designs.

• 3D visualization, BIM modeling, and steel detailing for precision and clarity.

Concrete’s durability, fire resistance, and versatility makes it essential for a wide range of projects, from foundation to mid-rise commercial buildings. Our comprehensive design approach ensures concrete elements perform effectively under various loads, climate conditions, and seismic events. We collaborate closely with architects, owners, and multidisciplinary teams to align concrete systems with aesthetic and long-term operational goals. Whether designing cast-in-place walls and columns or specialized structures like tank bases and retaining walls, each design is meticulously reviewed for code compliance, enhancing functionality, safety, and longevity.

• Concrete foundations for pre-engineered buildings.

• Retaining walls and tank bases designed for challenging site conditions.

• Restoration of aging concrete structures and materials.

• Seismic design strategies for concrete elements in high-risk zones.