Education

Cleanroom

Manufacturing

Solar

Award

Bioscience

Infrastructure

Research

Savings

Data Center

Master Planning

Microelectronics

Environmental Stewardship

Engineering Services

Nanotechnology

IDC Architects (IDCA) is an integrated multidisciplinary planning and design firm with a global presence and a singular vision: To discover better ways for people, technology, buildings and the environment to work together. Pursuit of this vision has kept us on the leading edge of design in service of science and technology, from sophisticated research laboratories and mission-critical data centers to manufacturing infrastructure and sustainable master plans.

It is the result of our relentless pursuit of a better way. It is integral to our development of cutting-edge building systems for the world’s most demanding environments. It is the single most important thing that helps us achieve complex technical objectives and energy-savings while offering pragmatic, cost-effective solutions. Most important, it is part of our collaborative, transparent process, where clients are involved every step of the way.

Value begins with a harmonious relationship between client and design team. In an atmosphere of trust and collaboration, value reveals itself in many ways. From iconic exteriors that communicate brand identity, to interiors that help people thrive, to optimized building systems that save millions in life-cycle costs, value pays dividends over time. A project that meets your budgetary and schedule goals is only the beginning.

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VISION

VALUE

A CH2M HILL Company

DISCOVERY

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DESIGN IS A PROCESS OF DIALOGUE AND DISCOVERY. WE START BY LISTENING, ENGAGING PROJECT STAKEHOLDERS IN OPEN, TRANSPARENT COLLABORATION. BUILDING CONSENSUS ONE RELATIONSHIP AT A TIME, OUR MULTIDISCIPLINARY TEAMS CREATE OPPORTUNITIES FOR INNOVATION, COST SAVINGS, AND SUSTAINABILITY.

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IT’S HOW WE WORK

PEOPLE, TECHNOLOGY, BUILDINGS, THE ENVIRONMENT. WORKING TOGETHER.

VISION

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IDCA.04Bayer HealthCare Pharmaceuticals Manufacturing Complex (formerly Berlex)

We lead project teams through a proven decision-making process, using powerful analytic tools. Every project begins with a dynamic, collaborative process of discovery. Together, we explore concepts, sketch ideas, and build models. Using sophisticated tools, we rapidly create a menu of meaningful options. By enabling stakeholders to make key decisions early in design, we identify best-value solutions and lower project costs.

During design development, our seamless integration of architecture and engineering delivers complete, coordinated documents, reduces change orders, and protects against schedule delays.

HANDS-ON HIGH TECH

AIRFLOW MODELING Particularly valuable in data centers and other advanced technology facilities, airflow modeling (using Computational Fluid Dynamics or CFD) helps us evaluate the environmental performance of a building, apply innovative energy-efficiency measures, and implement sustainable design strategies, such as natural ventilation and underfloor air distribution.

VISUALIZATION Modeling and animation tools are an integral part of our design process. They are invaluable in communicating design intent to our clients and helping the team explore a greater number of iterations during design development. Building Information Modeling (BIM), 3D rapid prototyping and animation support design coordination and early constructability analysis, improving building quality and performance.

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DIGITAL DESIGN TOOLS Finding the perfect balance of natural and artificial light. Analyzing the robustness and performance of mechanical components and systems. Creating people-centered environments. These are just a few of the reasons we use Computer Aided Engineering (CAE) tools to illuminate options and support decision making. CAE tools add value by increasing efficiency, lowering costs, and reducing risk.

Innovation happens when forward-thinking architects work side-by-side with expert engineers from all disciplines. Design solutions are holistic. Architecture is dynamic, responsive, and constructible. Building systems are energy efficient and sustainable.

Every IDCA project benefits from over 25 years of lessons learned and industry knowledge transfer. Innovative airflow solutions originally developed for semiconductor manufacturing are now standard in mission-critical design. Modular, multi-use strategies used in manufacturing help make research laboratories more flexible and responsive. Today, our advanced design and engineering solutions benefit solar photovoltaics, flat panel display, nanotechnology, sustainable manufacturing, and emerging technologies.

We understand how innovation drives growth markets.

LONG BEFORE CONSTRUCTION BEGINS, WE APPLY RIGOROUS ANALYSIS AND TESTING TO ENSURE

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INTEGRATED SECURITY Over 50 professionals in our special systems group are focused on security, life safety, and telecommunications designs. With broad-based technology expertise and cutting-edge knowledge, we help our clients protect their physical, intellectual, and digital property. Integrating vulnerability assessment and threat mitigation into the design, we develop secure and safe environments without compromising quality of life.

SYSTEMS INTEGRATION Today’s hyper-complex buildings demand the integration of mechanical, electrical, and process systems for optimal performance. Working in our specialized Systems Integration Lab, IDCA engineers ensure that systems achieve full functionality and that buildings work holistically.

MULTIDISCIPLINARY COORDINATIONWe organize our greatest resource— our people—in dedicated team spaces for every project. Multidisciplinary environments—including architects, engineers, and planners—encourage formal and informal dialogue among team members, spark innovative ideas, and provide a holistic approach to project challenges.

HIGH PERFORMANCE DESIGN

In rapidly developing Western China, this master plan enables nature and industry to coexist. With facilities for semiconductors, optoelectronics, telecommunications, Internet, and hardware/software, the plan creates a new standard in sustainability for information technology industrial parks.1.1 Master plan 1.2 Master plan aerial

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KUNMING ECONOMIC & TECHNOLOGIC DEVELOPMENT ZONEKUNMING DIGITAL FOREST1,656 Acres / 6.7 km2

Kunming, Yunnan Province, China

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Fortune Worldwide 500 company ProMos Technologies, a leading 300mm wafer manufacturer, wanted its new facility to strengthen corporate branding. Our bold new nine-story office and wafer fabrication complex design included a four-story atrium, a central dining room and café, a 325-person auditorium, and a recreation center with an outdoor sports court.2.1 Building exterior/entry 2.2 Main entry lobby

PROMOS TECHNOLOGIES FAB 3538,200 SF Taichung, Taiwan

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Master planning and business planning for this technology and knowledge-based city—expected to employ 35,000 people by 2020—encourages innovation, provides economic diversification, and reduces oil dependence. IDCA designed a master plan in which advanced electronics companies encircle an urban core of apartments, service shops, restaurants, schools, a hotel, and the Dubai Institute of Technology. 3.1 City plan 3.2 Client and model

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DUBAI AIRPORT FREE ZONE AUTHORITYDUBAI SILICON OASIS 1,766 Acres Dubai, United Arab Emirates (UAE)

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A proposed electronics and software R&D center, inspired by the Silk Road of China, features functional spaces shaped and woven together into a fabric, intended to enhance the flow and transference of people-focused multidisciplinary research initiatives. An all-season winter garden at its center serves as a haven in an otherwise harsh natural environment.

4.1 Research complex interior courtyard 4.2 Campus aerial 4.3 Office interior

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CONFIDENTIAL TELECOM SOLUTIONS PROVIDER R&D CENTER 1,979,117 SF Xi’an, China

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A new corporate headquarters for this the fast-growing maker of medical devices creates a people-centered work environment. An award-winning LEED® Gold certified design features a high-performance building envelope, under-floor air supply for office areas, materials without high concentrations of volatile organic compounds (VOC), and

a recycling program.

5.1 Building exterior 5.2 Campus site plan 5.3 Food court

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5.3 5.2 Photo: ©2007 Ed Massery

Photo: ©2007 Ed Massery

MEDRAD, INC. GLOBAL CENTER125,000 SF Warrendale, Pennsylvania, USA

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The Ken Morrison Life Sciences Research Center is a nationally-recognized biomedical research center, linking three institutions’ virology programs: University of Nebraska-Lincoln (UNL), UN Medical Center, and Creighton University. With multiple sustainable features, the Center’s design fosters collaboration among researchers, fellows, students, and staff. The Center includes laboratories for 12 primary investigators and spaces for tissue culture, polymerase chain reaction, microscopy, cell-flow cytometry, and a BSL-3 suite. 6.1 Building exterior 6.2 Laboratory interior

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UNIVERSITY OF NEBRASKA AT LINCOLNKEN MORRISON LIFE SCIENCES RESEARCH CENTER70,000 SF Lincoln, Nebraska, USA

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THE RELENTLESS PURSUIT OF A BETTER WAY.INNOVATION

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IDCA.14Computational Fluid Dynamics Modeling

REGENERATIVE DESIGN

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ECO-CHARRETTE Before programming, we work with clients to identify opportunities to leverage current LEED® and BREEAM standards.

RAPID PROTOTYPINGTools like 3D design modeling and Computational Fluid Dynamics (CFD) help to illuminate possibilities, explore implications of design options, and speed decision making.

LIFE-CYCLE ANALYSIS Analysis includes projection and evaluation of initial capital costs, long-term operational costs, and environmental impacts over the entire life of the facility.

CARBON ASSESSMENTBefore any sustainability decisions are made, we apply carbon emissions measurement to gain a complete understanding of your carbon footprint.

HOLISTIC, SUSTAINABLE SOLUTIONS REDUCE YOUR CARBON FOOTPRINT,GROWING YOUR BOTTOM LINE

We bring an array of tools to support integration of regenerative design at the degree appropriate to your goals. With LEED accredited professionals in all disciplines, we focus on a balanced approach to the stewardship of resources. We consider the way sustainability decisions impact your culture, life-cycle costs, and construction schedule. By streamlining design and manufacturing principles, we maximize process efficiency and the potential to reduce, reuse, and recycle resources. With a continuous feedback loop across all disciplines, we ensure that your project benefits from all of the insights and lessons of our past work.

Because today operational excellence and sustainability are highly interdependent and mutually- reinforcing business strategies.

SITE RESOURCE OPTIMIZATION Our critical assessment of site resources includes realizing opportunities for passive heating and cooling and application of alternative energy sources.

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STREAMLINED DESIGN

Offering a Lean Project Delivery System™ and design principles, and open, timely communication, we capture the most efficient methods to accomplish goals and reduce costs.

INTEGRATED COMMISSIONING A Post Occupancy Evaluation (POE) confirms the attainment of design goals and supports continuous improvement in each successive project.

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CONFIDENTIAL UNIVERSITY CLIENTSCIENTIFIC RESEARCH COMPUTING FACILITYTwo-story module: 9,000 SF Full build-out: 8 modules Server and support area: 76,000 SF San Francisco Bay Area, California, USA

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This sustainable data center leverages the temperate climate of the San Francisco Bay Area, using outside air 90% of the time to cool IT equipment. The design concept will save 6 MW of energy per module per year compared with traditional mechanical systems. 7.1 Building exterior 7.2 Building section at module 7.3 Summer airflow speed analysis 7.4 Winter airflow speed analysis

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a. Compute floorb. Electrical roomc. Return air shaftd. Relief exhauste. Fan wall/filter/coilf. Corridorg. Damperh. Air intake louveri. Retaining wallj. Return air fan

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NIKE SUSTAINABLE FOOTWEAR FACTORY101,200 SF Ho Chi Minh City, Vietnam

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A model of environmentally responsible manufacturing, this footwear factory’s sustainable design improves productivity, quality, and standards of living. Ventilation towers provide natural cooling while open mesh sidewalls liberate space, admitting natural daylight. Lightly colored deep-shading roof overhangs enable heat-rejection. 8.1 Main production floor 8.2 Building exterior, stack ventilation towers

The first U.S. LEED® Silver certified nanotechnology lab, AMRL features design for electron microscopic sensitivities, isolated independent slabs, acoustic dampening, electronic shielding, and vibration analysis. The facility contains air distribution systems with 66 labhoods, cleanroom space, and specialty labs for laser, instrument, and fiberoptics research.9.1 Building exterior 9.2 Laboratory interior

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CLEMSON UNIVERSITYADVANCED MATERIALS RESEARCH LAB (AMRL)111,000 SF Anderson, South Carolina, USA

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This design concept for the major renovation of a vintage campus building consolidates biology, chemistry, environmental science, and physics departments’ research and teaching labs and adds offices and a student common area. The design strengthens interdisciplinary connections between environmental science, pharmaceuticals, and nanotechnology.10.1 Building exterior/entry 10.2 Public ‘discovery corridor’ at research laboratory

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PORTLAND STATE UNIVERSITY SCIENCE RESEARCH & TEACHING CENTERRenovation: 250,000 SF Addition: 10,000 - 20,000 SF Portland, Oregon, USA

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Designed for high-density computer servers and cabinets with heat loads in excess of 500 watts per square foot and individual cabinet loads of up to 20 kilowatts, this two-story data center relies upon innovative hot-aisle and cold-aisle isolation. The first phase is designed for 12,000 SF of raised access floor (RAF); the second phase anticipates five more data center modules, expanding to 30,000 SF, providing cost-effective, modular expansion. 11.1 Building section with CFD modeling 11.2 Building exterior/entry

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CONFIDENTIAL CLIENTHIGH DENSITY DATA CENTER70,000 SF Hillsboro, Oregon, USA

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THE BEGINNING We formed in 1985 when a group of technology-minded architects and engineers joined forces to serve the burgeoning semiconductor industry. Early landmark projects included the world’s first Class 1 and Class 10 cleanrooms for manufacturing and the first wave of chip manufacturing facilities in the West and beyond. As the technology revolution transformed the landscape, we grew to become a global design leader, serving clients in semiconductors, data centers, nanotechnology, and emerging technologies.

During the semiconductor industry’s dramatic growth in the 1990s, the rapid advance of technology demanded a new approach to project delivery. With conventional design and construction approaches, the products intended to be produced in the early fabs were in danger of becoming obsolete before the facilities were completed.

In response, we spearheaded new design-build delivery models that resulted in unprecedented schedule performance. Our close interdisciplinary coordination and innovative overlapping of design and construction helped reduce by half the design-build duration for large-scale semiconductor manufacturing facilities.

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DATA CENTERS

□ Two-story plenum design with hot/cold aisle separation

□ Innovative chiller-less design featuring 90%+ natural ventilation

□ One of the world’s highest density data centers

□ Strategic business planning for expansion

SOLAR/ PHOTOVOLTAICS (PV)

□ Design-build fast-track delivery model to optimize speed to market

□ Leading innovation in process technology, industrial engineering, tool layouts

□ Strategic business planning and economic modeling for large-scale manufacturing

□ Patented solar mapping technologies to facilitate consumer acceptance of solar products

□ Serving a range of clients from small facilities to 400MW and 1 GW solar PV facilities

SEMICONDUCTORS

□ Record-setting facility design-build delivery

□ Industry-leading sustainability achievements, including energy reduction and wastewater recycling

□ World’s first Class 1 and Class 10 manufacturing cleanrooms

□ Greenfield, retrofit, and facility services on leading-edge facilities worldwide

Image: IBM Corporation

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SPRINGS FROM DEEP ROOTS IN SCIENCE AND TECHNOLOGY

THE FUTURE Today, we bring this commitment to innovation—and many of these same strategies—to benefit our clients across the spectrum of advanced technology, from solar photovoltaics (PV) and flat panel display to consumer products and pharmaceuticals.

Looking to the future, we’re using advancements in technology to address climate change and help create a sustainable society. Our unique carbon assessment and solar mapping tools allow technology manufacturers to dramatically reduce waste streams, increase resource efficiency, and maximize passive energy reduction strategies. At the same time, our approach to manufacturing execution systems (MES) is raising the bar for efficiency and automation, using renewable technologies to streamline production, lower costs, and increase return on investment.

Wherever the future takes us, IDCA is poised to help our clients make ground-breaking advances, increase market share, and build a better world.

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BIOSCIENCE LABORATORIES

□ Advanced cleanroom and bio-containment labs

□ Biosafety Labs (including BSL-3 and BSL-4)

□ Innovative retrofits of existing buildings into advanced next-generation lab space

□ Industry-leading sustainable processes

□ LEED® Silver nanotechnology laboratory

□ Fostering interdisciplinary collaboration in spaces designed to attract world-class talent

Image: National Science Foundation

NANOTECHNOLOGY

□ Developing leading-edge nanotechnology R&D labs

□ Facilitating private-public partnerships and technology commercialization

□ Stewardship of product development, patents, and IP protection

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FLAT PANEL DISPLAYS

□ Fast-track delivery of world’s largest manufacturing facilities

□ Strategic business alliances to assist in product development

□ Innovative advanced processing technologies enhance competitive advantage for clients

One of the world’s leading business software providers is employing our designs to build a sustainable data center that provides a new industry standard for energy efficiency. Our client’s first such facility in Europe, the Dublin Data Center, represents a culmination of advances in data center design. It is expected to be up to 50% more efficient than similar facilities, saving millions of kilowatt-hours of electricity annually.12.1 Building mass, exhaust, and air flow speed analysis 12.2 High density servers

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CONFIDENTIAL CLIENTDATA CENTER500,000 SF Dublin, Ireland

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Over one million square feet were added to this major semiconductor manufacturer’s campus, including 230,000 SF of 300mm microelectronics production, creating its first high-volume 45 nanometer manufacturing factory. Over 250 engineers, architects, and designers delivered over 11,000 drawings and over 600 specification files. Site development included excavation of nearly 200,000 cubic yards of material, new city intersections, and a remote wastewater treatment facility. 13.1 Building exterior 13.2 Complex aerial

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CONFIDENTIAL CLIENTSUSTAINABLE SEMICONDUCTOR FACILITY750 Acre Site Area 230,000 SF Cleanroom Chandler, Arizona, USA

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CONFIDENTIAL CLIENTSEMICONDUCTOR R&D FACILITY1,000,000 GSF 200,000 SF Cleanroom Hillsboro, Oregon, USA

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From base-build to tool installation and construction management, we provided complete design services for this state-of-the-art 300mm wafer production facility. A model of fast-track delivery, design through operation took only 15 months. Some 6,000 craftspeople contributed to the largest building of its kind for this client, anchoring the company’s presence in Oregon. 14.1-3 Building exterior 14.4 Campus aerial

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A PROJECT THAT MEETS BUDGET AND SCHEDULE GOALS IS ONLY THE BEGINNING.

VALUE

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IDCA.30Corporate Office R&D Renovation and Seismic Upgrade

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CONFIDENTIAL BIOSCIENCE CLIENTSCIENCE BUILDING J62,000 SF Eugene, Oregon, USA

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The third in a series of facilities designed for this biotechnology campus, Science Building J integrates chemistry and biology research/production labs with administrative support, improving collaboration and access to shared resources. The project was designed and constructed in only 18 months to meet the client’s ambitious schedule.15.1 Building exterior 15.2 Skylights and light wells, interior corridor

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STATE OF OREGON PHL/DEQ ANALYTICAL LABORATORIES78,000 SF Hillsboro, Oregon, USA

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In a building shell originally intended for light commercial use, innovative adaptive reuse strategies maximized usable space to create award-winning analytical laboratories. The labs support diverse public health and safety missions including Bio-Safety Level 3 (BSL-3). Large open suites accommodate multiple functions and quick response to epidemic or environmental emergencies. 16.1 Flexible microbiology laboratory 16.2 Environmental quality analysis laboratory 16.3 Trace metals cleanroom laboratory

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PORTLAND DEPARTMENT OF TRANSPORTATION GIBBS STREET PEDESTRIAN BRIDGEOverall Length: 700 ft Portland, Oregon, USA

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This new landmark links previously isolated neighborhoods while responding to the needs of diverse interest groups. Satisfying strict Oregon Department of Transportation (ODOT) requirements and the wishes of neighborhood stakeholders, the bridge features an elevator, stairs, and terrace with a sweeping view of the Willamette River and Mt. Hood. Shown above is a lighting consideration from a northwest vantage point. 17.1 View from Lair Hill neighborhood 17.2 Bridge alignment, site section

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BAYER HEALTHCARE (FORMERLY BERLEX) PHARMACEUTICAL MANUFACTURING COMPLEX101,000 SF Lynnwood, Washington, USA

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This biopharmaceutical facility consolidates three previously disparate divisions. Its three-story spine links utilities, manufacturing, and administration/laboratories. Cleanrooms in the manufacturing suite are specially designed to meet FDA/ISO/EUR requirements.18.1 Building exterior/entry 18.2 Precast concrete wall detailing 18.3 Manufacturing interior

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A dramatic new entry and two-story lobby gave this advanced technology manufacturer’s corporate office a fresh design aesthetic. An innovative seismic upgrade using unbonded K braces reduced the schedule by six months and saved over $500,000.19.1 Building exterior courtyard 19.2 Seismic K brace at interior

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CONFIDENTIAL CLIENTCORPORATE OFFICE R&D RENOVATION AND SEISMIC UPGRADE173,000 SF Corvallis, Oregon, USA

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The Mountbatten Complex is one of the world’s leading centers for research, teaching, and innovation in electronics, electrical engineering, nanotechnology research, and computer science. In association with Jestico + Whiles architects, IDCA designed the facility for characterization tools—the cornerstone of nanoscale research—in shared locations with low vibration and EMI characteristics. 20.1 Building exterior 20.2 Courtyard elevations 20.3 Structural assembly at mechanical exhaust

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UNIVERSITY OF SOUTHAMPTONMOUNTBATTEN NANOTECHNOLOGY ELECTRONICS RESEARCH COMPLEX100,000 SF Mountbatten, United Kingdom

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Albuquerque, New MexicoAnchorage, AlaskaAtlanta, GeorgiaAustin, TexasBirmingham, AlabamaBoise, IdahoBoston, MassachusettsCharlotte, North CarolinaChicago, IllinoisCincinnati, OhioColorado Springs, ColoradoCorvallis, OregonDallas, Texas

Dayton, OhioDeerfield Beach, FloridaDenver, Colorado Des Moines, IowaEl Paso, TexasFairbanks, AlaskaFort Lauderdale, FloridaGainesville, FloridaGreenville, South CarolinaHampton Roads, VirginiaHerndon, VirginiaHonolulu, HawaiiHouston, Texas

Jacksonville, FloridaKnoxville, TennesseeLas Vegas, NevadaLouisville, KentuckyMilwaukee, WisconsinMinneapolis/St. Paul, MinnesotaMontgomery, AlabamaNavarre, FloridaNew Orleans, LouisianaNew York City, New YorkOakland, CaliforniaOak Ridge, TennesseeOklahoma City, Oklahoma

Orlando, FloridaPaducah, KentuckyParsippany, New JerseyPhiladelphia, PennsylvaniaPittsburgh, PennsylvaniaPhoenix, ArizonaPort Arthur, TexasPortland, OregonRedding, CaliforniaReno, NevadaRichland, WashingtonSacramento, CaliforniaSalt Lake City, Utah

San Antonio, TexasSan Diego, CaliforniaSan Jose, CaliforniaSeattle, WashingtonSomerset, New JerseySpartanburg, South CarolinaSpokane, WashingtonSt. Louis, MissouriTampa, FloridaThousand Oaks, CaliforniaTulsa, OklahomaWashington, D.C.West Palm Beach, Florida

WE ARE YOUR NEIGHBORS

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Almaty, KazakhstanAuckland, New ZealandBangkok, ThailandBarcelona, SpainBarrie, Ontario, CanadaBeijing, ChinaBrisbane, AustraliaBudapest, HungaryBuenos Aires, ArgentinaCairo, EgyptCalgary, Alberta, CanadaChangchun, ChinaDubai, United Arab Emirates

Dublin, IrelandEdmonton, Alberta, CanadaGlasgow, ScotlandHong Kong, ChinaJerusalem, IsraelKaiserslautern, GermanyKrakow, PolandKuala Lumpur, MalaysiaLima, PeruLondon, Ontario, CanadaLondon, United KingdomLviv, UkraineMadrid, Spain

Melbourne, AustraliaMexico City, MexicoMilan, ItalyMoscow, RussiaMurcia, SpainNanjing, ChinaNorth York, Ontario, CanadaOttawa, Ontario, CanadaPasig City, PhilippinesPenang, MalaysiaPrague, Czech RepublicPokrov, RussiaPordenone, Italy

San Juan, Puerto RicoSao Paulo, BrazilSeoul, KoreaShanghai, China SingaporeSydney, AustraliaTaipei, TaiwanTokyo, JapanVancouver, British Columbia, CanadaWaterloo, Ontario, CanadaZaragoza, Spain

WITH OVER 400 STAFF IN 35 COUNTRIES, IDCA’S GLOBAL RESOURCES PROVIDE LOCAL SOLUTIONS. WE’RE READY TO DELIVER BEST-IN-CLASS FACILITIES

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WHEREVER YOUR BUSINESS EXPANDS

WWW.IDCARCHITECTS.COMA CH2M HILL Company

1 KUNMING DIGITAL FOREST

2 PROMOS TECHNOLOGIES FAB 3

3 DUBAI SILICON OASIS

4 CONFIDENTIAL TELECOM SOLUTIONS PROVIDER R&D CENTER

5 MEDRAD GLOBAL CENTER

6 UNIVERSITY OF NEBRASKA KEN MORRISON LIFE SCIENCES RESEARCH CENTER

7 CONFIDENTIAL UNIVERSITY CLIENT SCIENTIFIC RESEARCH & COMPUTING FACILITY

8 NIKE SUSTAINABLE FOOTWEAR FACTORY

9 CLEMSON UNIVERSITY ADVANCED MATERIALS RESEARCH LABORATORY

10 PORTLAND STATE UNIVERSITY SCIENCE RESEARCH AND TEACHING CENTER

11 CONFIDENTIAL CLIENT HIGH DENSITY DATA CENTER

12 CONFIDENTIAL CLIENT DATA CENTER

13 CONFIDENTIAL CLIENT SUSTAINABLE SEMICONDUCTOR FACILITY

14 CONFIDENTIAL CLIENT SEMICONDUCTOR R&D FACILITY

15 CONFIDENTIAL BIOSCIENCE CLIENT SCIENCE BUILDING J

16 STATE OF OREGON PHL/DEQ ANALYTICAL LABORATORIES

17 PORTLAND DEPARTMENT OF TRANSPORTATION GIBBS STREET PEDESTRIAN BRIDGE

18 BAYER HEALTHCARE PHARMACEUTICAL MANUFACTURING COMPLEX

19 CONFIDENTIAL CLIENT CORPORATE OFFICE R&D RENOVATION AND SEISMIC UPGRADE

20 UNIVERSITY OF SOUTHAMPTON MOUNTBATTEN NANOTECHNOLOGY ELECTRONICS RESEARCH COMPLEX

SELECTED PROJECTS

SCIENCE AND TECHNOLOGY