This document summarizes View Dynamic Glass, an intelligent window system that tints in response to outdoor conditions. It maximizes natural light and views while reducing heat and glare compared to traditional glass. The glass tints automatically using an intelligence engine to respond to the environment and user preferences for greater comfort and energy efficiency. Buildings using View Dynamic Glass can save up to 20% on energy costs through reduced cooling and lighting needs.
The document provides instructions for building a homemade greenhouse. It recommends using wooden poles and frames, 6mm clear plastic sheeting, PVC piping, metal stakes, and duct tape. The framing is constructed by hammering metal stakes into the ground and fitting PVC piping between them to form the rib cage structure. Plastic sheeting is then secured over the frame with duct tape to form the covering. Proper greenhouse design allows plants to photosynthesize at maximum rates.
The document discusses Corning's innovative glass technologies used in displays and devices. It describes Corning Gorilla Glass which is highly damage-resistant glass used to protect smartphones, tablets, PCs and TVs. Corning also produces photovoltaic glass for solar panels, LCD television glass for large format TVs, and flexible display glass that is thin, rollable and enables electronics. The document outlines the features and applications of Corning's glasses including their stylish, high-performance qualities and notes that top companies like Sony and Samsung use Corning Gorilla Glass for its effectiveness.
This presentation discusses Corning glass and its applications in consumer electronics like the iPad, iPhone, and potential uses in future smart homes. It also covers Corning's research into graphene and its potential to replace silicon in computers. Finally, it summarizes Starkey's Cetera algorithm for hearing aids, which aims to make hearing aids invisible to the brain by customizing sound processing to match the wearer's ears through an innovative algorithm.
This document discusses various applications of glass technology including photovoltaic glass that converts solar energy to electricity, glass televisions, architectural display glass for sending messages and checking emails, glass for cooking surfaces, appliance display glass, handheld display glass phones, automotive display glass for dashboards, large format public display glass, bus stop display glass, glass for video conferencing and business displays, interactive retail store displays, flexible roll-up display glass, 3D glass televisions, and e-book reader display glass. The document outlines ongoing research by Corning into developing these new glass technologies.
This document provides an introduction to window film applications and discusses various types of window films including solar control, low-e, protective, anti-graffiti, and designer films. It describes the benefits of window films such as reducing energy costs and improving comfort, and provides case studies showing how different types of films have been used successfully in various building projects. The document also discusses how window films can help contribute to obtaining LEED certification points.
The document outlines the design of an emergency disaster relief shelter called the "EmergencyCapsule". It will be constructed within a shipping container to house a family of four. Key considerations for the design include user-centered design, design strategies, materials, and addressing limited space. The design process will involve research, interviews, drawings and 3D modeling to develop a layout that meets the needs of occupants and can be easily transported.
The document provides instructions for building a homemade greenhouse. It recommends using wooden poles and frames, 6mm clear plastic sheeting, PVC piping, metal stakes, and duct tape. The framing is constructed by hammering metal stakes into the ground and fitting PVC piping between them to form the rib cage structure. Plastic sheeting is then secured over the frame with duct tape to form the covering. Proper greenhouse design allows plants to photosynthesize at maximum rates.
The document discusses Corning's innovative glass technologies used in displays and devices. It describes Corning Gorilla Glass which is highly damage-resistant glass used to protect smartphones, tablets, PCs and TVs. Corning also produces photovoltaic glass for solar panels, LCD television glass for large format TVs, and flexible display glass that is thin, rollable and enables electronics. The document outlines the features and applications of Corning's glasses including their stylish, high-performance qualities and notes that top companies like Sony and Samsung use Corning Gorilla Glass for its effectiveness.
This presentation discusses Corning glass and its applications in consumer electronics like the iPad, iPhone, and potential uses in future smart homes. It also covers Corning's research into graphene and its potential to replace silicon in computers. Finally, it summarizes Starkey's Cetera algorithm for hearing aids, which aims to make hearing aids invisible to the brain by customizing sound processing to match the wearer's ears through an innovative algorithm.
This document discusses various applications of glass technology including photovoltaic glass that converts solar energy to electricity, glass televisions, architectural display glass for sending messages and checking emails, glass for cooking surfaces, appliance display glass, handheld display glass phones, automotive display glass for dashboards, large format public display glass, bus stop display glass, glass for video conferencing and business displays, interactive retail store displays, flexible roll-up display glass, 3D glass televisions, and e-book reader display glass. The document outlines ongoing research by Corning into developing these new glass technologies.
This document provides an introduction to window film applications and discusses various types of window films including solar control, low-e, protective, anti-graffiti, and designer films. It describes the benefits of window films such as reducing energy costs and improving comfort, and provides case studies showing how different types of films have been used successfully in various building projects. The document also discusses how window films can help contribute to obtaining LEED certification points.
The document outlines the design of an emergency disaster relief shelter called the "EmergencyCapsule". It will be constructed within a shipping container to house a family of four. Key considerations for the design include user-centered design, design strategies, materials, and addressing limited space. The design process will involve research, interviews, drawings and 3D modeling to develop a layout that meets the needs of occupants and can be easily transported.
See the Light
The only way to understand the implications of daylight on a building design is to either build physical models of the building and study it in a heliodon, or to generate computer models of the building. It is critical to model the space properly to predict the performance of an engineered solution.
The radiance daylighting simulations will demonstrate how diffuses natural light thereby reducing contrast (glare) and increasing the overall ambient light level.
Provides complimentary daylighting simulations in a report format which will:
– educate project stakeholders
– demonstrate design intent and daylighting value to your client
– provide your lighting designers with valuable data
– maximize integration between natural and artificial lighting
The document discusses Hunter Douglas' sun control systems. It describes their exterior blind, shutter, and louvre products. The systems are designed to provide solar control, glare reduction, and increased energy efficiency and occupant comfort. They can be manually or motorized operated. The products come in a variety of materials, colors, sizes, and designs to suit different architectural applications and aesthetics. Hunter Douglas conducts extensive testing to ensure high quality and performance.
Glass Apps Smart Glass is a laminated glass product consisting of a Polymer Dispersed Liquid Crystal (PDLC) smart film sandwiched between two layers of glass and two layers of conductive interlayers. The PDLC film is what allows you to change the visual appearance of the glass from opaque to clear on command (or dim anywhere in between).
Glass Apps also offers a smart film that can be applied to existing glass. Our UL approved technology provides unprecedented control over the amount of light, privacy and heat that enters a space and is ideal for Residential, Commercial Interior, Retail Store Front, Healthcare and Automotive applications. Glass Apps Smart Glass is available in a variety of shapes, sizes, and compositions.
The document discusses factors to consider when choosing and installing glass and glazing for property development, including energy efficiency, natural light, ventilation, noise reduction, safety, and consumer protection. It recommends using an energy savings calculator to evaluate how more efficient windows could reduce heating and cooling costs. Windows are important for ventilation and should provide adequate airflow according to building regulations. Quality glazing can also reduce noise pollution and sun glare while allowing natural light. Fire safety guidelines require windows in habitable first floor rooms to provide emergency exits. Developers should protect themselves and budgets by choosing installers that offer guarantees, warranties, and deposit protection schemes.
Chaque jour, nous nous engageons aux côtés nos clients visionnaires pour construire le bâtiment de demain, un bâtiment qui produit sa propre énergie, sans compromis esthétique.
Every day, we are committed to supporting our visionary clients in the construction of the building of tomorrow, a building that produces its own energy, without aesthetic compromise.
The document proposes a Nano-based coating program called NIRNano that claims to significantly reduce energy consumption and maintenance costs for buildings with large glass areas by insulating against heat transfer and blocking UV rays, while maintaining high visible light transmittance, with financing, warranty, and third party verification options to guarantee savings.
McKenney’s, Inc. Automation and Control Solutions (ACS) - Enhancing Building ...McKenney's Inc
McKenney’s, Inc Automation and Control Solutions (ACS) give you complete control of energy management, HVAC controls and security solutions for the lifecycle of your building.
6 parameters to review when looking at your dream retirement homechandrakant joshi
The document discusses several key factors to consider when selecting a retirement home project. It emphasizes the importance of choosing a high-quality project developed by an experienced developer like Jayvardhan Goenka that will stand the test of time with durable materials and require minimal maintenance. The ideal project also offers customized spaces, smart appliances, amenities, security features, and is located in a preferred area that allows independence and access to services. Selecting a project developed by a reputable developer that meets all these needs could provide the best living experience for retirement.
This document discusses daylight design strategies for buildings. It notes that daylighting uses natural light to reduce energy consumption from artificial lighting while improving occupant well-being. Appropriate window placement, skylights, and building orientation maximize daylight penetration without exacerbating overheating. Daylighting design requires balancing harvest gains with minimizing solar heat, and becomes an integral part of low-energy building design from the start.
The document describes Interval, a post and beam architectural system that can be used to create flexible interior spaces. It allows users to define spaces for collaboration, private offices, and other uses. Components can be added or moved easily to reconfigure the space. The system facilitates power, data, and HVAC integration and is designed for flexibility, sustainability, and meeting changing workplace needs.
The document describes Interval, a post and beam architectural system that can be used to create flexible interior spaces. It allows users to define spaces for collaboration, private offices, and other uses. Components can be added or moved easily to reconfigure the space. The system facilitates power, data and HVAC integration and is designed for flexibility, sustainability and meeting changing workplace needs.
There are well-documented and practical ways to design and build safer, healthier spaces in mixed-use neighborhoods. For implementation at 5 different scales, this report presents essential design features, benefits, challenges and successful examples, and provides resources with more information. Benefits to residents include an enhanced sense of safety, belonging, and neighborliness, as well as improved health and wellbeing.
This document provides information about insulating glass units (IGUs) with integrated cord-free louvers. It discusses how these IGUs can improve energy efficiency and control heat gain by managing light transmission and reducing solar heat gain. Example projects are described that utilize these IGUs for daylighting, sound control, vision and privacy control, and infection control. Controls, profiles and finishes for the louvers are also outlined.
Electrochromatic glass as compared to other smart glass technologies. Electrochromic glass is used primarily for exterior windows while PDLC smart glass can be used for both interior and exterior glass and windows.
Sandhar Intelli-Glass is a unique offering from the house of SANDHAR. It uses an innovative PDLC (polymer dispersed liquid crystal) technology that gives the user the convenience and flexibility of choosing privacy or clarity at a touch of the button.
Multiawarded BIPV technology that turns any building into a high performing solar energy plant, returning your investment within 3 yrs, and keep generating revenue for the next 30.
Smart Glass applications that will change the way you interact with your environment forever
Glass buildings are like Car without wiper.
When we see dust on front screen while driving we press the wiper button,
But we ignore the ugly dust /strain on the glass in the office or at home,
as it is unreachable.
What if you have a button to clean the exterior glass of your office & Home, like car?
Would u like to try?
Automatic Exterior Glass Building Cleaning System. Up until now, cleaning & maintenance of glass façades was
Time-consuming, Expensive and Dangerous.
The mechanism is hidden from view.
Only the result is visible “a sparkling clean glass facade”.
Genuine Green Building product with thermal break Technology
Daylight providing effective and efficient lighting in industrial facilitiesZondits
This document discusses the history and advantages of daylighting in industrial facilities. It covers early uses of daylight as the primary light source and transitions to electric lighting during energy crises. Modern daylighting techniques are presented, including skylights, light shelves, and glazing improvements. The document emphasizes designing daylighting for visual performance and integrating it with electric lighting through controls. The future of daylighting is said to include better glazing materials and control technologies.
Smart windows can automatically control the amount of light entering a building to reduce heating and cooling costs by up to 25% annually. They use suspended particle device (SPD) glass or film that can vary the opacity of the window depending on the voltage applied. A controller receives data from exterior light and interior temperature sensors to determine when windows should be clear, darkened, or intermediate levels to optimize energy efficiency and privacy throughout the year. Installation of a smart window system can both save on energy bills and increase security.
Daylighting concept for a class room building. Radiance simulation evidences design performance , building design David Herjeczki, daylighting Bert Tietje
See the Light
The only way to understand the implications of daylight on a building design is to either build physical models of the building and study it in a heliodon, or to generate computer models of the building. It is critical to model the space properly to predict the performance of an engineered solution.
The radiance daylighting simulations will demonstrate how diffuses natural light thereby reducing contrast (glare) and increasing the overall ambient light level.
Provides complimentary daylighting simulations in a report format which will:
– educate project stakeholders
– demonstrate design intent and daylighting value to your client
– provide your lighting designers with valuable data
– maximize integration between natural and artificial lighting
The document discusses Hunter Douglas' sun control systems. It describes their exterior blind, shutter, and louvre products. The systems are designed to provide solar control, glare reduction, and increased energy efficiency and occupant comfort. They can be manually or motorized operated. The products come in a variety of materials, colors, sizes, and designs to suit different architectural applications and aesthetics. Hunter Douglas conducts extensive testing to ensure high quality and performance.
Glass Apps Smart Glass is a laminated glass product consisting of a Polymer Dispersed Liquid Crystal (PDLC) smart film sandwiched between two layers of glass and two layers of conductive interlayers. The PDLC film is what allows you to change the visual appearance of the glass from opaque to clear on command (or dim anywhere in between).
Glass Apps also offers a smart film that can be applied to existing glass. Our UL approved technology provides unprecedented control over the amount of light, privacy and heat that enters a space and is ideal for Residential, Commercial Interior, Retail Store Front, Healthcare and Automotive applications. Glass Apps Smart Glass is available in a variety of shapes, sizes, and compositions.
The document discusses factors to consider when choosing and installing glass and glazing for property development, including energy efficiency, natural light, ventilation, noise reduction, safety, and consumer protection. It recommends using an energy savings calculator to evaluate how more efficient windows could reduce heating and cooling costs. Windows are important for ventilation and should provide adequate airflow according to building regulations. Quality glazing can also reduce noise pollution and sun glare while allowing natural light. Fire safety guidelines require windows in habitable first floor rooms to provide emergency exits. Developers should protect themselves and budgets by choosing installers that offer guarantees, warranties, and deposit protection schemes.
Chaque jour, nous nous engageons aux côtés nos clients visionnaires pour construire le bâtiment de demain, un bâtiment qui produit sa propre énergie, sans compromis esthétique.
Every day, we are committed to supporting our visionary clients in the construction of the building of tomorrow, a building that produces its own energy, without aesthetic compromise.
The document proposes a Nano-based coating program called NIRNano that claims to significantly reduce energy consumption and maintenance costs for buildings with large glass areas by insulating against heat transfer and blocking UV rays, while maintaining high visible light transmittance, with financing, warranty, and third party verification options to guarantee savings.
McKenney’s, Inc. Automation and Control Solutions (ACS) - Enhancing Building ...McKenney's Inc
McKenney’s, Inc Automation and Control Solutions (ACS) give you complete control of energy management, HVAC controls and security solutions for the lifecycle of your building.
6 parameters to review when looking at your dream retirement homechandrakant joshi
The document discusses several key factors to consider when selecting a retirement home project. It emphasizes the importance of choosing a high-quality project developed by an experienced developer like Jayvardhan Goenka that will stand the test of time with durable materials and require minimal maintenance. The ideal project also offers customized spaces, smart appliances, amenities, security features, and is located in a preferred area that allows independence and access to services. Selecting a project developed by a reputable developer that meets all these needs could provide the best living experience for retirement.
This document discusses daylight design strategies for buildings. It notes that daylighting uses natural light to reduce energy consumption from artificial lighting while improving occupant well-being. Appropriate window placement, skylights, and building orientation maximize daylight penetration without exacerbating overheating. Daylighting design requires balancing harvest gains with minimizing solar heat, and becomes an integral part of low-energy building design from the start.
The document describes Interval, a post and beam architectural system that can be used to create flexible interior spaces. It allows users to define spaces for collaboration, private offices, and other uses. Components can be added or moved easily to reconfigure the space. The system facilitates power, data, and HVAC integration and is designed for flexibility, sustainability, and meeting changing workplace needs.
The document describes Interval, a post and beam architectural system that can be used to create flexible interior spaces. It allows users to define spaces for collaboration, private offices, and other uses. Components can be added or moved easily to reconfigure the space. The system facilitates power, data and HVAC integration and is designed for flexibility, sustainability and meeting changing workplace needs.
There are well-documented and practical ways to design and build safer, healthier spaces in mixed-use neighborhoods. For implementation at 5 different scales, this report presents essential design features, benefits, challenges and successful examples, and provides resources with more information. Benefits to residents include an enhanced sense of safety, belonging, and neighborliness, as well as improved health and wellbeing.
This document provides information about insulating glass units (IGUs) with integrated cord-free louvers. It discusses how these IGUs can improve energy efficiency and control heat gain by managing light transmission and reducing solar heat gain. Example projects are described that utilize these IGUs for daylighting, sound control, vision and privacy control, and infection control. Controls, profiles and finishes for the louvers are also outlined.
Electrochromatic glass as compared to other smart glass technologies. Electrochromic glass is used primarily for exterior windows while PDLC smart glass can be used for both interior and exterior glass and windows.
Sandhar Intelli-Glass is a unique offering from the house of SANDHAR. It uses an innovative PDLC (polymer dispersed liquid crystal) technology that gives the user the convenience and flexibility of choosing privacy or clarity at a touch of the button.
Multiawarded BIPV technology that turns any building into a high performing solar energy plant, returning your investment within 3 yrs, and keep generating revenue for the next 30.
Smart Glass applications that will change the way you interact with your environment forever
Glass buildings are like Car without wiper.
When we see dust on front screen while driving we press the wiper button,
But we ignore the ugly dust /strain on the glass in the office or at home,
as it is unreachable.
What if you have a button to clean the exterior glass of your office & Home, like car?
Would u like to try?
Automatic Exterior Glass Building Cleaning System. Up until now, cleaning & maintenance of glass façades was
Time-consuming, Expensive and Dangerous.
The mechanism is hidden from view.
Only the result is visible “a sparkling clean glass facade”.
Genuine Green Building product with thermal break Technology
Daylight providing effective and efficient lighting in industrial facilitiesZondits
This document discusses the history and advantages of daylighting in industrial facilities. It covers early uses of daylight as the primary light source and transitions to electric lighting during energy crises. Modern daylighting techniques are presented, including skylights, light shelves, and glazing improvements. The document emphasizes designing daylighting for visual performance and integrating it with electric lighting through controls. The future of daylighting is said to include better glazing materials and control technologies.
Smart windows can automatically control the amount of light entering a building to reduce heating and cooling costs by up to 25% annually. They use suspended particle device (SPD) glass or film that can vary the opacity of the window depending on the voltage applied. A controller receives data from exterior light and interior temperature sensors to determine when windows should be clear, darkened, or intermediate levels to optimize energy efficiency and privacy throughout the year. Installation of a smart window system can both save on energy bills and increase security.
Daylighting concept for a class room building. Radiance simulation evidences design performance , building design David Herjeczki, daylighting Bert Tietje
2. Natural light
is better.
That’s our view.
For forward thinking, energy
conscious builders and architects
who want the best for their
occupants, View®
Dynamic Glass
offers intelligent windows
that maximize natural light
and unobstructed views while
reducing heat and glare.
Unlike traditional glass,
View Dynamic Glass tints in
response to outdoor conditions
providing greater comfort and
energy efficiency without ever
compromising the view.
This and opposite page:
Denver Botanic Gardens
Denver, CO
Architect: Burkett Design
3. A look into the future.
Glass with an IQ.
View Dynamic Glass is powered by a sophisticated intelligence engine that adapts to your
environment and you. It automatically responds to outdoor conditions and people’s preferences,
or can be controlled individually from a mobile device.
4. DPR Construction
San Francisco, CA
Architect: FME Architecture + Design
Enjoying the benefits of natural light,
thanks to View Dynamic Glass skylights.
All day comfort.
No shades. No blinds. No heat. No glare.
View Dynamic Glass adjusts throughout the day to
optimize the indoor climate and the outside view,
creating more comfortable, productive, and energy-
efficient interiors that help people thrive.
“A room is not a room
without natural light”
— Louis Kahn, Architect
5.
6. CSU Lory Student Center
Fort Collins, CO
Architect: Perkins + Will
CSU Lory Student Center
Fort Collins, CO
Architect: Perkins + Will
7. 35%
Lighting
27%
Airflow &
pumps
38%
Cooling
20
Savin
2
Light
Traditional high-rise
building energy use
Dynamic high-rise
building energy use
7
Tint 1
58%
0.40
Tint 2
40%
0.33
Tint 3
10%
0.13
Tint 4
1%
0.09
35%
Lighting
27%
Airflow &
pumps
38%
Cooling
20%
Savings
31%
Cooling
28%
Lighting
21%
Airflow &
pumps
Expansive views.
Greener planet.
Visible light transmittance
Solar heat gain coefficient
Blinds and shades are now obsolete.
A stunning view blocked by blinds or marred by glare
is not really a view at all. View Dynamic Glass connects
you to the outdoors and automatically adjusts to keep
you comfortable, so you can enjoy and be inspired by
your view, 24 hours a day.
Enjoy the environment—while protecting it.
New buildings face demanding design challenges to
meet energy efficiency regulations and guidelines.
By letting in natural light and blocking unwanted solar
heat, View Dynamic Glass significantly reduces air
conditioning and lighting costs. This results in energy
savings of up to 20%, especially during peak hours
when energy costs are at their highest.
8. Your view.
At your fingertips.
Control View Dynamic Glass from anywhere.
Create schedules, track energy efficiency,
and manage entire buildings from your iOS
or Android device.
View Dynamic Glass transitions seamlessly
between multiple tint states. Nano-layers of
electrochromic coating on the surface of the
glass respond to a tiny voltage, tinting the
glass, and putting you in control of your view.

10. Intelligence
inside.™
Exceptional comfort, energy efficiency, and
the intelligence to know how to deliver it:
the View intelligence engine prioritizes
decisions based on glare, heat load, and
daylight to create the most comfortable
conditions inside.
Eliminate Glare
Intelligence calculates the penetration of the
sun into the room and changes tint levels
accordingly to prevent glare.
Minimize Heat Load
Intelligence manages the amount of solar
radiation allowed through the glass based
on a building’s heat load specifications.
Maximize Daylight
Intelligence maximizes daylight
while continuously addressing heat
and glare.
Personalized Control
Each window, zone, or entire
façade can be controlled via a
smart phone or tablet.
CenturyLink Technology Center
Monroe, LA
Architect: Moody Nolan
11. Intelligence
outside.™
Algorithms automatically adjust tint levels
based on the building’s design, location,
orientation, and time of day.
Latitude & Longitude
Intelligence uses precise coordinates to calculate
the sun’s position and anticipate its impact on
the people inside.
Building Orientation
Intelligence takes into account building
orientation, the position of each window,
and the sun’s path.
Architecture
Exterior architectural features, such
as overhangs and window sizes, are
factored in to determine how glare will
impact workspaces.
Cloud Cover
Light sensors and real-time weather
feeds inform the system of current
and upcoming weather conditions
and adjust tint levels accordingly.
12. A window that
makes people
happy inside.
For Occupants
Unobstructed Views
With View Dynamic Glass, there’s no need
for blinds or shades. Natural views become
part of the indoor experience.
Windows that Adapt to You
Tint levels adjust automatically based
on outside conditions and personal
preferences—or take control via
a smart phone or tablet.
Enhanced Well-being
View Dynamic Glass brings in the best
of the outdoors helping you think, work,
create, and live better.
13. A window with
clear value.
For Building Owners
& Developers
Increased Productivity
In corporate environments—up to 15%
increase in employee productivity.
In hospitals—8% faster recovery in patients.
In educational facilities—20% improvement
in student performance on math tests.
Dramatic Energy Savings
Achieve your LEED certification goals
by earning LEED points in 7 different
categories.
Reduce energy consumption by
more than 20%.
Greater Building Value
Beautiful views, abundant natural light, and
energy efficiency increase occupancy rates
as well as resale and rental value.
Gilcrease Museum
Helmerich Center for
American Research
Tulsa, OK
Architect:
Hastings + Chivetta
14. A window that opens possibilities.
For Architects
No Compromises. Create buildings with even greater
architectural appeal, expansive views, and abundant daylight
while still meeting energy requirements and regulatory
codes.
Connected & Intelligent. Interface with HVAC
and lighting systems for superior comfort and
climate control.
Living Buildings. Create truly stunning,
signature architecture
with perpetually adapting
façades—without obtrusive
fins or louvers.
Clovis Community Medical Center
Clovis, CA
Architect: HGA
15. World-class glass
manufacturing
meets Silicon Valley.
View is led by a diverse team of entrepreneurs,
partners, and investors with extensive experience
in building ground-breaking products and lasting
companies. The team has deep experience in
semiconductor and glass manufacturing—driving
process control, glass performance, and cutting-
edge technology.
With a high-tech manufacturing facility that’s as
advanced as the dynamic glass it produces, View
is leading the charge in glass technology and
fueling a dramatic shift in building design.
View, Inc.
Manufacturing Facility
Olive Branch, MS
18. From customized energy modeling
to system configurations uniquely
tailored to your building’s needs,
your View team will be there from
design to commissioning and
beyond. We partner with you every
step of the way to ensure you get
the most out of your investment in
View Dynamic Glass.
info@viewglass.com
+1.408.514.6512
viewglass.com
We also build
relationships.
Partnering with
you every step
of the way.