HP to Utilize Structure 3D Software
Development Kit to Enable Client Development of 3D Scanning
Applications as Part of End-to-End 3D Scanning, 3D Printing
Offering
BOULDER,
Colo., Feb. 3, 2025 /PRNewswire/ -- Structure, a
global leader in 3D Intelligence, announced today that it has
signed a 3D software licensing agreement with global printing
leader HP Inc.
Under the agreement, HP will offer the AI-powered
Structure Software Development Kit (SDK) to provide 3D scanning
application development services tailored to the needs of its 3D
printing clients. The agreement is part of HP's initiative to
provide end-to-end 3D scanning and 3D printing services to its
clients, accelerating adoption across diverse applications.
"Our agreement with Structure provides our
clients with access to the industry's leading 3D scanning software
development tools and is an important step in enabling companies to
maximize our technology," said Pierre
Kaiser, Head of 3D Design for HP. "This is the perfect blend
of Structure's 3D scanning and imaging expertise combined with HP's
global 3D printing leadership. The winners will be our clients, who
now have access to the industry's leading app development
technology to move their 3D printing vision forward."
Structure SDK empowers thousands of developers to
build their own 3D scanning apps and is a key element in the
company's drive to enable product development and improved patient
care for entrepreneurs and large global companies alike. To date,
more than 300 applications have been developed and deployed using
Structure SDK.
Structure, which launched as a spin-off from 3D
imaging pioneer Occipital in 2022, also provides 3D scanning
technology through its Structure 3 scanner and Structure Capture
iOS mobile application, which enables mobile, highly accurate, 3D
scanning through iPads and iPhones.
"HP continues to lead the industry in empowering
its customers to develop cutting edge 3D printing solutions. We
look forward to supporting HP in this effort by providing access to
our Structure Software Development Kit," said Ravi Shah, CEO of Structure. "The SDK platform
gives developers access to easy-to-use software tools to create new
and innovative 3D scanning applications. Enabling the creativity of
today's 3D printing developers will have long-term positive impact
on patient outcomes throughout the global healthcare industry."
About HP Inc.
HP Inc. (NYSE: HPQ) is a global technology leader and creator of
solutions that enable people to bring their ideas to life and
connect to the things that matter most. Operating in more than 170
countries, HP delivers a wide range of innovative and sustainable
devices, services and subscriptions for personal computing,
printing, 3D printing, hybrid work, gaming, and more. For more
information, please visit http://www.hp.com.
About Structure
Headquartered in Boulder, Colo., Structure launched in 2022 as
a spinoff from Occipital Inc to leverage its 3D scanning and
machine learning expertise to transform the healthcare sector.
Positioned as a deep tech company at the intersection of hardware,
software, and AI, Structure integrates advanced Digital Twin
technology to revolutionize patient care. Structure's vision is to
democratize personal healthcare by creating the most widely used 3D
scanning platform to monitor and improve patient outcomes
worldwide.
The company has achieved steady growth in the past two years,
with its technology deployed by over 150,000 physicians across the
globe. Structure's healthcare computing platform combines detailed
body capture with AI-driven measurement and analysis tools,
empowering the creation of personalized healthcare therapies and
consumer goods. By enabling precise Digital Twin models of the
human body, Structure is setting a new standard for accuracy and
personalized healthcare therapies in the healthcare industry. For
more information, please visit https://structure.io/.
View original content to download
multimedia:https://www.prnewswire.com/news-releases/structure-hp-agree-to-software-licensing-agreement-302366041.html
SOURCE Structure