The integrated hardware and software platform is designed to speed up the development of medical devices and diagnostic systems.


HiArc will showcase its integrated hardware and software platform, HiArc Ctrl, at the Association for Diagnostics & Laboratory Medicine (ADLM) 2026 meeting in Anaheim, California. The platform is intended to help engineering teams move from concept to prototype faster by providing a ready-to-use control architecture, according to a press release from the company.

The system combines an embedded hardware controller with a software development kit to allow users to interface with sensors and actuators in real time. According to the company, the platform supports documented and traceable workflows suitable for regulated clinical environments.

“HiArc Ctrl reflects decades of experience developing complex medical and diagnostic instruments,” says Tony Lacroix, product director at HiArc, in a release. “We’ve seen firsthand how much time engineering teams spend creating and validating control systems. By providing a proven hardware and software foundation, we’re helping customers move faster from concept to commercialization.”

In addition to the control system, the company will highlight its development capabilities, including engineering design, manufacturing, and commercialization. HiArc aims to act as an extension of client teams to accelerate time to market for diagnostic and life sciences innovators, according to the company.

“Diagnostics companies are under increasing pressure to bring innovative systems to market faster, while managing risk, cost and regulatory complexity,” says Nate Doemling, president of HiArc, in a release. “HiArc’s full scope development expertise helps manufacturers to navigate these complexities, accelerate decision-making, and streamline execution.”

The ADLM 2026 conference takes place July 26–30 at the Anaheim Convention Center. Attendees can visit the company at booth 3555 to view the platform and discuss development partnerships.

Photo caption: HiArc Ctrl

Photo credit: HiArc