How FPGAs Are Powering the Next Generation of Smart Robots

As businesses demand more from their robotic assistants, designing these systems becomes increasingly complex. Field Programmable Gate Arrays (FPGAs) provide crucial support in meeting these challenges.

History and Evolution of Industrial Robots

Autonomous robots have been collaborating with humans in industrial manufacturing for over half a century. Since the first industrial robot was introduced in the 1950s, companies have delegated tedious or hazardous tasks to machines, enabling workers to focus on more skilled duties.

Expansion Beyond Industrial Manufacturing

Advanced robotics are no longer confined to industrial use. They have expanded into sectors such as healthcare, retail, and agriculture. This broad adoption highlights the growing importance of robotic technologies across diverse industries.

Technological Advancements Driving Smarter Robots

Recent breakthroughs, especially in artificial intelligence and machine learning, have yielded a new generation of robots capable of sophisticated operations beyond repetitive tasks. Features like computer vision and autonomous mobility enable these machines to handle product assembly, quality control, and advanced threat detection and response.

"Smart robots have become an indispensable asset to bolster modern workforces, offering a high level of precision and a near-unlimited capacity for productivity."

As the expectations for robotic assistants rise, creating these intelligent systems becomes exponentially more challenging, necessitating innovative support technologies like FPGAs.

Author’s Summary

FPGAs are essential in developing smarter robots that transform industries by enabling advanced functions and meeting growing business demands.

Automation.com — 2025-11-06