How FPGAs Are Powering the Next Generation of Smart Robots
As businesses expect more advanced performance from robotic assistants, designing these systems has become increasingly complex. Field Programmable Gate Arrays (FPGAs) play a crucial role in supporting this new wave of robotics.
History and Evolution of Industrial Robots
Autonomous robots have cooperated with humans in industrial manufacturing for over fifty years. Since the first industrial robot was introduced in the 1950s, companies have delegated repetitive or hazardous tasks to machines to free employees for more complex duties.
Expansion Beyond Industry
Today, advanced robotics extend well beyond industrial applications, reaching sectors like healthcare, retail, and agriculture. Innovations in artificial intelligence and machine learning have led to a generation of smarter robots capable of more than just repetitive work.
Capabilities of Smart Robots
- Computer vision for object recognition and analysis
- Autonomous mobility enabling independent movement
- Tasks including product assembly, quality control, and threat detection
These smart robots have become an indispensable asset to bolster modern workforces, offering a high level of precision and a near-unlimited capacity for productivity.
However, meeting the rising demands of businesses requires increasingly sophisticated designs, making the development process more challenging.
Summary
FPGAs are essential for powering smart robots that perform complex tasks across diverse industries, helping businesses enhance efficiency and precision amid growing design challenges.