BrainChip has been awarded a $1.8M contract by the Air Drive Analysis Laboratory (AFRL) to develop neuromorphic radar signaling processing applied sciences.
The contract focuses on “Mapping Advanced Sensor Sign Processing Algorithms onto Neuromorphic Chips” and follows a profitable demonstration of radar processing algorithms on BrainChip’s Akida {hardware}.
Akida is designed for ultra-low energy consumption, making it appropriate for edge computing purposes in army, spacecraft, and robotics sectors.
“Radar signaling processing might be carried out on a number of airborne and cell platforms, so minimizing system SWaP-C is important,” says Sean Hehir, CEO of BrainChip. “The contract to enhance radar signaling purposes for Air Drive Analysis Laboratory highlights how neuromorphic computing can obtain important advantages of low-power, high-performance compute in essentially the most mission-critical use instances. This award is a really sturdy endorsement from main organizations akin to AFRL for our groundbreaking Akida {hardware} and state-space AI fashions utilizing Temporal Enabled Neural Community (TENNs) mannequin choices.”
The mission goals to boost radar processing capabilities in programs with measurement, weight, energy, and value constraints, together with drones and protection programs.
BrainChip’s expertise gives important benefits in low-power, high-performance computing for mission-critical purposes, emphasizing the way forward for on-chip AI processing.
BrainChip not too long ago launched the Akida Pico, the bottom energy AI acceleration co-processor designed for ultra-low energy, moveable gadgets in numerous sectors.
Associated
AI processor | Brainchip | edge AI | edge {hardware} | neuromorphic chips
