Top 3 Must-Have Features of a Modern-Age FPGA

The semiconductor industry brings highly advanced and efficient FPGAs, which cater to the present-day requirements.

FREMONT, CA: The growing demands for AI and ML-based high bandwidth acceleration applications motivate the FPGA developers to create new semiconductor designs with highly optimized architecture and add next-generation features. FPGA manufacturers are putting lots of effort into enhancing the existing FPGA functionalities by upgrading the models. To achieve the ever-growing customer demands for the high-tech performance of electronic products, devices, and machinery, professionals must ensure the following features in FPGA.     

High-Security Features

The growing digital era not only presents enormous opportunities to expand businesses and communicate seamlessly but also increases the risk to cybersecurity. Professionals need to check for FPGAs, which are integrated with high-security features. There are advanced FPGAs available in the market with multiple layers of defense to protect secrecy and integrity. Deploying such high security-providing FPGA can help the professionals improve their product safety and gain customer trust. 

High Memory Bandwidth

Today, most of the electronic devices are integrated with machine learning and artificial intelligence features. To improve the computing performances of such devices, modern FPGAs support high off-chip memory bandwidth. Advanced memory solutions help the electronic devices and machinery manage and accelerate data insights efficiently and deliver high-performance.

High Computing Performance

Highly configured FPGA chips provide intensive blocks that support embedded memory and eliminate the delays in data delivery or computation. Deploying advanced FPGA chips based on Tera-Operations per second (TOps) ensures high-performance data delivery and high-density computation.  

FPGAs are tailored for modern industrial applications, and ensuring these top features can promise quality performance in the long run.