Accelerate Research with Customizable, Real-Time FPGA Solutions
Data-intensive experiments require precision, reproducibility, and speed. Design Gateway’s FPGA IP cores allow researchers to build high-performance, low-latency pipelines for advanced computation, ML/AI acceleration, and instrumentation logging.
✅ Flexible IP for experimental designs
✅ Real-time control and data collection
✅ Seamless AI model integration via NVMe
Common Use Cases
- NVMe-IP: High-speed sensor logging
- TCP/IP: Experimental control & cloud sync
- AES-IP: Data integrity in sensitive research
Unleash Real-Time Scientific Processing
Blazing-Fast FPGA Solution Records & Processes Scientific Data Instantly
Unlock the future of high-performance scientific computing with Design Gateway’s cutting-edge FPGA-based solution—engineered to capture and process massive scientific data streams at speeds exceeding 10GB/s. Ideal for physics experiments, particle imaging, genomics, AI model logging, and lab instrumentation, this reference design eliminates traditional CPU and OS bottlenecks by running high-speed recording and analysis directly on FPGA hardware. Researchers and developers can access recorded data instantly over the network using the exFAT file system, enabling real-time diagnostics, continuous experimentation, and high-resolution insight without system slowdowns.
Key Advantages
- 10GB/s+ NVMe SSD recording – Handle ultra-high-speed experiment data with zero loss
- Real-time file access via exFAT over network – Instant analysis without delay
- No CPU or OS required – Eliminate complexity and streamline hardware design
- Ready-to-use reference design – Speed up implementation and reduce development risk
- Unlock FPGA processing potential – Run custom data analytics and pipelines in real time
Examples of DG’s IP Core Applications
Self-drive car
Genetic research
Advance Science Research
Success Stories & Application Example
Key Factors
- Up to 6GB/s per SSD for real-time scientific data recording with best in class NVMe PCIe Gen4 SSD
- Up to 10GB/s per 100GbE interface for high speed scientific data transfer over network
- No CPU Intervention, Sustainable performance for real-time application
