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FPGA-Powered Performance: DG’s IP Solutions for the Broadcasting & Robotics Market

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As the broadcast industry evolves to embrace automation and AI, Broadcasting Robotics is rapidly redefining the future of live sports, studio production, and immersive event coverage. From intelligent PTZ cameras and cable-cams to drones and AR/VR robotic arms, these systems demand frame-accurate storage, low-latency networking, deterministic control, and hardened security.

This is where Design Gateway (DG) comes in—with a suite of FPGA-based IP cores designed specifically to meet these challenges with unmatched performance, minimal latency, and zero CPU overhead.

Why Broadcasting Robotics Needs FPGA-Based IP Cores

Modern broadcast robotics systems require:

  • Ultra-high-bandwidth storage for RAW 4K/8K footage
  • Jitter-free video streaming with frame-accurate timing
  • Deterministic, real-time control across noisy production networks
  • End-to-end encryption for remote operation over the internet

DG’s hardware-centric IPs meet all these needs, empowering robotics platforms to operate flawlessly under pressure.

Key IP Cores Powering Innovation

IP CoreRole in Broadcasting RoboticsPerformance
NVMe IP core is standalone NVMe Host Controller with built-in optimized PCIe Bridge and Internal Memory Buffer, designed to handle NVMe Protocol without need CPU/OS and External DDR memory. It’s recommended for the application which requires high performance, high storage capacity, very compact system size and easily to support multiple NVMe SSDs.Frame-accurate capture & playout to SSD arraysUp to 7 GB/s (PCIe Gen4 x4)
UDP100G/40G/25G/10G/1G IP core is the epochal solution implemented without CPU. This IP core is suitable for network application. This IP product includes reference design for AMD FPGA. It helps you to reduce development time. DesignGateway provide free demo file for AMD FPGA boards. You can evaluate UDP10G-IP core on real board before purchasing.CPU-free streaming with sub-frame latency>90% bandwidth on 10/25/100G
TCP Offloading Engine IP core (TOE200G/100G/40G/25G/10G/1G-IP) is the epochal solution implemented without CPU. Generally, TCP processing is so complicated that expensive high-end CPU is required. TOE-IP core series built by pure hardwired logic can take place of such extra CPU for TCP protocol management. This IP product includes reference design for AMD FPGA. It helps you to reduce development time. DesignGateway provide free demo file for AMD FPGA boards. You can evaluate TOE-IP on real board before purchasing.High-throughput deterministic control over LAN10G / 25G / 100G variants
TLS1.3 IP (Transport Layer Security IP) is the CPU-less & High-performance TLS v1.3 protocol engine for FPGA Acceleration with no CPU and external memory required. Providing maximum Gigabit Ethernet throughput for highly secure data transmission over 1G/10G/25G/100G network. Protect your valuable data from potential security breaches by using TLS secure transmission now! Especially, in Industrial IoT & Automation, Aerospace & Defense Applications. Our TLS 1.3 IP core demo can successfully demonstrate very high throughput HTTPS Upload and Download with standard web server by pure hardware logic on FPGA.Secure remote access with zero CPU load>90% throughput on 10GbE
QUIC Client 10Gbps IP Core (QUIC10GC-IP) is engineered from the ground up to simplify the QUIC protocol with TLS 1.3 security into pure hardware logic for FPGA-based client applications. This IP core fully offloads the CPU from handling TLS 1.3 handshakes, encrypting/decrypting payload data, and managing both QUIC and UDP/IP layers within Single IP Core. Get ready to leverage the next generation of network protocols with the QUIC10GC-IP core today! In today’s digital landscape, traditional TCP/IP protocols struggle with head-of-line blocking, causing data delays and inefficiencies. Our QUIC10GC IP Core overcomes these challenges by leveraging the QUIC protocol, ensuring uninterrupted data transmission and enhanced network efficiency. It handles security tasks, congestion control, and data recovery without needing a CPU, maintaining high throughput. QUIC10GC IP is the ideal solution for creating a seamless, secure, and high-performance network. Experience the future of your networking applications with QUIC10GC IP, where speed, security, and reliability converge.Resilient video over unreliable wirelessHandles retransmit in hardware
High throughput & Super Low Latency for secure communication applications. AES256-GCM IP core implement the advanced encryption standard (AES) with 256-bit key in Galois/Counter Mode (GCM) which is widely used for Authenticated Encryption with Associated Data (AEAD) application. This IP is suitable to work together with Low Latency TOE10G IP core for high performance, low latency and secure communication applications.Inline 128/256-bit encryption for video + control streams10G to 100G scalable encryption

Real-World Use Cases

IP Used: NVMe-IP + UDP-IP Capture high-frame-rate RAW video directly to SSD, while UDP-IP pushes live video to vision mixers. Sub-frame latency ensures joystick commands feel instant—even on busy LANs.

🎥 Robotic PTZ & Cable-Cam Systems

IP Used: NVMe-IP + UDP-IP
Capture high-frame-rate RAW video directly to SSD, while UDP-IP pushes live video to vision mixers. Sub-frame latency ensures joystick commands feel instant—even on busy LANs.

IP Used: TOE-IP + TLS 1.3-IP Camera motion, LIDAR, and focus metadata are streamed via TOE-IP for real-time feedback. Remote directors stay connected securely with TLS 1.3, all without taxing the CPU.

🦾 Autonomous AI Studio Dollies

IP Used: TOE-IP + TLS 1.3-IP
Camera motion, LIDAR, and focus metadata are streamed via TOE-IP for real-time feedback. Remote directors stay connected securely with TLS 1.3, all without taxing the CPU.

IP Used: QUIC-IP + AES-GCM-IP Enable drones to hop between 5G and Wi-Fi seamlessly. QUIC-IP handles network jitter in real-time, while AES-GCM-IP encrypts video and telemetry to comply with rights agreements.

🚁 Drone-Based Live Streaming

IP Used: QUIC-IP + AES-GCM-IP
Enable drones to hop between 5G and Wi-Fi seamlessly. QUIC-IP handles network jitter in real-time, while AES-GCM-IP encrypts video and telemetry to comply with rights agreements.

IP Used: NVMe-IP + TOE-IP + AES-GCM-IP During takes, video is recorded locally. Between takes, TOE-IP transfers content over LAN, all while AES-GCM keeps every byte protected from leaks.

🎬 Virtual Production Robot Arms

IP Used: NVMe-IP + TOE-IP + AES-GCM-IP
During takes, video is recorded locally. Between takes, TOE-IP transfers content over LAN, all while AES-GCM keeps every byte protected from leaks.

What Makes DG’s IP Stand Out?

Pure-Hardware Determinism
Eliminates jitter, driver bugs, and OS interruptions.

Effortless Scalability
Upgrade from 10G to 100G by swapping IP variants—no software changes required.

Security at Line Rate
No CPU bottlenecks. Stream and encrypt at full bandwidth.

Proven Ecosystem Compatibility
Supports AMD UltraScale+/Versal, Intel Agilex 5/7, Lattice Avant™, and more.

Get Started Today

Design Gateway provides evaluation bitstreams, reference designs, and tailored engineering support to bring your broadcasting robotics project to life.

📞 Ready to elevate your system design?
📩 Contact us for a tailored demo or consultation »

Dive Deeper into Broadcasting IP Solutions

Categories:FPGA & AIFPGA TechnologyLow LatencyNetworkingSecurityStorageVertical Market

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