Future-Proof Trust: Securing Digital Systems with Lattice RoT FPGAs and Complete CNSA 2.0 Algorithm Coverage: As data breaches surge and attackers grow more sophisticated, the rise of quantum computing adds a new layer of urgency—enabling adversaries to steal encrypted data today and decrypt it tomorrow, threatening the long-term trust in all digital systems. In response, governments and industries are accelerating regulations and adopting post-quantum cryptography (PQC) standards like CNSA 2.0 and NIST’s FIPS 203/204 to safeguard critical infrastructure and ensure compliance. Trust in digital systems now depends on crypto-agility and hardware-based roots of trust that can adapt to evolving threats. This white paper explains why PQC matters now, how nations and industries are responding, and how Lattice Semiconductor’s PQC enabled RoT FPGAs can equip organizations to secure their future in a quantum-enabled world.
Enhancing Human-Machine Interfaces with Advanced User Context Awareness: Industries are rapidly shifting from static human-machine interfaces (HMIs) to intuitive, context-aware systems to meet growing user expectations for ease, safety, and efficiency. The Lattice sensAI™ solution stack empowers developers to build low power, edge-optimized HMIs using purpose-built, pre-trained AI models for vision and audio processing. By integrating context-aware capabilities like gesture recognition, gaze tracking, and voice commands, Lattice sensAI enables safer, more efficient, and personalized user experiences. This white paper outlines the limitations of traditional HMIs, the transformative potential of context-aware interfaces, and how Lattice’s low power FPGA-based solutions drive innovation while promoting sustainability through significant energy savings.
Random Bin Picking Based On Structured-Light 3D Scanning: The random bin picking using the structured-light 3D scanning plays an important role in factory automation. It enables the robot to pick-up known objects with random poses out of a bin and sort out the objects for the next assembly step. This white paper describes how the Lattice FPGA benefits the system design, specifically by reducing the system BOM cost. By aligning with Lattice’s FPGA solutions, you can build a cost-effective random bin picking system.
Lattice Nexus™ 2 Platform: Low Power, High Performance Small FPGA Abstract: A small FPGA platform generally refers to FPGAs with a logic density of under 200k SLC (System Logic Cells), an area where Lattice FPGAs excel. The Lattice Nexus™ 2 FPGA platform is based on the 16 nm process node. This paper presents a comparative analysis of the Lattice Nexus 2 platform against other readily available FPGAs in the same class at the time of its introduction. This analysis covers power consumption, boot time, form factor, and security features. This white paper examines how these factors impact total cost of ownership (TCO) and various applications.
Post-Quantum Cryptography (PQC):Securing the Future in the Quantum Age Abstract: Rapid advancements in quantum computing pose a significant threat to traditional cryptographic systems.
In an era where quantum computing threatens to upend traditional cryptographic systems, the time to act is now. This white paper delves into the vulnerabilities of current encryption protocols, unveils newly standardized PQC algorithms, and provides a strategic roadmap for organizations adopting quantum-resistant practices. By aligning with Lattice Semiconductor’s innovative solutions, you can safeguard your digital assets and stay ahead in the quantum age.
Sensor Hub For Near-Sensor Low-Latency Data Fusion in AI Systems Abstract: The FPGA-based sensor hub provided by Lattice Semiconductor benefits the development of smart robots. Its flexible Input/Output (I/O) and parallel computing near the sensors enable the connection with multiple sensors and actuators with low-latency and low-power computing. It offloads sensor-specific, low-level, and real-time computation from the CPU and GPU, allowing them to focus on high-level intelligence. The small form factor, low power consumption, and lack of need for a cooling system (e.g., fan) make Lattice solutions most suitable for robots in factories.