通信&计算

Present-day edge AI systems rely heavily on multi-modal sensor fusion, such as camera, lidar, and radar, to enable accurate, real-time decision-making. Existing platforms, such as NVIDIA® Jetson Orin NX, are equipped to adequately support multi-camera use cases. To advance this further, NVIDIA’s latest Jetson Thor series modules have been combined with the Holoscan Sensor Bridge board – running on a Lattice FPGA – to address the increase in sensor counts and synchronization...

FPGA development moves fast, and your verification flow and simulations need to keep up. Long compile times, manual setup steps, and constant design changes can easily slow momentum when you are trying to iterate fast. Before a design ever reaches hardware, you need absolute confidence that it behaves exactly as intended. Lattice Radiant® Software, paired with Siemens QuestaSim Lattice FPGA Edition simulator, delivers powerful functional verification capabilities, but the reality is familiar...

The humanoid robotics market is moving quickly from concept to commercial reality. Work that once belonged in research labs is now appearing in factories, warehouses, and service environments due to major improvements in sensing, actuation, and edge intelligence. As these systems take on more complex workloads, developers must deliver dense sensor fusion, sub microsecond motor control loops, and real time perception within tight power and thermal limits. The central question is no longer whethe...

When it comes to making predictions, sometimes you really have to go out on a limb and sometimes, well, it’s pretty easy. In 2026, there’s zero doubt that AI, generative AI, and agentic AI will continue to be the key buzzwords driving the tech industry forward. Perhaps a bit less obvious is this year should also mark the beginnings of a growing opportunity in Edge AI, where AI-focused workloads can run in disconnected environments and/or locally on client type devices. The combinati...

The continued evolution of AI is reshaping the foundation of datacenter design and development. As workloads grow more complex and resource-intensive, operators face mounting challenges related to datacenter performance, reliability, and security. If workload demands can’t be consistently met, infrastructure will be unable to scale without disruption. In our latest LinkedIn Live panel discussion , Lattice experts and Bob O’Donnell from TECHnalysis Research explored the increasingly c...

The transition to post-quantum cryptography (PQC) is not a theoretical future event. It is the largest cryptographic migration in modern history, already shaping product roadmaps, standards bodies, and infrastructure planning across servers, AI datacenters, telecom, industrial automation, and critical systems. In this interview, we sat down with Mamta Gupta, a leader driving Lattice’s quantum-safe security strategy, to discuss Quantum Day (Q-Day) readiness, crypto-agility, Security Proto...

Artificial intelligence (AI) is rapidly moving out of the datacenter and into the real world, powering everything from industrial robots to autonomous vehicles and smart infrastructure. Edge devices have become the new frontier for AI, driving smarter factories, safer vehicles, and more responsive cities. Meeting the needs of edge applications involves using AI that is efficient, adaptable, and scalable, since these scenarios often involve unique technical constraints and possibilities. As AI ...

The Lattice Mach™ brand of FPGAs has long set the standard for performance, flexibility, and efficiency in board control and security applications. With the launch of the new Lattice MachXO4™ FPGA family, Lattice is redefining what’s possible for control and connectivity in next-generation systems, delivering competitive power efficiency, robust reliability, and design flexibility for a wide range of applications in the Compute, Industrial, Automotive, Consumer, and Communicati...

Interest in edge computing has surged as organizations across industries seek smarter ways to automate processes, enhance productivity, and optimize labor. By processing data closer to its source, edge systems can provide benefits like reduced transmission and storage costs and strengthened security. They can also enable the development of advanced machines and devices, from autonomous mobile robots (AMRs) and humanoids to smart medical devices, which can operate with precision and speed. Thes...

Across industries and use cases, computing capacity is shifting away from centralized servers and towards the edge. Whether in the form of autonomous vehicles, smart sensors, or other technological solutions, today's intelligent applications demand faster decision-making and increased autonomy. This shift is especially prevalent in the Industrial, defense, and aerospace industries. The unmanned aerial vehicles (UAVs) and drones used in defense applications rely heavily on edge intelligence to...

Our digital world is undergoing a profound transformation. Cloud computing, artificial intelligence (AI) and machine learning (ML) workloads, as well as the emergence of quantum computing capabilities, are reshaping how networks must be protected and secured. What’s more, these changes come amid evolving risks & regulations – from the prevalence of “harvest now; decrypt later” attacks, to updated standards like the Commercial National Security Algorithm Suite (CNSA) 2...

Each year, the Open Compute Project (OCP) Global Summit brings together the tech industry’s most innovative thinkers to discuss the current and future state of open hardware and software solutions. This year, Lattice and our ecosystem partners had the opportunity to showcase a range of our Field Programmable Gate Array (FPGA)-based solutions that help enable OCP-compliant development of datacenters, artificial intelligence (AI) solutions, and more. In case you missed the show, here’...

Planning and execution are two very different beasts. A project may appear straightforward on paper, staying within budget, on schedule, and technically sound, only to hit roadblocks in the real world. However, turning ideas into reality isn’t always smooth, and success depends on how well we anticipate and navigate the unknowns. This gap between concept and execution is especially pronounced in the fast-growing realm of edge artificial intelligence (AI). In a recent roundtable discussion...

One of the more exciting developments now happening in the high-tech world is the work being done to enable quantum computing. After decades of theoretical discussion and development, the last few years have shown tangible progress in this radically different (and enormously complex) new method of computing. Quantum computers essentially perform calculations by flipping the electrical charge of individual atoms and allowing them to simultaneously exist in more than one state through a process ca...

Quantum computing is no longer just a concept confined to research labs. Thanks to rapid progress in both hardware and algorithms, the risk to today’s cryptographic systems is steadily increasing. In 2025, Google’s 105-qubit Willow chip and Microsoft’s Majorana 1 processor demonstrated that scalable quantum systems are moving closer to practical reality. Industry experts now predict that quantum computers capable of breaking RSA-2048 encryption could arrive as early as 2030 to ...

Everyone, it seems, is now talking about how they’re planning to integrate AI into their devices, their factories, their workflows and, well, everything. But how they actually plan to make that happen isn’t always clear. Part of the challenge, of course, is that different workloads and different environments require different types of solutions. For those looking to integrate AI-powered capabilities into edge computing-based offerings, there are a relatively broad range of ways to ac...

Building and maintaining connected digital ecosystems that account for today’s evolving cyber threat landscape requires a degree of hardware-based trust, as software-only security approaches are no longer sufficient to protect complex, distributed systems Luckily, today’s developers can reference a foundational example of hardware-based security that has existed for decades: the Trusted Platform Module (TPM). With over four billion TPM units deployed globally across a wide range of u...

Human-machine interfaces (HMIs) are rapidly evolving, driven by trends such as Automotive personalization, sustainable always-on interfaces, hygienic touchless user interfaces (UI), consistent user experience (UX) across platforms, voice activation, and Industrial automation for labor and safety needs. Regardless of their specific drivers and/or use cases, modern HMIs must be smarter and more dynamic – shifting from command-based to context-aware systems that bridge the human-machine...

Robots have rapidly evolved from science fiction into a cornerstone of modern industry. Today’s autonomous systems can execute complex tasks with minimal human oversight – transforming how we work, live, and move. But achieving this level of intelligence and reliability in real-world environments requires more than just advanced software. It demands robust hardware, deterministic processing, and scalable system architectures that can support safe, real-time decision-making under dema...

服务器是现代计算基础设施的中坚力量。它们承载着敏感数据、AI模型以及核心工作负载，因此成为愈发复杂网络威胁的主要目标。随着服务器架构日益模块化、分布式发展，且集成多种CPU、网络接口卡、加速器、SCM模块等，加之企业对这些分布式系统的依赖不断加深，保障其安全的复杂性也随之成倍增加。 近期的攻击事件——例如利用Secure Boot漏洞或利用本地部署环境的零日漏洞——充分证明了平台级攻击如何绕过传统软件防线。这些威胁常通过固件植入与持久化攻击路径，悄然突破常规防御体系。相应地，监管框架与行业标准（包括CNSA 2.0、NIST 800-193和欧盟网络弹性法案）正日益要求采用强制的硬件安全措施，比如平台弹性、加密保障与安全生命周期管理。 要满足这些要求并抵御高级威胁，绝非易事。为系统开发者提供强大的硬件解决方案与安全最佳实践，可帮助企业构建具备弹性的服务器架构，从而支持安全、可扩展的计算环境。 服务器级安全面临哪些挑战？ 要打造具备弹性的基础设施，开发者必须解决影响服务器级安全的核心障碍。 这些持续演化的威胁，包括但不限于： ...