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...
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...
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...
Servers are the backbone of modern computing infrastructure. They host sensitive data, AI models, and core workloads – making them prime targets for increasingly sophisticated cyber threats. As server architectures become more modular and disaggregated, integrating various CPUs, NICs, accelerators, SCM modules, and more, and as organizations rely more heavily on these distributed systems, the complexity of securing these systems grows exponentially. Recent attacks – such as those e...
Recent advancements in quantum computing have made post-quantum cryptography (PQC) more necessary than ever before. There is an immediate need for developers across industries to strengthen their computing ecosystem against the heightened risk and uncertain capabilities of quantum-enabled attacks. The challenge? There’s not yet a standard, comprehensive model for ensuring post-quantum security. Traditionally, developers have been able to create standards and best practices in response to ...
Data powers nearly every facet of today’s world, and the volume of data being generated, processed, shared, or otherwise handled increases with every passing year. It is estimated that 90% of the world’s data was created in the last two years alone and over 80% of organizations expect to be managing zettabytes of data in 2025, with 147 zettabytes of data having been generated in 2024 alone. For perspective, if a grain of rice was a byte, a zettabyte of rice could cover the entire sur...
As with many types of devices, it’s easy to fall into the trap that bigger chips are better and more impactful than smaller semiconductor devices. In the case of FPGAs (Field Programmable Gate Arrays) however, it’s often the smaller versions that have the largest range of applications and the most influence. Small FPGAs are used across a huge range of devices, applications, and industries because they reliably perform critical functions that are essential to the speedy operation of m...
Lattice Developers Conference 2024, held from December 10-11, was a hybrid event for which over 6,000 global industry leaders, technology experts, and enthusiasts signed up to explore the latest advancements in low power FPGA solutions. The two-day conference had a packed agenda with a robust lineup of keynotes, breakout sessions, and technology demonstrations, highlighting innovative applications of FPGAs across a variety of sectors. Keynote Highlights The conference kicked off with the opening...
In the rapidly evolving landscape of technology, the shift from cloud-centric to edge-centric innovation is reshaping how data is processed and utilized. This transition is driven by the increasing need for AI at the Edge, sensor to cloud connectivity, and resilient security. FPGAs are leading the way in this transformation, offering unparalleled flexibility and performance. These versatile devices are being integrated into a wide range of applications, from datacenters to edge devices, enablin...
The telecommunications industry is undergoing a significant transformation with the adoption of Open Radio Access Network (ORAN) architecture. This innovative approach to network design promotes disaggregation and interoperability, allowing components from different vendors to work together seamlessly. As 5G networks continue to expand and evolve to support diverse use cases — from non-terrestrial networks (5G-NTN) to connected vehicles (5G C-V2X), railways (5G FRMCS), and industrial appli...