
Learn what the German Cash Register Security Ordinance (KassenSichV) requires, who it affects, and how businesses can build a reliable, scalable POS compliance strategy with the right TSE approach.

AI at scale is not just a software story. This blog explores how power, cooling, storage, and resilient supply chains are becoming the true enablers of AI infrastructure, and why long-term reliability, industrial execution, and ecosystem thinking will define who creates lasting value in the AI economy.

In 2026, the memory supercycle is hitting hard. AI players are consuming nearly all NAND and DRAM capacity, leaving critical infrastructure systems struggling to obtain the flash they need. In my commentary, I explain why these “small” components are becoming the next big bottleneck - and what must change to keep the digital ecosystem stable.

In my latest blog post, I take a closer look at government ministries and federal agencies. They operate at the heart of national resilience. They manage vast quantities of sensitive information - policy drafts, administrative records, and classified material - making the public sector one of the most attractive targets for cybercriminals.

In my latest blog post, I discuss how the increased demand for AI data centers is changing expectations regarding security, quality, and lifecycle stability in the supply chain. The solution involves secure supply chains, durable products, fixed parts lists, high-quality manufacturing, in-depth security expertise, customization, and service that goes far beyond standard support.

In my first blog post, I explore how companies can ensure the long-term security, reliability and availability of their data and devices. The answer often hinges on the capabilities of the manufacturing process behind the technology.

The electronics industry is entering a phase where strategic decisions made today will have long-term impact. In this blog post, I offer my outlook on the developments shaping the year ahead.

In my latest blog post, I take a closer look about sustainability. At Swissbit, it’s built into the way we innovate. As digitalization and the energy transition accelerate, the demand for powerful and reliable electronics is rising along with the responsibility to make technology more sustainable. Swissbit’s answer is integration excellence.

In my latest blog post, I take a closer look about Return Merchandise Authorization (RMA), expressed in parts per million (PPM). While rates of a few hundred PPM are often accepted across the industIry, Swissbit consistently achieves figures in the double- or even single-digit range.

In my latest blog post, I discuss supply chain security. In today's hyper-connected world, the integrity of supply chains is essential for digital sovereignty. As every system, line of code, and component becomes more interconnected, security can no longer be considered a secondary concern. Security must be embedded throughout the entire value chain, from design to delivery.

Not long ago, edge devices relied on simple microcontrollers with limited flash. That was enough when tasks were basic. But today, edge systems are expected to run real-time analytics and even AI inference directly on-site. This shift puts storage into the spotlight. Without fast, reliable memory, even the most powerful processor will stall.

In my latest blog post, I discuss the importance of proprietary firmware for Swissbit. Reliability and security are paramount in industrial and embedded applications. These systems must function flawlessly for years, often under extreme environmental conditions. For Swissbit, one of the key factors in achieving this level of reliability is the firmware, or the software intelligence that controls the behavior of the flash memory.

In recent years, discussions about high-speed connections in computer technology have focused on the transition from PCIe 4.0 to PCIe 5.0, especially given the increasing prevalence of next-generation CPUs and motherboards. First, I examine the theory and practice surrounding the performance advantages. Then, I address thermal limitations and explain why 4-channel NAND is still preferred in industrial environments. Finally, I present my conclusions.