Cervoz Unveils Industrial Storage Solutions for Automate 2026

Cervoz Showcases Industrial Storage and Connectivity for Factory Automation at Automate 2026

Modern factory automation relies heavily on real-time data processing and rugged hardware architecture. As industrial artificial intelligence migrates closer to the edge, traditional hardware components face severe performance bottlenecks. To address these data-intensive challenges, industrial-grade storage and memory provider Cervoz will present its newest product lineup at the Automate Show 2026 in Chicago. The company will demonstrate how specialized solid-state drives (SSDs), robust memory modules, and modular expansion cards help system integrators future-proof complex control systems.

High-Throughput NVMe SSDs Fuel AI-Driven Edge Decisions

Edge computing nodes require rapid data ingestion to execute complex machine learning models effectively. Consequently, Cervoz developed high-throughput M.2 NVMe SSDs that bypass legacy storage bottlenecks via direct PCIe connections. These industrial-grade drives deliver low-latency access times for autonomous guided vehicles (AGVs) and automated mobile robots (AMRs). Moreover, the storage systems handle massive operational datasets without thermal throttling issues. Therefore, local controllers process raw sensor inputs instantly and execute critical navigation adjustments without relying on cloud connectivity.

Advanced DDR5 Memory Accelerates Real-Time Control Systems

High-speed data transmission requires ultra-responsive temporary memory to prevent processing queues. To support these intense computing workloads, Cervoz offers a comprehensive range of industrial DRAM modules, stretching from legacy DDR1 up to cutting-edge DDR5. These memory modules achieve rapid data transfer rates up to 6400MHz. As a result, edge processors manage simultaneous data streams effortlessly from multiple factory automation devices. Furthermore, the high-bandwidth memory prevents system latency during critical PLC (Programmable Logic Controller) or DCS (Distributed Control System) calculations.

Modular Expansion Modules Enable Seamless Machine Collaboration

Modern industrial automation depends entirely on interconnected machine ecosystems rather than isolated computing units. Cervoz addresses this integration need by offering versatile M.2 CAN FD, Wi-Fi, and Ethernet expansion cards. These modular connectivity components interface directly with embedded computers and industrial PCs. Therefore, robots, sensors, and remote terminal units share critical telemetry data across the factory floor seamlessly. In addition, the high-bandwidth modules support time-sensitive networking protocols, allowing complex production lines to maintain perfect operational synchronicity.

Rugged Protective Technologies Resist Harsh Industrial Environments

Manufacturing floors expose sensitive electronic components to extreme temperatures, severe mechanical shock, and constant vibration. Consequently, standard commercial hardware components fail rapidly under these taxing operating conditions. Cervoz protects its industrial solutions using proprietary technologies like Wide Temperature design, Anti-Vibration Fill, Circuitguard, and Powerguard. For instance, the Powerguard feature prevents data loss or corruption during unexpected factory power fluctuations. These hardware enhancements ensure stable 24/7 operations inside dusty logistics hubs and unconditioned outdoor environments alike.

Technical Commentary: The Crucial Role of CAN FD in Edge Orchestration

Expert Insight: Many system integrators overlook the expansion interface when designing edge computing enclosures. However, integrating CAN FD (Controller Area Network Flexible Data-Rate) through a compact M.2 form factor solves a massive physical footprint problem. Standard industrial automation legacy equipment often relies on bulky serial interfaces. Moving to M.2 CAN FD cards allows engineers to shrink the overall size of edge gateways while boosting data bandwidth significantly. This flexibility proves essential when retrofitting existing factory control systems for modern AI workflows.

Solution Scenario: Optimizing Autonomous Forklift Fleets in Smart Warehouses

• The Challenge: An automated logistics hub operates a fleet of 50 AMRs that suffer from frequent navigation lag and data loss when crossing high-vibration expansion joints or experiencing power dips.
• The Automation Solution: The system integrator upgrades the onboard computers with Cervoz M.2 NVMe SSDs and 6400MHz DDR5 DRAM modules. The technician also installs an M.2 CAN FD expansion card into each robot's main controller board.
• The Operational Outcome: The fast DDR5 memory allows the AMR to process lidar maps locally in real time, reducing collision avoidance delay. Meanwhile, the Anti-Vibration Fill prevents the memory modules from shaking loose over rough flooring. Finally, the Powerguard circuit safeguards the stored navigation data whenever battery levels dip suddenly during high-torque lifting operations.