Industrial Storage for AI Infrastructure

Industrial-grade flash storage for AI infrastructure across data centers, edge, and networking systems

Storage powers every AI subsystem

AI systems consist of dozens of components – all dependent on reliable flash storage. Boot drives in GPU compute nodes, BMCs and SmartNICs, telemetry and logging servers, edge inference boxes, embedded AI in robotics and mobility. Each layer places specific demands on performance, endurance, and security

One storage failure destabilizes the entire AI stack

Failures cascade through the AI architecture, causing outages, security incidents, and faulty inference results. A failed boot drive prevents a compute node from coming online. A corrupted BMC takes thousands of nodes offline. Compromised model files make autonomous decisions unreliable.

Industrial-grade storage built for AI workloads

Swissbit delivers industrial flash storage for every layer of AI infrastructure. Our portfolio includes PCIe Gen4 NVMe SSDs, managed e.MMC, and ruggedized embedded storage – combined with integrated security, long-term availability, and a controlled European supply chain.

Critical Requirements for AI Infrastructure Storage

Performance and workload efficiency
Industrial NVMe storage for optimized AI workloads
Swissbit industrial NVMe SSDs provide high-performance, reliable storage for AI servers, edge inference systems, and data-intensive infrastructure. With optimized endurance, compact form factors, and long-term availability, they help support workload consolidation, efficient data access, and dependable operation in demanding AI environments.
System consolidation and lifecycle stability
Long-term available industrial storage platforms
Swissbit supports stable AI infrastructure designs with industrial-grade SSDs, managed NAND, and embedded storage solutions designed for long lifecycle availability. Controlled firmware, fixed BOM options, and broad form-factor coverage simplify qualification and help ensure consistent performance across extended deployment periods.
Security, interoperability, and physical robustness
Secure storage and hardware-based protection
Swissbit combines industrial storage with security features such as AES encryption, TCG Opal support, secure boot capabilities, and hardware-based authentication options. These solutions help protect sensitive AI assets, support platform interoperability, and enable compact, robust designs for distributed AI infrastructure.
Reliability, maintenance, and operational resilience
Rugged storage with monitoring and endurance optimization
Swissbit industrial storage is designed for harsh environments, high endurance, and long operational life. Health monitoring, optimized firmware, power-loss protection options, and application-specific endurance support help reduce failures, enable predictive maintenance, and keep AI systems running reliably across multi-year deployment cycles.

Industrial Storage Solutions for AI Workloads

Workload demands differ sharply across the AI stack: throughput, latency, footprint, or tamper resistance. The portfolio below maps a Swissbit product class to each one.

Use Case

Live In-Cabin AI Detection for Fleets
Challenge

A leading provider of connected operations and fleet AI needed compact, robust storage for in-cabin AI detection systems running real-time computer vision on live camera feeds.

Solution

Swissbit EM-30 managed NAND in BGA form factor, with a compact footprint, 64 GB to 256 GB densities, -40 to +105 °C operation, and reliable data retention under thermal stress.

Outcome

Reliable AI inference over long fleet duty cycles, low field return rates, and consistent video data integrity after years of in-cabin operation.

Use Case

Rugged AI Inference for Industrial Automation
Challenge

A European edge AI systems manufacturer needed high-performance, mission-critical storage for ruggedized inference boxes in factory environments.

Solution

Swissbit N7000 industrial NVMe SSD, with 240 GB to 3.84 TB densities, long-term availability, and reliable operation in harsh environments.

Outcome

Sustained low-latency inference, easier system qualification, and a controlled BOM for 24/7 multi-year deployments.

Use Case

Optical Connectivity for High-Speed AI Fabrics
Challenge

AI and cloud data centers need scalable, high-speed connectivity with flexible, energy-efficient fabrics.

Solution

Swissbit N2000 industrial NVMe SSD, DRAM-less/HMB, with AES-256 encryption, TCG Opal, and 120GB to 480GB densities.

Outcome

Reliable storage for high-speed AI infrastructure, supporting efficient data handling and secure operation in demanding data center environments.

Real World Infrastructure making AI Possible

Why AI Solution Providers Choose Swissbit

Swissbit supports AI infrastructure projects from hyperscale data centers down to single-board embedded systems, with industrial-grade products engineered, manufactured, and supported in Europe.

European Manufacturing & Secure Supply Chain

Most Swissbit storage products are manufactured in Berlin, Germany, under strict quality standards. For AI infrastructure projects sensitive to supply chain security, geopolitical risk, and EU regulatory expectations European manufacturing offers a verifiable alternative to opaque global supply chains.

Learn more about “Made in Germany"
25+ Years of Industrial Storage Expertise

Since 2001, Swissbit has specialized in industrial-grade storage for demanding applications. Deep expertise in NAND flash management, firmware optimization, advanced packaging (System-in-Package), and harsh-environment operation translates directly into the reliability and consistency required by AI workloads.

Learn more "About Swissbit"
Certifications & Compliance

ISO9001 (Quality Management), IEC60068 (Industrial Temperature Testing), ISO27001 (Information Security), ISO14001 (Environmental), ISO50001 (Energy), REACH, RoHS, Conflict Minerals compliant

Learn more about “Swissbit Quality"

Contact us

Get in touch with us and discuss your requirements with us.

Where to buy Swissbit products

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Frequently Asked Questions

What makes industrial storage different from consumer flash for AI workloads?
How does Swissbit ensure long-term availability for AI subsystems?
What security features protect AI infrastructure and subsystems from tampering or unauthorized updates?
Do Swissbit products operate reliably in edge AI environments with extreme conditions?
How does Swissbit support compliance with the EU AI Act and European data sovereignty requirements?