Wireless Logic brings SGP.32 to Hardware Pioneers

Wireless Logic brings SGP.32 to Hardware Pioneers

Wireless Logic will exhibit at Hardware Pioneers in London on 10–11 June, with demonstrations focused on SGP.32, IoT eSIM, connected-device security, and sensor-driven digital twins.

The company will be at Stand L10 at ExCeL London, where its team will discuss the design and deployment requirements created by SGP.32, the GSMA remote SIM provisioning standard developed for IoT deployments. Hardware Pioneers brings together engineering and business leaders working on connected products, cellular IoT, wireless technology, and sensor systems.

SGP.32 is designed to make remote SIM provisioning practical across large fleets of IoT devices, including low-power and headless equipment. It enables network profiles to be provisioned, updated, or switched remotely, reducing the need for physical SIM changes and supporting deployments that must adapt across different regulatory and commercial environments.

Toby Gasston, principal product manager at Wireless Logic, said: “SGP.32 has created the conditions that can transform the IoT, but we must now look to make the benefits generally accessible. At Hardware Pioneers, we’ll show how the new standard allows teams to provision, update or switch network profiles remotely and at scale.”

Gasston will deliver a seminar on 10 June titled “Everything you wanted to know about SGP.32 but were too afraid to ask”. The session will cover the questions enterprises face around SGP.32 and eSIM, including how providers can build on the standard and how switching providers works under the new approach.

Wireless Logic will also exhibit anomaly and threat detection, an AI-powered security service that monitors connected devices on an IoT network to identify threats in minutes. A digital twin of an office building will show how sensor data, including temperature, humidity, and occupancy, can be brought together in a visual representation.

Connectivity is increasingly being treated as a product-architecture decision rather than a late-stage module choice. Industrial IoT, connected healthcare, logistics, smart buildings, energy systems, and remote monitoring devices may remain in service for many years, often across changing regulatory, commercial, and network conditions.

That long lifecycle changes the design brief. A device deployed in one country may need a local profile to meet permanent roaming restrictions, improve reliability, or control service cost. A manufacturer may want one hardware SKU that can be provisioned differently by destination market. A fleet operator may need to change provider without recalling devices from the field.

These pressures were already visible in the move beyond one billion IoT connections toward lifecycle control, where eSIM orchestration, data sovereignty, and permanent roaming rules were treated as embedded design constraints rather than post-deployment administration.

SGP.32 changes part of the technical architecture by introducing a model better suited to constrained IoT devices than earlier eSIM approaches. Previous standards served automotive M2M or consumer devices, but they were less well matched to unattended products with limited user interfaces, intermittent connectivity, and long field lives.

Security now sits alongside provisioning in the same design conversation. Remote profile changes, anomaly detection, and device-level monitoring have to work together if connected products are expected to remain adaptable and trustworthy over long operating periods. Wireless Logic’s Hardware Pioneers demonstrations place those elements together, with eSIM for adaptability, threat detection for resilience, and sensor data for operational visibility.