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Intelligence at the Core
Powered by Intel Core Ultra for Extreme Performance
Industry Insight. Technology Know-how.
Unlock Smarter Operations, Enhanced Security and Optimised Energy Consumption
From the factory floor to the most demanding environments, our Intel® Core™ Ultra computing solutions are built to perform where it matters most. Unlike traditional CPUs, Core Ultra features a hybrid tile-based architecture, using Intel Foveros packaging to separate power, graphics, I/O, and other functions into specialised tiles, for enhanced flexibility, improved energy efficiency and greater performance. With the added power of an Intel Arc™ GPU and an integrated NPU, these processors accelerate on-device AI workloads for object detection tasks, predictive maintenance, and anomaly detection, enabling real-time insights. Whether you require streamlined production, intelligent navigation in marine systems or enhanced safety in rail and energy applications, Intel Core Ultra delivers faster, smarter and more energy-efficient solutions, helping you innovate and optimise operations in the most challenging industries.
Optimised to deliver greater performance, with built-in Intel Arc Graphics providing up to 2x faster graphics performance than previous gen.
Up to 70% faster generative AI performance, delivering enhanced task handling, real-time data processing and machine learning algorithms.
Supports advanced I/O and connectivity options for integration with industrial sensors, controllers and networks.
Engineered to optimise power consumption, whilst maintaining stable performance in extreme temperature conditions.
Intel Core Ultra Computing For Your Application: Where Our Solutions Work
Manufacturing & Machine Automation
Intel Core Ultra systems are a good fit for factory-floor HMI, machine controllers, and edge compute nodes that need strong general-purpose performance with modern I/O and long-life platform availability. They handle mixed workloads well, such as running an HMI, collecting data from multiple machines, and doing light analytics on the same box without bogging down. For integrators, the benefit is predictable performance headroom for software updates and added features over the system’s service life.
Transport & In-Vehicle Systems
In vehicles and depot environments, Core Ultra platforms suit onboard compute for fleet management, multi-camera recording, diagnostics, and driver-assistance style applications that don’t justify a full GPU system. The newer CPU architecture and integrated graphics capability support multiple displays and camera streams while keeping power and thermal design manageable. That can simplify enclosure design and improve reliability in constrained spaces.
Energy & Utilities
For utility sites and industrial energy assets, Core Ultra computing can support local monitoring, historian-style buffering, and application hosting near the equipment, particularly where you want more performance than low-end embedded platforms but still need efficiency and stability. These systems can run SCADA-related applications, local dashboards, and data processing at the edge, then forward only the necessary data upstream. The practical win is a single rugged node that can consolidate workloads and reduce dependency on remote compute.
Machine Vision & Inspection
Core Ultra systems can serve as compact vision and inspection PCs for 2D/3D cameras and inline checks, especially where the workload sits between “basic inspection” and “needs a discrete GPU.” Integrated graphics and modern media acceleration can help with pre-processing, display, and lighter inference tasks, while CPU performance supports deterministic application logic and integration to PLCs. This can reduce bill of materials and simplify deployment when a full GPU platform is not required.
Your Project, Our Technology Know-how
We build and configure a range of Intel Core Ultra PCs directly from our facility in Staffordshire, delivering bespoke solutions to meet ever-changing industry demands. From concept to completion, our engineers can integrate custom I/O, specialist expansion cards, and enclosures to meet your exact requirements. With comprehensive logistics and after-sales services, we can provide support for the lifetime of your project.LEARN MORE
Explore our recent product highlights, case studies and technical articles.
Our work on industrial projects usually follows a defined process. We start by understanding the environment and application in detail, then agree a suitable hardware platform, build and validate systems in the UK, and finally manage changes and lifecycle.
Projects typically start with a requirements capture phase. This covers environmental conditions such as temperature range, dust levels, vibration and cleaning regime; electrical considerations such as supply, earthing and panel layout; performance requirements; I/O and expansion needs; relevant standards or approvals; and expectations around lifecycle, volume and support.
Based on this information, suitable hardware platforms are shortlisted and reviewed. CPU class, memory, storage, I/O, expansion options and mounting arrangements are agreed, along with any specific BIOS or firmware requirements. For repeat deployments, a small number of standard builds are usually defined to simplify stocking, rollout and support.
Systems are then assembled and validated in the UK. This includes physical assembly, OS installation and configuration, loading of customer images where required, and burn-in and functional tests defined for the project. The goal is that systems arrive on site ready to be integrated with minimal additional work.
Once deployed, attention shifts to lifecycle support. Agreed configurations are documented and controlled as a bill of materials. Changes announced by manufacturers are monitored, and when they occur, suitable replacement options are identified and discussed. Where appropriate, last-time-buy planning and controlled transitions are used to minimise disruption to machines and production lines.
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What Is an Embedded Computer?
An embedded computer/embedded PC is a dedicated computer system that forms an integral part of a larger machine or system. In contrast to an ordinary desktop computer, an embedded computer is generally designed for a single purpose. Where enterprise IT equipment in a manufacturing environment may process multiple different tasks at any given time (such as timesheets in excel spreadsheets, MRP software for production planning and stock management), an embedded PC is used to process a single task. It could be designed to sit inside a kiosk or digital signage unit, or connected directly to a machine on the factory floor.