Embedded boards, modules and programmable compute

Embedded Boards & Modules

Choose between integrated boards, System-on-Modules and FPGA platforms according to custom I/O, real-time processing, software, thermal and deployment requirements.

Integrated boards Reusable modules FPGA processing Application I/O Software support Deployment options

Platform qualification: Platform qualification must confirm processor stepping, module pinout, carrier-board interface allocation, boot chain, BSP release, high-speed signal integrity, thermal solution, operating temperature and lifecycle before design freeze.

View product range Discuss your requirements

Platform selection

Product Range

Five product groups cover reusable compute modules, integrated boards, programmable processing platforms and configured embedded systems.

Arm System-on-Modules

Use a compute module for processor, memory, boot and power functions while the carrier implements application-specific I/O and mechanics.

Custom carrier Compute module BSP support

View details

FPGA & SoC-FPGA System-on-Modules

Use module-based programmable compute with high-speed memory, configuration, clocking and selected transceiver functions implemented on the module.

Programmable logic Custom carrier High-speed I/O

View details

Single-Board Computers

Use an integrated board with compute, storage, networking and common application interfaces for system-level integration.

Integrated board Standard I/O BSP support

View details

FPGA PCIe, FMC & VPX Boards

Use standard PCIe, FMC/FMC+ and selected VPX platforms for acquisition, RF and acceleration workloads.

PCIe / FMC / VPX Modular I/O DMA

View details

Application-Ready Platforms

Evaluate workload, I/O, software, cooling and mechanics on representative hardware before defining project-specific implementation details.

Representative platform System integration Deployment evaluation

View details

Platform architecture

Platform Capabilities

The available products provides several implementation paths, from integrated boards to configurable modules and FPGA platforms. The appropriate choice depends on how much custom I/O, processing flexibility and deployment control the project requires.

Choose the appropriate integration depth

Use an SBC for integrated standard I/O, a System-on-Module for a custom carrier, or a COTS FPGA platform for deterministic processing and high-rate data paths.

Start from a defined hardware baseline

Processor, memory, storage, power and high-speed interfaces are available in established board or module implementations, depending on the selected platform.

Keep custom engineering application-focused

Project-specific work can concentrate on field I/O, mechanics, thermal design and software rather than repeating every compute subsystem.

Consider deployment and lifecycle early

Platform selection can include software support, thermal requirements, mechanical constraints and component availability before the system architecture is fixed.

Embedded platform engineering

Compute modules, integrated boards and programmable processing platforms

The platform range spans Arm System-on-Modules, FPGA and SoC-FPGA modules, single-board computers, PCIe/FMC/VPX processing boards and application-ready systems.

Module standards

OSM, SMARC, Qseven, SODIMM and board-to-board formats

Mechanical format does not guarantee cross-family compatibility. Pinout revision, interface allocation, power rails, memory population and thermal interface must be checked for the selected module.

FPGA platforms

Logic, transceivers, memory and modular I/O

FPGA and adaptive-SoC platforms are selected around device resources, transceiver rates, DDR bandwidth, PCIe generation, FMC/FMC+ or VPX interfaces, clocking and toolchain support.

Software baseline

Bootloader, BSP, drivers and update strategy

Linux, Android and RTOS availability is processor- and release-specific. Kernel, bootloader, device-tree, security and long-term maintenance requirements should be fixed with the hardware baseline.

Application areas

Applications

The available products supports products where time-to-market, reusable architecture and controlled deployment matter as much as raw processor or FPGA performance.

Industrial equipment

Standardise compute across HMI, gateway, vision and control products while adapting I/O to each machine.

Automotive and EV

Accelerate gateway, telematics, logging and in-vehicle processing development with reusable networking and software foundations.

Medical equipment

Reduce platform risk for connected instruments and imaging systems while maintaining a controlled compute and software baseline.

Machine vision and AI

Bring camera acquisition, local inference and deterministic preprocessing together on scalable embedded platforms.

Aerospace and defence

Use FPGA, VPX and rugged processing options to shorten development of high-rate sensor and mission-computing systems.

Research and instrumentation

Move new algorithms and acquisition methods onto reconfigurable hardware without designing every supporting subsystem.