Proc10M: Small FPGA Module for High-Performance Embedded Systems
The Proc10M™ is a compact, high-performance FPGA module designed for embedded and edge computing applications. Powered by the Altera Stratix® 10 MX FPGA, it delivers up to 10× higher memory bandwidth than traditional DDR4/QDR systems. Moreover, it integrates 300 GB/s DRAM throughput, up to 128 GB DDR4 on the carrier, and 1,600 Gb/s I/O bandwidth, ensuring seamless integration into high-bandwidth embedded designs while providing exceptional processing capability.
Performance and Memory in the Proc10M Module
Supporting transceiver speeds up to 26 Gb/s and up to 374 FPGA I/Os, the Proc10M offers extreme I/O flexibility for high-speed embedded systems. Consequently, it delivers outstanding data throughput in a compact footprint of 97.4 × 101 mm. Additionally, its robust hardware architecture ensures reliable operation in demanding environments and provides a cost-efficient solution for long-term deployment. Therefore, it is well-suited for applications requiring high bandwidth, real-time processing, and scalable embedded compute.
Real-Time Image Processing
Like all Gidel FPGA modules, the Proc10M supports the full suite of real-time imaging pipelines for systems that require on-module enhancement or compression. All processing is powered by Gidel’s modular real-time preprocessing, enhancement, and advanced compression IPs (.JPEG, Lossless, Quality+).
Inline enhancement features include:
- High Dynamic Range (HDR) – Captures superior details in high-contrast lighting conditions.
- White Balance – Maintains color accuracy across variable lighting conditions.
- Dynamic Luminance Balance – Preserves consistent brightness under changing illumination.
- Gamma Correction – Optimizes brightness and contrast for improved clarity.
Real-time compression with Dynamic ROI delivers:
- Extended recording times without compromising quality.
- Lower transmission bandwidth for efficient data handling.
- Accelerated offline compression, reducing storage needs and post-processing time.
Integrated Vision Architecture for Embedded FPGA Processing
Gidel’s vision architecture, implemented on the Proc10M FPGA modules, supports both the InfiniVision multi-camera vision system and the ProcFG deterministic image acquisition system. Together, they address high-bandwidth acquisition, synchronization, buffering, and scalable processing requirements in demanding vision platforms.
InfiniVision enables flexible, synchronized acquisition across large camera arrays and multi-stream configurations, while ProcFG provides a deterministic acquisition model optimized for fixed timing, guaranteed frame capture, and line-scan–oriented pipelines. This dual approach allows Proc10M module to handle multiple high-speed data sources, merge parallel sensor inputs, and maintain predictable real-time behavior under sustained load.
With high-performance FPGA resources, on-board memory, and deterministic dataflow control, the Proc10M module support stable acquisition and real-time image processing at scale. As a result, they deliver reliable and predictable performance in high-throughput, high-resolution vision systems where bandwidth density and timing control are critical.
Flexible Integration Options
The Proc10M integrates easily into diverse system architectures. It can serve as a standalone processing engine or as part of a customized solution featuring FPGA-based enhancement, real-time compression, synchronized acquisition, and advanced I/O control. As a result, the Proc10M provides exceptional flexibility and scalability for embedded vision, sensing, and high-bandwidth applications.
SDK, Development Tools, and Integration
The Proc10M is supported by Gidel’s SDK and ProcVision Suite, providing intuitive GUIs, APIs, debugging, programming, and validation tools. Consequently, developers can rapidly design custom pipelines, optimize FPGA resources, and accelerate integration with reduced engineering risk.
The Proc10M also benefits from Gidel’s advanced DRAM/memory architecture and is fully compatible with Gidel or customer-designed carrier boards, enabling immediate system start-up and rapid prototyping. As a result, teams can shorten development cycles, improve reliability, and accelerate time-to-market for high-bandwidth embedded applications.
Why Choose the Proc10M?
- Altera Stratix® 10 MX FPGA for superior performance.
- 300 GB/s DRAM throughput with up to 128 GB DDR4.
- 1,600 Gb/s I/O for high-bandwidth systems.
- Compact 97.4 × 101 mm footprint for space-constrained designs.
- Transceiver speeds up to 26 Gb/s and 374 I/Os.
For an FPGA module ideal for AI, visit the Proc10N page.
For smaller FPGA modules, refer the FDB series page.
Target Applications
- Broadcasting
- Image-Processing
- Video Analytics
- Security
- 5G and Radar
- Natural Language Processing
General
- Up to 374 I/Os
- 26 × 3.3V
- 96 × LVDS
- 72-bit DDR4
Environmental conditions
- Continuous Operation: 10 - 80% (non-condensing)
- Peak Operation: 10 - 90% (non-condensing)
The Proc10M module has been designed for use with carrier boards to enable Modular Solutions that significantly reduce risks, costs and Time to Market. User carriers may incorporate any combination of Rx, Tx or full duplex transceivers.
Gidel’s off-the-shelf carrier board can be used as is for deployment or as a reference design thus further improving the ROI.
Want to adjust our Proc10M Module according to your Vision?
Grabbers SDK
Application Interfaces
- InfiniVision
- ProcFG
- CameraConfig – Camera discovery and configuration
- ggvcon – GigE Vision network configuration
- InfiniVision with supporting examples
- ProcFG with supporting examples
- Gen<i>Cam GenTL producer libraries compatible with C/C++ compilers
- InitCam for developing user Gen<i>Cam camera configuration application
- GigE for developing camera network communication applications
Software Compatibility
- MVTec Halcon machine vision software
- Camera control Gen<i>Cam based application
- Windows 11
- Windows 10
- Windows Server 2022
- Windows Server 2019
- Windows Server 2016
- Linux (kernel 2.6.x- 6.12)
