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Automation Vision in Automatic Test Equipment

Boost ATE Performance with FPGA-Accelerated Automation Vision

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Automation Vision enables modern Automatic Test Equipment (ATE) to test electronic systems and components with high precision. As a result, manufacturers, R&D teams, and maintenance organizations validate devices faster and more consistently.

ATE systems perform functional tests, parametric measurements, visual inspection, and reliability tests as part of automated production and validation workflows.

Why Automation Vision Matters in ATE

Automation Vision improves how ATE systems acquire, analyze, and validate data. Therefore, vision-driven inspection increases accuracy while reducing manual intervention and test variability across complex, high-volume production environments.

Operational Demands on Automation Vision Systems

To meet production demands, high-performance ATE systems must satisfy strict operational requirements. Consequently, Automation Vision workloads require deterministic behavior and sustained throughput under continuous operation and tight timing constraints.

Key Performance Criteria for ATE Vision

  • Test coverage: Executes a wide range of vision-based tests to verify devices meet electrical, functional, and visual specifications.
  • Speed and throughput: High-bandwidth acquisition and real-time processing reduce test cycle time while maintaining result accuracy.
  • Reliability and accuracy: Deterministic system behavior ensures consistent and repeatable results across long production runs.
  • Flexibility and scalability: Adapts to new test requirements, supports multiple device types, and scales with production demand.

Real-Time Compression for Automation Vision Pipelines

In Automation Vision–based ATE systems, image and data streams can quickly become a throughput bottleneck. To address this, Gidel integrates real-time FPGA-based compression directly into the acquisition pipeline.

Gidel’s Compression IPs reduce data bandwidth during capture while preserving test-relevant image fidelity:

As a result, ATE systems can sustain higher frame rates, support more cameras in parallel, and stream or store data efficiently without introducing latency or non-deterministic behavior.

Because compression runs in hardware on the FPGA, it offloads the CPU and ensures predictable timing. This capability is especially critical in high-volume production testing, long-duration reliability testing, and multi-camera inspection setups where deterministic throughput is mandatory.

Boost Your ATE Performance with Automation Vision

For this reason, ATE developers rely on Gidel’s expertise in FPGA acceleration to increase system throughput and shorten testing cycles.

Gidel’s ready-to-use platforms reduce development effort and accelerate time to market, integrating efficiently into Automation Vision architectures:

Customization Tools for ATE Vision Pipelines

Furthermore, Gidel’s Software Development Tools and customization services allow developers to tailor imaging and vision pipelines to specific ATE requirements. Consequently, systems achieve deterministic performance, long-term reliability, and scalable test architectures.

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    Products and Solutions for Automatic Test Equipment (ATE)

    At Gidel, we specialize in modular, customizable technology to suit your exact requirements.

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    Gidel FPGA Compute Acceleration Boards displayed against a digital network connectivity background

    FPGA Compute Acceleration Boards

    High-Performance FPGA Accelerators

    Gidel’s FPGA Compute Acceleration Boards are supported by a broad library of proven FPGA IPs and development tools, helping customers move from algorithm requirements to integrated, high-performance FPGA solutions faster.

    For decades, customers have used Gidel’s off-the-shelf libraries to implement system-level functions, compute acceleration, image processing, and compression while reducing development effort and FPGA integration risk. Combined with Gidel’s development environment, these IPs enable efficient FPGA resource utilization, flexible system design, and shorter development cycles.

    The Gidel FPGA libraries include:

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    Gidel ultra-compact FPGA modules with Arria 10 and Stratix 10N displayed against a digital network connectivity background

    Mini FPGA Modules

    Mini FPGA Modules: Overview & Comparison

    Resources Overview
    Resources FDB16 FDB27 FDB66 Proc10N Proc10M
    FPGA Arria 10 160 GX Arria 10 270 GX Arria 10 660 GX Stratix 10 NX 2100 Stratix 10 MX 2100
    DRAM Throughput 12.8 GB/s 12.8 GB/s or 24 GB/s 16.8 GB/s 300 GB/s 300 GB/s
    On-board DDR4 2 or 4 GB 2 or 10 GB 9 GB Up to 128 GB on carrier board Up to 128 GB on carrier board
    On-FPGA DRAM - - - 8 GB HBM2 8 GB HBM2
    Transceivers 12 (2 Rx only) 12 or 16 (2 Rx only) 12 or 16 (2 Rx only) 72 72
    Transceivers Speed Up to 14.2 Gb/s Up to 14.2 Gb/s Up to 14.2 Gb/s Up to 26 Gb/s Up to 26 Gb/s
    I/Os 12×3.0V, 4×1.2V, 36×1.8V 12 or 42×3.0V, 4×1.2V, 36 or 52×1.8V 12 or 42×3.0V, 4×1.2V, 36 or 52×1.8V Up to 374 I/Os: 26×3.3V, 96×LVDS, 72-bit DDR4 Up to 374 I/Os: 26×3.3V, 96×LVDS, 72-bit DDR4
    Dimensions 49 mm × 54 mm 58 mm × 58 mm 58 mm × 58 mm 97.4 mm × 101 mm 97.4 mm × 101 mm
    Weight 30g 35g 35g 385g 385g
    LEs 160K 270K 660K 2,073K 2,073K
    FPGA SRAM - - - 94.5 Mb @ 90 GB/s 94.5 Mb @ 90 GB/s
    M20K 440 750 2133 6800 6800
    18×19 MAC 312 1660 3374 - 7,920
    INT8/FP16 Tensor MAC - - - 118,800 -

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    Gidel FantoVision20 Edge AI: Jetson Orin dual interface frame Grabber system with Dual 10 GigE Vision and Camera Link FPGA Frame Grabber displayed against a digital network connectivity background with Hand

    FantoVision20 Edge AI with FPGA Frame Grabbers

     FantoVision20 Mini NVIDIA Jetson Frame Grabber Systems: Overview & Comparison

    Features & Bandwidth
    Product Name FantoVision20-GigE FantoVision20-CL FantoVision20
    Product Image FantoVision20-GigE: NVIDIA Jetson + Dual 10GigE Vision FPGA frame grabber- Edge AI Vision displayed against a digital network connectivity background Gidel FantoVision20-CL: NVIDIA Jetson + Camera Link FPGA frame grabber- Edge AI Vision displayed against a digital network connectivity background Gidel FantoVision20: NVIDIA Jetson + Dual 10GigE Vision and Camera Link FPGA frame grabbers- Edge AI Vision displayed against a digital network connectivity background
    Jetson Model
    • Orin NX 16GB
    • Xavier NX 8GB | 16GB
    • Orin NX 16GB
    • Xavier NX 8GB | 16GB
    • Orin NX 16GB
    • Xavier NX 8GB | 16GB
    Camera Input
    • 2× 10GigE cameras
    • 4× 5GigE cameras
    • 8× 2.5GigE cameras
    • 15× 1GigE cameras
    • Camera Link Deca / Full / Medium / Base
    • Dual Base
    • Optional: PoCL
    • 2× 10GigE cameras
    • 4× 5GigE cameras
    • 8× 2.5GigE cameras
    • 15× 1GigE cameras
    • Camera Link Deca / Full / Medium / Base
    • Dual Base
    • Optional: PoCL
    Camera Input Connectors 2× SFP+ | 2× RJ45 (Fiber optic / Copper) 2× SDR26 (mini-Camera Link)
    • 2× SFP+ | 2× RJ45 (Fiber optic / Copper)
    • 2× SDR26 (mini-Camera Link)
    Aggregate Bandwidth Up to 20 Gb/s Up to 6.8 Gb/s Up to 26.8 Gb/s
    Real-Time ROI Offload
    Real-Time Encoders (Optional)
    Real-Time HDR Correction
    Dimensions (L/W/H) 134 × 90 × 60 mm 134 × 90 × 60 mm 134 × 90 × 60 mm
    Weight 750 g 750 g 750 g
    Cooling Options Active | Passive Active | Passive Active | Passive
    Storage Up to 8TB Up to 8TB Up to 8TB

    FPGA-Based Camera Acquisition and Processing for Jetson Edge AI

    In each FantoVision20 system, the built-in     Altera FPGA frame grabber manages high-speed camera acquisition and can perform inline real-time processing, including CompressionHDR, and image enhancements, before data reaches NVIDIA Jetson. This reduces processing overhead on Jetson and preserves resources for CUDA-based imaging and AI.

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    Resources

    Reuven Weintraub, founder and CTO of Gidel, reveals how to unlock exceptional image processing performance by adding FPGA’s processing at Vision Show, Stuttgart 2024.

    Reuven Weintraub – Gidel Founder and CTO describes how to boost performance in Machine Vision and Imaging systems. This talk has been given at the Vision Show 2024 Stuttgart, during the Vision Days Forum.

    Image processing acceleration on NVIDIA Jetson embedded computer at the Embedded World 2024 show.

    Gidel edge computers and frame grabbers at the Embedded World show 2024.

    A short video introduction to FantoVision edge computers – 2023.

    Boost your vision! Gidel’s high-performance GigE Vision, Camera Link and CoaXPress frame grabbers help overcome bandwidth bottlenecks in high-resolution and/or high-speed computer vision applications.

    Gidel presented its FPGA-based architecture capable of processing Giga+ Pixels per second while maintaining exceptionally low power consumption.
    The session demonstrated how Gidel’s scalable FPGA solutions deliver real-time imaging performance, energy efficiency, and deterministic throughput for advanced vision and imaging systems.

    Reuven Weintraub, Founder and CTO of Gidel, presented Gidel’s solutions to perform high-bandwidth imaging on the edge at InVision TechTalk webinar held on September 2023.

    Gidel founder and CTO Reuven Weintraub present the new with FantoVision edge computers for 10GigE Vision, Camera Link and CoaXPress interface for embedded vision on the edge at the Embedded World Show 2022 in Nuremberg, Germany.

    Gidel founder and CTO Reuven Weintraub explain the benefits of Gidel’s Altera-based high-performance FPGA modules for fast and easy development.

    Gidel founder and CTO Reuven Weintraub present the performance and versatility of Gidel’s GigE Vision, Camera Link and CoaXPress frame grabbers for high-speed image acquisition and pre-processing at the Embedded World 2022 in Nuremberg, Germany.

    Presented by Reuven Weintraub, this talk highlighted Gidel’s expertise in real-time processing over Gigapixel/s image streams, demonstrating how FPGA-based architectures enable deterministic latency, scalable throughput, and efficient handling of ultra–high-resolution vision data.

    Ron Muller presenting Gidel’s first heterogeneous Edge Computer Vision combining FPGA and NVIDIA Jetson at Industrial Vision Days conference at VISION 2021 show in Stuttgart, Germany.

    Advanced vision systems rely on one or multiple high-resolution, high-speed cameras. These capture and deliver multiple gigapixels per second that need to be processed and/or compressed in real-time. While camera sensor technology and supporting interfaces are quicky evolving, traditional PCIe/CPU/GPU-based PC-architectures are lacking the required performance to capture, process, and store images at such data rates.

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    Discover how Gidel solutions power various industries

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    • Free technical consultation
    • Custom solution design
    • Quick response time
    • Expert engineering support

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    info@gidel.com




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