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High Performance FPGA Modules
Ultra-high-end modules based on Intel Stratix 10NX and MX FPGAs, high-end ultra-compact solutions based on Arria 10 FPGAs
- Many ultra-compact, high-performance FPGA modules that can be installed on Gidel's off-the-shelf PCIe carrier boards or on user or Gidel customized carrier boards
- Offers complete FPGA packages ready to go, with templates and powerful development tools that enable rapid development of boards and optimize FPGA utilization for system design
- Large FPGAs, massive memory bandwidth, and 1,600Gb/S IO combine to achieve unprecedented levels of processing, system compactness, and price/performance
Selecting the right high-performance FPGA module for your project
Gidel, our partner, has a wide range of product models, and is the cornerstone of our technology.
Proc 10M Ultra High Performance Stratix10MX HBM2 Module
- Capture from 4 × 100GigE links, support for multiple cameras, support for link aggregation
- No frame loss, support ROI acquisition, acquisition bandwidth up to 400gb /s.
- Startix10 MX provides 10x more DRAM and SRAM bandwidth than discrete DDR4 and QDR memories, making the technology of powerful FPGAs easy to use in computers, embedded systems and edge computing.
Proc 10N Ultra-High-Performance Stratix10MX HBM2 Module for Real-Time AI Processing
- Capture from 4 × 100GigE links, support for multiple cameras, support for link aggregation
- No frame loss, support ROI acquisition, acquisition bandwidth up to 400gb /s.
- Integrated embedded Tensor module and integrated HBM2 memory provide unprecedented processing and memory bandwidth performance, delivering up to 15x more computing performance than the powerful Stratix 10 MX
FDB Arria 10 Module
- Smallest mid-range FPGA module on the market, ideally suited for custom PCIe or standalone, size-constrained systems, ideal for embedded systems and compact broadcast and image processing solutions
- High DRAM performance up to 24 GB/s, up to 16 x 14.2 Gb/s transceivers (2 for Rx only), up to 10 gb on-board DDR4, up to 98 I/Os
Comparison
Rich models, worry-free quality; provide a variety of configurations to meet your project needs, can also beContact StaffQuick Selection
Resources | FDB16 | FDB27 | FDB66 | Program 10N | Process 10M |
FPGA | Aliya 10 160 GX | Alia 10 270 GX | Aliya 10 660 GX | Stratix 10 NX 2100 | Stratix 10 MX 2100 |
DRAM throughput | 12.8GB/sec | 12.8GB/sec or 24 GB/s | 16.8GB/sec | 300GB/sec | 300GB/sec |
Onboard DDR4 | 2 or 4 GB | 2 or 10GB | 9GB | Carrier board up to 128gb | Carrier board up to 128gb |
DRAM on FPGA | - | - | - | 8GB HBM2 | 8GB HBM2 |
Transceiver | 12 (2 receptions only) | 12 or 16 (2 receivers only) | 12 or 16 (2 receivers only) | 72 | 72 |
Transceiver 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 |
Input/Output | 12 x 3.0V, 4 x 1.2V, 36 x 1.8V | 12 or 42 x 3.0V, 4 x 1.2V, 36 or 52 x 1.8V | 12 or 42 x 3.0V, 4 x 1.2V, 36 or 52 x 1.8V | Up to 374 I/Os: 26×3.3V, 2×3.3V, 2×3.3V, 2×3.3V, 2×3.3V, 96xLVDS. 72-bit DDR4 | Up to 374 I/Os. 26 x 3.3V. 96xLVDS. 72-bit DDR4 |
sizes | 49 mm x 54 mm | 58 mm x 58 mm | 58 mm x 58 mm | 97.4 mm x 101 mm | 97.4 mm x 101 mm |
這 | 160,000 dollars. | Two hundred and seventy thousand. | 660K | 2,073K | 2,073K |
Field Programmable Gate Array Static Memory | - | - | - | 94.5 Mb @ 90 GB/sec. | 94.5 Mb @ 90 GB/sec. |
M20K | 440 | 750 | 2133 | 6800 | 6800 |
18×19 MAC | 312 | 1660 | 3374 | - | 7,920 |
INT8/FP16 Volume MAC | - | 255 - 1700 | Single wavelength | 118,800 | - |
Application Scenarios
Focusing on the vision field, covering large-scale industries; based on application scenarios, solving sub-divided needs. We can also customize integrated solutions for your project, please contact us for more information.Contact Us
Industrial Inspection and Automation
PCIE video capture cards are used for real-time image processing and analysis in industrial production, such as defect detection, product sequencing and quality control projects, and can also be used to monitor and adjust the operation status of machines to improve production efficiency and product quality. It can also be integrated into automation systems for machine vision guidance, identification and tracking.
Vehicle and Application Inspection
Automotive and application inspections require real-time analysis and system response. PCIE adapters can be used to detect defects in parts and components to ensure the safety and quality of automobiles, for environmental awareness and obstacle detection in intelligent driving systems. They can also be used for data collection and analysis during vehicle testing and inspection.
Military and Aerospace
Military and aerospace aerospace applications combine real-time and post-acquisition analysis. PCIE capture cards can be used for image acquisition and processing of equipment and devices such as drones and aircraft, such as navigation, target identification and tracking. In military intelligence gathering and reconnaissance, it is used for real-time image analysis and intelligence processing.
Medicine and Life Sciences
PCIE capture cards are important for medical and scientific research applications that require high-resolution imaging capabilities for high-precision image reconstruction and analysis, such as for medical imaging diagnostics, such as image processing and analysis of CT, MRI and ultrasound images; and for data acquisition and control of laboratory equipment and scientific instruments. In biomedical research, it is used in cellular imaging, brain imaging and gene sequencing analysis.
High-end Machine Vision
PCIE image acquisition cards can be integrated into high-end machine vision systems, providing powerful support for high-precision, high-speed target detection and image processing to meet the needs of automated production lines and high-tech manufacturing processes. For example, in robotics and automated navigation systems, it is used for environment sensing and target recognition. Face recognition and behavior analysis in intelligent surveillance and security systems. For image processing and rendering in virtual reality and augmented reality applications.
Broadcasting and Live Streaming
PCIE image acquisition cards can be integrated into high-end machine vision systems, providing powerful support for high-precision, high-speed target detection and image processing to meet the needs of automated production lines and high-tech manufacturing processes. For example, in robotics and automated navigation systems, it is used for environment sensing and target recognition. Face recognition and behavior analysis in intelligent surveillance and security systems. For image processing and rendering in virtual reality and augmented reality applications.
Machine Vision Imaging Solution with High Accuracy and Cost Effectiveness
Outstanding, no fear of comparison! Six core advantages, leading machine vision first!
Technical Support
Professional technical team to serve you: with many years of experience in machine vision and optoelectronic inspection, customized a number of rich and mature landing projects.
As a provider specializing in machine vision and optoelectronic inspection solutions, Avision is also committed to providing you with a range of paid technical services related to this product, aiming to help you succeed in your project in the most cost-effective way. Please contact us if you need technical services related to this product!
Frequently Asked Questions
Technical support and paid services to drive your project to the limit.
Compared with the competitors, our video capture cards have the following significant advantages:
1. High-performance FPGA acceleration
2. excellent flexibility and programmability
3. low latency data processing
4. Easily expandable functions
5. Powerful high-resolution support
6. Multi-channel and multi-mode operation capability
7. Comprehensive software support and development tools
- CameraLink, up to 25Gb/s bandwidth, supports Camera Link modes: base,medium,full,deca.
- CoaXPress, up to 4*12.5 Gb/s bandwidth from up to 4 CXP interfaces via 4 CXP-12/6 connections.
- GigE Vision, with an aggregate bandwidth of up to 2*10Gb/s.
The video capture card is built with Intel Arris 10 series chipset and Quartus II compiler software.
In practice, the I/O interfaces are the same for Rev.1, Rev.2, Rev.3, and future Rev.4 versions, and the software manuals are incorrectly describing the corresponding locations. These versions of HawkEye all utilize the same I/O interface configuration and there is no difference.
The FPGA (Field Programmable Gateway Array) on the video capture card is capable of performing various functions including image pre-processing, data processing, data transfer, and control. Below are some common image pre-processing operations:
1. Image Filtering
2. Image Enhancement
3. Image Cropping and Zooming
4. Image Alignment
5. Compression and Coding
6. Frame synchronization and timestamp generation
Supported pixel formats: Monor, Bayer, RGBA and RGB, etc. Video capture cards are usually developed according to different video capture protocols (e.g. CameraLink, CoaXPress and GigE Vision) to support cameras compatible with the corresponding protocols.
Machine vision and industrial automation:
(1) For visual inspection and quality control tasks on automated production lines.
(2) Can be used in semiconductor manufacturing, electronic assembly and automotive industries.
Example: Detecting product surface defects, measuring object size and shape.
(3) Medical imaging:
Used in medical imaging equipment such as MRI, CT scanners and ultrasound equipment.
(4) Support physicians in the acquisition and processing of medical images.
Example: Image reconstruction and analysis to aid in diagnosis.
(5) Energy:
Data acquisition and analysis for the energy sector.
(6) Support for oilfield exploration and power system monitoring.
Examples: seismic data processing, power network optimization.
[Hardware Support]
(1) Provide high quality video capture card hardware, selected and configured according to customer's needs and applications.
(2) Ensure the performance and stability of the collector card to meet the requirements of the specific application.
Software drivers and tools:
(3) Provide corresponding software drivers to ensure the compatibility of the capture card with the operating system and applications.
(4) Software development tools, APIs and sample code may be provided to assist customers in customized application development.
Technical Support:
(5) Provide technical support team to resolve hardware and software issues.
(6) Online documentation, user manuals, and knowledge bases may be available to assist customers in the use and maintenance of the capture card.
[Customized Solutions
(1) Provide customized hardware and software solutions based on specific customer needs.
(2) We can work with our customers to design a collector card and supporting system that meets their application needs.
[Training and Counseling]
(1) Training courses may be provided to help customers better understand how to use and configure video capture cards.
(2) Consulting services may be available to assist customers in selecting the hardware and software configuration best suited to their application.
Updating and Maintenance:
(3) Provide firmware and driver updates to ensure the performance and security of the card.
(4) Maintenance contracts may be offered to ensure the long-term reliability of the cards.
