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  • FPGA Development
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  • Industrial software development

FPGA Development

Upper Computer

IoT Development

Industrial software development

Email:

zhaizhongbing723@gmail.com

Software development _ host computer development _ Internet of things development _ App development _ Software custom development company Software development _ host computer development _ Internet of things development _ App development _ Software custom development company
Software development _ host computer development _ Internet of things development _ App development _ Software custom development company

100+

Talents
Software development _ host computer development _ Internet of things development _ App development _ Software custom development company

500+

Clients
Software development _ host computer development _ Internet of things development _ App development _ Software custom development company

1000+

Solutions
Custom FPGA Development

Success Cases

Graphical Interface Board Development for Intelligent Cockpit Systems (Mobile Driving Platforms

The FPGA is based on the XC7Z100-2FFG900 from the Zynq-7 Series SoC family by Xilinx. The project achieves a 3G/S 14-bit high-speed AD acquisition through a 204b interface. The AD acquisition data is filtered to identify pre-determined valid data segments, which are then transmitted to the host computer through an Ethernet port for data processing using the on-chip system.

Development of High-Speed ADC Acquisition Systems for RF Test Boards Wireless Applications

FPGA/CPLD-Based RF Signal Processing System Development for 1GHz-40GHz Bands Using ALTERA Platforms

High-Speed ADC Acquisition Board Development for RF Signal Processing Standards

FPGA-Based High-Speed Data Acquisition System Development Utilizing Xilinx Zynq-7 SoC (XC7Z100-2FFG900) with 3 GSPS 14-bit ADC via JESD204B Interface

Development of Anlu PH1A100 Standard Reference Design Board

Multi-Interface Embedded System Development with PCIe Expansion, Gigabit Auto-Negotiation Ethernet, and SFP Optical Communication for EN-Compliant

PCIE Expansion Board Development with HDMI 2.1 Interface for High-Resolution Display Output

FPGA-Based PCIe-HDMI Video Interface Development Utilizing Xilinx XC7A200T-2FBG676I for 1920×1080 Display Output AV Systems

Heterogeneous Image Processing System Development Utilizing TI TMS320C6713BGDPA200 DSP and Altera EP2S30F672I4N FPGA for Embedded Vision Applications

DVI Signal Conditioning System Development with TI TFP401AMPZPEP Receiver and DS16EV5110ASQE Equalizer for Video Applications

DSP EP2S30F672I4N Sensor Data Signal Conditioning and Processing

DVI Signal Conditioning System Development with TI TFP401AMPZPEP Receiver and DS16EV5110ASQE Equalizer for EN-Compliant Video Interfaces

Heterogeneous Embedded Platform Development with Intel Cyclone V 5CEFA7F27I7N FPGA, NXP i.MX6Q ARM Cortex-A9 MPU, DDR3 Memory, and Gigabit Ethernet

The FPGA is responsible for image output, while the IMX6Q handles signal processing.

Solution

Vertical Integration Industry Solutions to Address Business Needs
Advanced Equipment Manufacturing
Advanced Equipment Manufacturing

By leveraging the flexibility and rapid response capabilities of FPGAs, customized motion control, machine vision, sensor fusion, high-speed communication, and safety-critical functions can be implemented, thereby driving the in-depth development of automation and intelligence in the manufacturing industry.
Biopharmaceutical Manufacturing Processes
Biopharmaceutical Manufacturing Processes

By utilizing the high-speed data processing and precise control capabilities of FPGAs, production processes can be optimized, and automated monitoring and quality control can be realized, thereby enhancing the efficiency, consistency, and safety of the pharmaceutical manufacturing process.
Inspection and Testing
Inspection and Testing

By employing the rapid parallel processing and real-time response features of FPGAs, immediate analysis and precise control of complex data can be achieved, thereby enhancing the speed, accuracy, and level of automation in testing, especially in high-end testing systems that require swift feedback and processing.
Robotics
Robotics

Utilizing the parallel processing capabilities and real-time performance of FPGAs, robots are provided with fast, flexible motion control, perceptual data processing, and intelligent decision-making support, thereby enhancing their response speed, precision, and ability to adapt to complex tasks.
New Energy
New Energy

By leveraging the rapid data processing and flexible logic control capabilities of FPGAs, the optimization of energy conversion efficiency, the stable operation of power grids, and the intelligent management of energy systems can be achieved.
New Materials
New Materials

By utilizing the highly customizable and rapid response characteristics of FPGAs, precise real-time data processing and control logic can be provided for material property analysis, production process control, and quality inspection, thereby accelerating the development process of new materials and enhancing production efficiency.

FPGA Development Functions

Logic Design

Implement various logical functions and algorithms, such as digital signal processing, image processing, encryption and decryption algorithms, etc.

Digital Circuit Design

Implement various functions of digital circuits, such as counters, registers, timing circuits, etc.

High speed data transmission

Realize high-speed data transmission and communication through the high-speed bus and protocol inside FPGA.

system integration

Integrate various hardware and software resources into an FPGA chip to achieve system functionality and performance optimization.

real-time processing

Utilize the high concurrency and speed of FPGA to achieve real-time processing and response, such as video processing, audio processing, etc.

Embedded system

Optimize the functionality and performance of various embedded systems, such as robots, smart homes, intelligent transportation systems, etc.

Low-power design

By optimizing the internal circuits and signals of FPGA, low-power and energy-saving design can be achieved.

Artificial intelligence

Fpgas provide a hardware-level acceleration to perform complex mathematical operations and data processing tasks.

Unicrom’s advantages

Reliable Partner

With 36 years of experience and a team of over 100 industry veterans, we offer long-term, stable R&D services.

Professional Development Team

Our R&D team, with 12 years of industry experience, provides comprehensive services from consulting and requirements gathering to UI design, prototyping, testing, and deployment.

Senior Management Accountability

Leaderships oversee projects directly to ensure successful on-time delivery.

End-to-end Risk Management

Our project management team, certified in PMP and ACP, handles all risk aspects from feasibility analysis to deployment, ensuring project success.

ISO9001 Certification

Certified for design and development of computer application software, embedded industrial control boards, and electronic harness production.

Production and processing facilities

Machining+SMT center

FPGA project workflow

Customer Requirements
Acceptance Criteria
Schematic Design
PCB (Printed Circuit Board) Design
SMT (Surface-Mount Technology) Soldering
System and Driver Debugging
Aging Test
Custom Board Card Delivery
Remote support
On-Site Support

FAQ

Q:How to choose a reliable board custom development service provider?

A:The development of board customization depends on the qualification, experience and after-sales service of the R&D team. Therefore, it is important to choose a company with strong strength, stable team and long-term service.

Q:How much does it cost to customize and develop FPGA? How long is the cycle?

A:The cost and time estimates depend on the number and difficulty of functional requirements. It is difficult to provide an appropriate evaluation in the absence of clear requirements. You are welcome to directly consult our customer service, and we will arrange for a product manager to gradually guide you to sort out your requirements and translate them into project functions based on your ideas, so as to assess the development cost and time.

Q:What should I do if I want to add new requirements during the development process?

A:If there are new requirements during the project development process, the project manager will assess the workload and related costs that need to be changed based on the current project implementation progress and situation. After confirming the implementation plan, a new project will be created to develop in parallel with the old project.

Unicrom:
Dedication in engineering excellence and partner’s satisfaction

Unicrom enhances efficiency and accelerates software projects for our partners.  With over 30 years of experience delivering technology solutions to international businesses, Unicrom offers a proven track record of success.

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