Solution SoC Design Service

iCatch’s Solutions

Our Solution SoC Design Services include
  • System Architecture Evaluation
  • System Integration Services
  • System Verification Services
  • APR & PV Services
  • Hardware Development Services
  • Software Development Services
 
These comprehensive services help customers stand out in a highly competitive market, achieving technological innovation and commercial success. iCatch Technology is committed to providing customers with the most advanced and reliable Solution SoC, ensuring that each project achieves optimal performance and high reliability. For example, our automotive Solution SoC encompasses everything from precise sensor data processing to real-time decision support, ensuring the safety and reliability of vehicle systems. Our professional technology and innovative designs provide customers with a competitive edge in a rapidly changing market.
 
Design-Service total solution from system to SoC
 
AI Imaging SoC Development Platform
This development platform has the following advantages:
  • Fast integration of custom AI engines: Customers can quickly integrate AI NPU IPs provided by partners into the platform, accelerating the development cycle of custom ASICs.
  • Highly flexible hardware and software integration: The platform provides a comprehensive hardware abstraction layer and software SDK, simplifying hardware and software integration for ASICs.
  • High-performance computing expansion: Supports CPU/NPU resource expansion through D2D interface to meet high-performance requirements.
Scalable Customization Platform
 
Design Shift Left
In the complex SoC development process, iCatch Technology supports customers' custom SoC development through the following key measures:
  1. Subsystem and IP Optimization Design
    • Focus on optimizing subsystems and various IPs for different application scenarios, improving overall system performance and power consumption indicators.
    • Fully utilize IP multiplexing and combination, shortening SoC development cycle.
  2. CPU Peripheral Design Optimization
    • Conduct in-depth optimization of CPU peripheral circuits, enhancing overall system performance.
    • Optimize the design of key components such as memory controllers and I/O interfaces.
  3. Hardware Emulation and FPGA Prototype Verification
    • Use hardware emulators and FPGA prototypes for comprehensive verification of the entire SoC system.
    • Ensure the correctness of system functions and that performance indicators meet requirements.
  4. Software Development Support
    • Implement the "Design Shift Left" approach, allowing software engineers to participate in development earlier.
    • Shorten the hardware-software joint debugging cycle, accelerating overall product time-to-market.
 
Shift Left Development