Semiconductor chip products

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Advanced Integrated Circuits for Modern Computing

Our semiconductor chip products represent the core processing engines for today's electronic systems. From reconfigurable hardware to general-purpose processors, we provide solutions that balance performance, power efficiency, and functional integration for diverse application requirements.

Each chip product is engineered with precision manufacturing processes and rigorous quality controls to ensure reliable operation in demanding environments across industrial, automotive, telecommunications, and computing sectors.

7-28nm Process Nodes

125°C Operating Temp

ISO 9001 Quality Certified

AEC-Q100 Automotive Grade

Key Product Comparison

Product Series	Logic Cells/LUTs	SERDES Speed	Memory Support	Key Features	Target Applications
High-Performance FPGA (70K-390K Logic Cells)	70K, 160K, 390K	12.5 Gbps	DDR3/DDR4-1866	PCIe Gen3, High-speed interfaces	Communications, Data Analytics, Test & Measurement
Low-Density FPGA (25K-200K LUTs)	25K, 50K, 100K, 200K	Up to 12.5 Gbps	DDR3/DDR4-1866	Soft Error Detection & Correction, Industrial Grade	Industrial Control, Medical, Cybersecurity
Entry-Level FPGA (12K-100K LUTs)	12K, 18K, 22K, 25K, 50K, 100K	6.375 Gbps	DDR3-800	Hard ADC, AES Module, MIPI Support	Consumer, Industrial, Communications
Desktop/Server CPU	4-64 Cores	N/A	DDR4-2400/3200	LoongArch ISA, PCIe 3.0, Security Module	Desktop Computing, Server Infrastructure
Embedded SoC	1-4 Cores	PCIe 3.0	DDR3/DDR4	Integrated GPU, CAN, Industrial Interfaces	Industrial Control, IoT Edge, Automotive
Microcontroller	Single Core	N/A	Integrated SRAM/Flash	Motor Control, Ultra-Low Power	Motor Control, Smart Home, IoT Devices

How to Choose: FPGA vs CPU Selection Guide

hen to Choose FPGA:

Hardware Reconfigurability Needed: When your design requires post-manufacturing hardware changes or field upgrades
Parallel Processing: For applications requiring massive parallel data processing like video analytics, radar signal processing
Custom Hardware Acceleration: When specific algorithms need hardware acceleration beyond CPU capabilities
Real-Time Signal Processing: For deterministic, low-latency signal processing applications
Prototyping & Development: During hardware development phases where flexibility is crucial
Interface Bridging: When multiple high-speed interfaces need custom protocol bridging

When to Choose CPU:

General-Purpose Computing: For traditional software-based applications and operating systems
Software Ecosystem Required: When leveraging existing software libraries, frameworks, and development tools
Sequential Task Execution: For applications dominated by sequential processing and control logic
Multi-Tasking & OS Support: When running complex operating systems with multi-tasking capabilities
Legacy Software Compatibility: When maintaining compatibility with existing software investments
Development Speed Priority: When time-to-market is critical and software development is faster than hardware design

Product Series Recommendations:

High-Performance Computing: FPGA-390K (390K Logic Cells) or 16-64 Core Server CPUs
Industrial Automation: FPGA-L25K/L50K with Soft Error Correction or Dual-Core Industrial SoCs
Edge Computing: FPGA-70K/160K or 4-8 Core Embedded CPUs
Telecommunications: High-performance FPGAs with 12.5 Gbps SERDES for 5G applications
Consumer Electronics: Entry-Level FPGAs (12K-25K LUTs) or Low-Power Embedded SoCs
Motor Control & IoT: Single-Core Microcontrollers with specialized peripherals
Secure Systems: FPGAs with AES modules or Security-Enhanced SoCs

Chip Product Categories

FPGA and CPU applications in 5G and Automotive fields

RECONFIGURABLEPROGRAMMABLEFPGA

Field-Programmable Gate Arrays

Our FPGA portfolio spans from 12K to 390K logic cells, offering scalable solutions for diverse applications. High-performance series support 12.5 Gbps SERDES, PCIe Gen3, and DDR4-1866 for communications and data center applications.

Low-density FPGAs (25K-200K LUTs) feature configurable logic modules with built-in soft error detection and correction, making them ideal for industrial and mission-critical applications. Entry-level FPGAs integrate hard ADC cores, AES encryption, and MIPI interfaces for cost-sensitive designs.

All FPGAs are built on advanced mature processes and support comprehensive development toolchains with IP libraries and reference designs.

Explore FPGA Solutions

Engineer inspecting silicon wafer in cleanroom

PROCESSINGCOMPUTINGCPU

Central Processing Units & Embedded SoCs

Our CPU portfolio includes desktop processors (4-8 cores), server CPUs (16-64 cores), and embedded SoCs (1-4 cores). All processors feature the LoongArch instruction set architecture with advanced security and power management capabilities.

Desktop and server CPUs support DDR4-3200 memory, PCIe 3.0 interfaces, and integrated security modules. Embedded SoCs provide comprehensive peripheral integration including GPU, CAN, Ethernet, and industrial interfaces for compact system designs.

Industrial-grade variants offer extended temperature operation (-40°C to 85°C) and enhanced reliability for harsh environment applications.

Explore CPU Solutions

Industry Applications

Telecommunications & 5G

High-performance FPGAs for 5G baseband processing and network acceleration. Server CPUs for core network infrastructure.

Industrial Automation

Industrial-grade FPGAs with soft error correction for PLCs. Embedded SoCs with CAN and industrial interfaces for control systems.

Automotive Systems

Automotive-grade chips for ADAS, vehicle control units, and infotainment systems with extended temperature operation.

Data Center & Cloud

High-core-count server CPUs for virtualization and cloud infrastructure. FPGAs for data acceleration and network security.

Consumer Electronics

Entry-level FPGAs for smart home devices. Low-power SoCs for multimedia and connectivity applications.

Medical & Instrumentation

High-reliability FPGAs for medical imaging and diagnostic equipment. Precision timing MCUs for laboratory instruments.

Quality & Reliability

All semiconductor chip products are manufactured under ISO 9001:2015 certified quality systems. Automotive-grade products comply with AEC-Q100 standards, ensuring reliability for safety-critical automotive applications. Industrial products meet relevant IEC standards for operation in harsh environments.

Our testing regimen includes wafer-level probe testing, final electrical testing across temperature ranges, and system-level validation. Reliability testing encompasses HTOL, temperature cycling, and ESD protection verification to ensure long-term performance in target applications.

Industrial-grade variants are qualified for operation from -40°C to 85°C/105°C, with enhanced reliability features including soft error detection and correction in FPGAs.

Technical Support Resources

We provide comprehensive technical documentation, development tools, and engineering support for successful integration of our chip products. Resources include datasheets with electrical specifications, application notes with design guidelines, and reference designs for common applications.

Development support includes software development kits, hardware evaluation platforms, and technical training materials. Our engineering team provides application assistance for system design, performance optimization, and compliance testing.

Technical Datasheets & Specifications
Application Notes & Design Guides
Software Development Kits (SDKs)
Hardware Evaluation Boards
Reference Designs & Example Code
Reliability Reports & Qualification Data
Technical Training & Webinars

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For optimal application fit, we recommend reviewing latest specifications and validating within your design. Our team is available for technical consultation.

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