High Performance
Amazing Performance!System Semiconductors for Supercomputers
System semiconductors in supercomputers are capable of innovatively fast and precise matrix operations with 64-bit floating-point methods rather than fixed-point methods. With this design, we can achieve amazing performance beyond our imagination.
Edge and High Performance Computing
Supercomputers and Artificial Intelligence Technology
Supergate is focusing on server-based artificial intelligence technology as well as on-device AI and AI software stack technology. Connecting artificial intelligence with supercomputing systems is paramount. That’s what Supergate does, connecting our daily lives with artificial intelligence technology.
Chips 
Node Application for supercomputing
Chips
Develop an accelerator, integrate it into a chip, and connect it to an AI application
Check out the Neobus-based Matrix-bus system semiconductor and accelerator design at Supergate.
Node
We design nodes that are needed for hardware that uses large amounts of big data
The nodes designed by Supergate are supplied to domain service platform companies that process large amounts of data.
*Computing nodes refer to physical computing resources that contain CPU and memory.
Application
Last puzzle for supercomputing, application
AI chips alone are not enough. Only when software and services work together can real artificial intelligence applications work. Supergate is a one-stop integrated service that covers design, verification, mass production, and software, and soon turns ideas into real AI services.
SupergatedoesHPC SoC
⸺ Process and Buses
⸺ High-Speed Interface
⸺ Foundation Design
⸺ Chiplets, Wafer
Process and Buses
Our processes and buses are quick to process complex operations
Supergate’s HPC SoC is based on ARM Neoverse and CNM700 structures, which efficiently distributes large-scale operations.
The FP accelerator is added to this to further improve the speed of numerical calculation and data analysis. In addition, the proprietary controller developed by Supergate reliably coordinates the entire computational process, helping to perform complex operations quickly and smoothly.
- ARM Neobus & CNM700
- FP Accelerator
- Exclusive Controllers
High-Speed Interface
The high-performance computing system we developed supports high-speed interfaces.
Supergate’s HPC SoC supports a variety of high-speed interface PHYs. It can range from general-purpose connections such as PCIe, USB, and Ethernet to the latest DDR5-based memory.
It also supports **Chip-to-Chip interface (CXL)** for data transfer between chips and **Die-to-Die interface (HBM)** for ultra-fast connectivity between dies to ensure smooth data flow in complex computational environments.
- Interface PHY: PCIe, USB, Ethernet, Third Memory: DDR5
- Chip-to-Chip: CXL
- Die-to-Die: HBM, UCIe
Foundation Design
Can I design a foundation? Of course
Supergate even provides the foundation design directly, which is the basis of semiconductor design. It supports basic Standard Cell libraries and SRAM compilers, as well as security technologies (PUF & TRNG) that ensure chip safety.
In other words, it has a foundation ranging from the most basic of circuits to security, allowing customers to stably implement customized semiconductors they want.
- a standard cell
- SRAM Compiler
- Security: PUF & TRNG
Chiplets, Wafer
We can't forget semiconductor post-processing technology
Supergate takes care of not only design but also post-process technology. Chiplet Packaging* increases integration, verifies reliability with On-board Test*, and leads to stable wafer production. It provides high-quality semiconductor solutions through services that cover the entire process from design to manufacturing to post-processing.
- Chiplet Packaging
- Onboard test
- Wafer production