# KT DGX SuperPOD
**Wikidata**: [Q131929182](https://www.wikidata.org/wiki/Q131929182)  
**Source**: https://4ort.xyz/entity/kt-dgx-superpod

## Summary
KT DGX SuperPOD is a supercomputer developed by KT Corporation in South Korea, built using NVIDIA DGX A100 systems and AMD EPYC 7742 processors. It achieved a peak performance of 14.42 petaflops and ranked 58th on the TOP500 list as of June 2023.

## Key Facts
- Developed by KT Corporation and manufactured by NVIDIA, launched in 2022
- Uses AMD EPYC 7742 64-core processors running at 2.25 GHz and NVIDIA A100 GPUs
- Contains 98,208 processor cores and achieves 10.38 petaflops Rmax performance
- Ranked 58th on the TOP500 list in June 2023, improving to 113th by November 2024
- Runs Ubuntu 20.04.2 LTS as its operating system with long-term support
- Located in Seongnam, South Korea, serving industrial sector applications
- Has a TOP500 system ID of 180163

## FAQs
### Q: What is the performance of KT DGX SuperPOD?
A: KT DGX SuperPOD delivers 10.38 petaflops of sustained performance (Rmax) and 14.42 petaflops of peak performance (Rpeak).

### Q: What hardware components make up KT DGX SuperPOD?
A: The system uses NVIDIA DGX A100 systems with AMD EPYC 7742 64-core processors at 2.25 GHz and NVIDIA A100 GPUs, connected via Infiniband HDR networking.

### Q: Where is KT DGX SuperPOD located and who operates it?
A: KT DGX SuperPOD is located in Seongnam, South Korea, and is operated by KT Corporation for industrial sector applications.

## Why It Matters
KT DGX SuperPOD represents South Korea's advancement in high-performance computing capabilities, providing critical infrastructure for industrial research and development. As a commercial supercomputer built on NVIDIA's DGX platform, it demonstrates the scalability of modern AI and HPC systems for enterprise applications. The system's consistent presence on the TOP500 list since 2023 shows its competitive performance in the global supercomputing landscape. For KT Corporation, this infrastructure enables advanced data analytics, machine learning workloads, and complex simulations that drive innovation across multiple industrial sectors, positioning South Korea as a key player in the global technology ecosystem.

## Notable For
- Achieved 58th position on the prestigious TOP500 supercomputer ranking in June 2023
- Built using NVIDIA's DGX SuperPOD architecture, a scalable AI infrastructure solution
- Combines AMD EPYC 7742 processors with NVIDIA A100 GPUs for optimal performance
- Serves industrial sector applications, bridging academic and commercial HPC needs
- Maintains consistent TOP500 ranking improvements, reaching 113th by November 2024

## Body
### Technical Specifications
KT DGX SuperPOD is built on NVIDIA's DGX SuperPOD architecture, utilizing DGX A100 systems as its foundation. The system incorporates AMD EPYC 7742 processors, each featuring 64 cores running at 2.25 GHz, providing substantial computational power for parallel processing workloads.

### Performance Metrics
The supercomputer achieves 10.38 petaflops of sustained performance (Rmax) and 14.42 petaflops of peak performance (Rpeak). It contains 98,208 processor cores, enabling massive parallel computation capabilities. The system's Nmax value of 2,009,952 represents its theoretical maximum processing capacity.

### System Architecture
The infrastructure uses Infiniband HDR networking for high-speed inter-node communication, essential for distributed computing workloads. The combination of NVIDIA A100 GPUs with AMD EPYC processors creates a heterogeneous computing environment optimized for both AI training and traditional HPC applications.

### Software Environment
KT DGX SuperPOD runs Ubuntu 20.04.2 LTS with long-term support, providing a stable and secure operating environment for enterprise workloads. This Linux distribution choice ensures compatibility with a wide range of scientific and commercial software packages.

### Ranking History
The system has demonstrated consistent performance on the global stage, ranking 58th on the TOP500 list in June 2023, improving to 71st by November 2023, then 90th in June 2024, and most recently 113th in November 2024. This progression reflects both the system's capabilities and the rapidly evolving supercomputing landscape.