# Adisak Mekkittikul

> Thai researcher

**Wikidata**: [Q4683011](https://www.wikidata.org/wiki/Q4683011)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Adisak_Mekkittikul)  
**Source**: https://4ort.xyz/entity/adisak-mekkittikul

## Summary
Adisak Mekkittikul is a Thai computer scientist known for his research in network switching and packet processing. He is affiliated with Wichita State University and is recognized for contributions to high-performance networking, including work on switch architectures and throughput optimization.

## Biography
- Born: 1950
- Nationality: Thai
- Education: Wichita State University, Stanford University
- Known for: Pioneering work in packet switch core design and input-queued switch throughput optimization
- Employer(s): Wichita State University
- Field(s): Computer science, networking

## Contributions
Adisak Mekkittikul is best known for his work on "Tiny Tera: a packet switch core," a high-performance switch architecture that achieved 100% throughput in an input-queued switch. His research focused on optimizing packet processing and switch design, contributing to advancements in network infrastructure. He has published notable works in the field of computer networking, influencing the development of efficient switching technologies.

## FAQs
### Q: What is Adisak Mekkittikul known for?
A: Adisak Mekkittikul is known for his research in network switching, particularly for designing the "Tiny Tera" packet switch core and achieving 100% throughput in an input-queued switch.

### Q: Where did Adisak Mekkittikul study?
A: He earned his education at Wichita State University and Stanford University.

### Q: Who was Adisak Mekkittikul's doctoral advisor?
A: His doctoral advisor was Nick McKeown, a British engineer and computer scientist.

### Q: What was Adisak Mekkittikul's notable work in networking?
A: His notable work includes the design of the "Tiny Tera" packet switch core and research on achieving 100% throughput in an input-queued switch.

### Q: What is Adisak Mekkittikul's current affiliation?
A: He is affiliated with Wichita State University.

## Why They Matter
Adisak Mekkittikul's work in network switching has had a significant impact on the development of high-performance networking infrastructure. His research on switch architectures and throughput optimization has contributed to advancements in packet processing, influencing the design of modern network systems. His contributions have helped improve the efficiency and reliability of network infrastructure, making his work foundational in the field of computer networking.

## Notable For
- Designed the "Tiny Tera" packet switch core, a high-performance switch architecture.
- Achieved 100% throughput in an input-queued switch, a landmark in network switching.
- Affiliated with Wichita State University, contributing to networking research.
- Trained under Nick McKeown, a prominent figure in computer science.
- Published influential works in the field of computer networking.

## Body
### Early Life and Education
Adisak Mekkittikul was born in 1950. He pursued his education at Wichita State University and Stanford University, where he studied computer science.

### Research and Contributions
Mekkittikul's primary research focus was on network switching and packet processing. His most notable work includes the design of the "Tiny Tera" packet switch core, which achieved 100% throughput in an input-queued switch. This work was a significant advancement in the field, influencing the development of high-performance network infrastructure.

### Academic Affiliations
He was affiliated with Wichita State University, where he contributed to networking research. His doctoral advisor was Nick McKeown, a renowned computer scientist and engineer.

### Legacy
Adisak Mekkittikul's contributions to network switching have had a lasting impact on the field. His research on switch architectures and throughput optimization has been widely recognized and has influenced the design of modern network systems. His work continues to be referenced in academic and industry contexts, solidifying his place as a key figure in computer networking.

## References

1. Mathematics Genealogy Project