Biography:Amin Vahdat

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Short description: Computer scientist and business executive
Amin Vahdat
OccupationVP and GM of AI and infrastructure at Google
Academic background
Alma materUniversity of California, Berkeley
Doctoral advisorThomas E. Anderson
Academic work
DisciplineComputer science
InstitutionsDuke University
University of California, San Diego
Main interestsNetwork architecture, network management, software-defined networking

Amin Vahdat is an American computer scientist and business executive. He is vice president and general manager of AI and infrastructure at Google.[1] Before joining Google, he was a computer science professor at University of California, San Diego and Duke University. His academic work has focused on network architecture and software-defined networking.

Education

Vahdat earned a bachelor's degree at the University of California, Berkeley in 1992, followed by a Ph.D. in computer science in 1998. His advisor was Thomas E. Anderson.[2]

Career

Duke University

As a computer scientist at Duke University,[3] in 2003 Vahdat and a colleague developed and released ModelNet, a software equivalent of a scale model of the internet for testing new programs in order to optimize research provisioning in large networked systems.[4] He also taught Advanced Computer Networks as a professor at Duke. He was promoted to tenure in July 2003.[5]

University of California, San Diego

Vahdat held the Science Applications International Corporation chair in the department of computer science and engineering at the University of California, San Diego,[6] where he worked from 2004 to 2013.[7] He was also professor of computer science and engineering and director of the university's center for networked systems.[8] He presented research in 2008 explaining how the fundamentals of clustered computing could reduce costs and improve performance when applied to network architecture.[9]

In 2009, Vahdat was a co-author on a paper demonstrating that hierarchical networking structures performed worse than networks run at one shared speed, showing a more cost-effective approach to building networks at scale. Uniform networking became a common approach at major web operations.[10][11] The ideas in the paper unintentionally paralleled work already underway at Google.[12]

While at UCSD, Vahdat was a primary researcher on Helios, a project that built a pair of test networks to demonstrate switching between traditional electrical networking and optical networking to speed data transfers between servers.[10][13]

Google

In 2010, Vahdat joined Google as technical lead for networking,[8] a role he held until 2019.[14] His work focused on network architecture for both data centers and wide area networks.[6] Vahdat's team at Google developed software-defined networking (SDN) to scale data center bandwidth,[15] with the first deployment in 2010.[16] A 2013 paper in SIGCOMM coauthored by Vahdat described how Google designed and created this network.[16][17] In 2023, the Association for Computing Machinery gave this paper its "Test of Time" award.[18]

In a 2014 SIGCOMM paper, Vahdat and coauthors described the P4 programming language and proposed that it play a role in SDN protocols;[19] this paper also won the Test of Time award, in 2024.[18] He joined Jennifer Rexford and Nick McKeown as a board member of the P4 Language Consortium (P4.org) in July 2016.[20] By 2015, Vahdat was also a Google Fellow.[21] He oversaw the company's design[12] and development of network equipment tailored to its own data center and wide area needs.[22] Vahdat's leadership of networking at Google grew to include compute and storage as well.[8] In 2021, when he was vice president for systems infrastructure,[23] he shared that Google had begun developing custom SoCs.[24][25]

Vahdat leads Google's efforts to develop its own AI chips.[26] He oversaw the company's work to develop Axion, a proprietary AI chip, in 2024,[27] and Google's seventh-generation Tensor Processing Unit, Ironwood, in 2025.[28]

Recognition

Vahdat has received the National Science Foundation CAREER Award[29] and, in 2003, the Alfred P. Sloan Fellowship.[30] He became a Fellow of the Association for Computing Machinery (ACM) in 2011.[31] In 2020, the ACM gave Vahdat the SIGCOMM Award for Lifetime Contribution.[32] The National Academy of Engineering elected him as a member in 2023 for his work in creating "datacenter and planet-scale networks that power cloud computer systems."[33]

Selected publications

  • Vahdat, A.; Anderson, T.; Dahlin, M.; Belani, E.; Culler, D.; Eastham, P.; Yoshikawa, C. (1998). "WebOS: Operating system services for wide area applications". Proceedings. The Seventh International Symposium on High Performance Distributed Computing (Cat. No.98TB100244). pp. 52–63. doi:10.1109/HPDC.1998.709956. ISBN 0-8186-8579-4. 
  • Al-Fares, Mohammad; Loukissas, Alexander; Vahdat, Amin (2008). "A scalable, commodity data center network architecture". ACM SIGCOMM Computer Communication Review 38 (4): 63–74. doi:10.1145/1402946.1402967. 
  • Vahdat, Amin; Becker, David (April 2000). "Epidemic routing for partially connected ad hoc networks". Technical Report CS-2000-06 (Department of Computer Science, Duke University). http://issg.cs.duke.edu/epidemic/epidemic.pdf. 
  • Niranjan Mysore, Radhika; Pamboris, Andreas; Farrington, Nathan; Huang, Nelson; Miri, Pardis; Radhakrishnan, Sivasankar; Subramanya, Vikram; Vahdat, Amin (2009). "PortLand: A scalable fault-tolerant layer 2 data center network fabric". ACM SIGCOMM Computer Communication Review 39 (4): 39–50. doi:10.1145/1594977.1592575. 
  • Jain, Sushant; Kumar, Alok; Mandal, Subhasree; Ong, Joon; Poutievski, Leon; Singh, Arjun; Venkata, Subbaiah; Wanderer, Jim et al. (2013). "B4: Experience with a globally-deployed software defined WAN". ACM SIGCOMM Computer Communication Review 43 (4): 3–14. doi:10.1145/2534169.2486019. 
  • Bosshart, Pat; Daly, Dan; Gibb, Glen; Izzard, Martin; McKeown, Nick; Rexford, Jennifer; Schlesinger, Cole; Talayco, Dan et al. (2014). "P4: Programming protocol-independent packet processors". ACM SIGCOMM Computer Communication Review 44 (3): 87–95. doi:10.1145/2656877.2656890. 

References

  1. Ranganathan, Parthasarathy; Vahdat, Amin (14 October 2025). "Agile data centers and systems to enable AI innovations". Google Cloud Blog. https://cloud.google.com/blog/topics/systems/agile-data-centers-and-systems-to-enable-ai-innovations. 
  2. "CS Distinguished Alumni Award Winners" (in en). https://eecs.berkeley.edu/people/alumni/cs-distinguished-alumni/. 
  3. Saunders, Fenella (September 2003). "Internet in a Can". Discover 24 (9): p. 12. ISSN 0274-7529. https://research.ebsco.com/linkprocessor/plink?id=c80c7243-af2b-31f7-b907-5e897aede65b. 
  4. Lemmons, Phil (27 April 2003). "Duke Computer Scientists Clone the Internet for Software Testing" (in en). Duke Today. https://today.duke.edu/2003/04/modelnet0424.html. 
  5. Mock, Geoffrey (25 April 2003). "Teaching Computer Science Through Stories" (in en). Duke Today. https://today.duke.edu/2003/04/vahdat0403.html. 
  6. 6.0 6.1 Patringenaru, Ioana (13 December 2011). "Three UC San Diego Computer Scientists Named ACM Fellows" (in en). UC San Diego Today. https://today.ucsd.edu/story/three_uc_san_diego_computer_scientists_named_acm_fellows. 
  7. "Amin Vahdat - Computer Science". UC San Diego. https://cse.ucsd.edu/people/faculty-profiles/amin-vahdat. 
  8. 8.0 8.1 8.2 Morgan, Timothy Prickett (29 August 2023). "The Next 100X For AI Hardware Performance Will Be Harder". The Next Platform. https://www.nextplatform.com/2023/08/29/the-next-100x-for-ai-hardware-performance-will-be-harder/. 
  9. Dubie, Denise (August 2008). "How to Simplify Data Center Networks". Network World 25 (33): p. 36. ISSN 0887-7661. https://research.ebsco.com/linkprocessor/plink?id=1b5134a5-0724-3304-851b-3752a4f41bf7. 
  10. 10.0 10.1 Metz, Cade (15 January 2013). "How Google and Facebook Will Make the Leap to Lightspeed". Wired. https://www.wired.com/2013/01/opticals-google-facebook/. Retrieved 12 October 2025. 
  11. Niranjan Mysore, Radhika; Pamboris, Andreas; Farrington, Nathan; Huang, Nelson; Miri, Pardis; Radhakrishnan, Sivasankar; Subramanya, Vikram; Vahdat, Amin (2009). "PortLand: A scalable fault-tolerant layer 2 data center network fabric". ACM SIGCOMM Computer Communication Review 39 (4): 39–50. doi:10.1145/1594977.1592575. 
  12. 12.0 12.1 Metz, Cade (17 June 2015). "Revealed: The Secret Gear Connecting Google's Online Empire". Wired. http://www.wired.com/2015/06/google-reveals-secret-gear-connects-online-empire/. Retrieved 12 October 2025. 
  13. Farrington, Nathan; Porter, George; Radhakrishnan, Sivasankar; Bazzaz, Hamid Hajabdolali; Subramanya, Vikram; Fainman, Yeshaiahu; Papen, George; Vahdat, Amin (2010). "Helios: A hybrid electrical/Optical switch architecture for modular data centers". Proceedings of the ACM SIGCOMM 2010 conference. pp. 339–350. doi:10.1145/1851182.1851223. ISBN 978-1-4503-0201-2. 
  14. "Amin Vahdat". https://www.googlecloudpresscorner.com/Amin-Vahdat?pagetemplate=popup. 
  15. Moriarty-Siler, Erin (17 June 2015). "Through the Looking Glass: Google's Data Center Network" (in en). SDxCentral. https://www.sdxcentral.com/news/through-the-looking-glass-googles-data-center-network/. 
  16. 16.0 16.1 "A purpose-built global network: Google's move to SDN". Communications of the ACM 59 (3): 46–54. 2016. doi:10.1145/2814326. 
  17. Jain, Sushant; Kumar, Alok; Mandal, Subhasree; Ong, Joon; Poutievski, Leon; Singh, Arjun; Venkata, Subbaiah; Wanderer, Jim et al. (2013). "B4: Experience with a globally-deployed software defined WAN". ACM SIGCOMM Computer Communication Review 43 (4): 3–14. doi:10.1145/2534169.2486019. 
  18. 18.0 18.1 "Test of Time Paper Award". https://www.sigcomm.org/awards/acm-sigcomm-test-of-time-paper-award. 
  19. Bosshart, Pat; Daly, Dan; Gibb, Glen; Izzard, Martin; McKeown, Nick; Rexford, Jennifer; Schlesinger, Cole; Talayco, Dan et al. (2014). "P4: Programming protocol-independent packet processors". ACM SIGCOMM Computer Communication Review 44 (3): 87–95. doi:10.1145/2656877.2656890. 
  20. "Amin Vahdat joins P4.org Board!". P4.org. 18 July 2016. https://lists.p4.org/g/p4-announce/topic/amin_vahdat_joins_p4_org/107784090. 
  21. Morgan, Timothy Prickett (19 June 2015). "Inside A Decade Of Google Homegrown Datacenter Networks". The Next Platform. https://www.nextplatform.com/2015/06/19/inside-a-decade-of-google-homegrown-datacenter-networks/. 
  22. Sullivan, Ben (18 June 2015). "Google Reveals Secrets Behind Its Data Centre Networks". Silicon UK. https://www.silicon.co.uk/cloud/google-data-centre-networks-infrastructure-170573. 
  23. Ray, Tiernan (22 March 2021). "Google names Intel veteran Uri Frank in push for more highly integrated cloud chips" (in en). ZDNET. https://www.zdnet.com/article/google-names-intel-veteran-uri-frank-in-push-for-more-highly-integrated-cloud-chips/. 
  24. Manners, David (April 2021). "Google Makes Its Own Server SoCs". Electronics Weekly (2789): p. 5. ISSN 0013-5224. https://research.ebsco.com/linkprocessor/plink?id=c55fc9f0-3934-37c3-b7f1-02ab9800ed8e. 
  25. Morgan, Timothy Prickett (22 March 2021). "Google Says The SOC Is The New Motherboard". The Next Platform. https://www.nextplatform.com/2021/03/22/google-says-the-soc-is-the-new-motherboard/. 
  26. Langley, Hugh (24 October 2024). "Google VP Amin Vahdat leads the company in innovating with AI chips". Business Insider. https://www.businessinsider.com/amin-vahdat-google-ai-power-list-2024. 
  27. Quiroz-Gutierrez, Marco (9 April 2024). "Google is building its own AI chips—and it's a warning shot at Nvidia and Intel" (in en). Fortune. https://fortune.com/2024/04/09/google-building-ai-chips-axion-amin-vahdat-nvidia-h100-intel-gaudi-3/. 
  28. Morgan, Timothy Prickett (9 April 2025). "With "Ironwood" TPU, Google Pushes The AI Accelerator To The Floor". The Next Platform. https://www.nextplatform.com/2025/04/09/with-ironwood-tpu-google-pushes-the-ai-accelerator-to-the-floor/. 
  29. Yu, Haifeng; Vahdat, Amin (2002). "Design and evaluation of a conit-based continuous consistency model for replicated services". ACM Transactions on Computer Systems 20 (3): 239–282. doi:10.1145/566340.566342. 
  30. Tang, Wenting; Fu, Yun; Cherkasova, Ludmila; Vahdat, Amin (2007). "Modeling and generating realistic streaming media server workloads". Computer Networks 51: 336–356. doi:10.1016/j.comnet.2006.05.003. 
  31. "ACM Names Fellows for Computing Advances that Are Driving Innovation" (in en). The Association for Computing Machinery. 8 December 2011. https://www.acm.org/media-center/2011/december/acm-names-fellows-for-computing-advances-that-are-driving-innovation. 
  32. "With Covid-19 Pandemic as Backdrop, Acm Sigcomm Underscores Importance Of Communications Technologies That Keep Daily Life Functioning" (PDF). Association for Computing Machinery (Press release). 10 August 2020. Retrieved 12 October 2025.
  33. "National Academy of Engineering Elects 106 Members and 18 International Members" (in en). National Academy of Engineering. 7 February 2023. https://www.nae.edu/289843/NAENewClass2023. 




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