Experience

Lightmatter

• United States
• Hospitals and Health Care
• 1 - 100 Employee

• Senior Software Engineer

  • Sep 2023 - Present

  San Francisco Bay Area



Intel Corporation

• United States
• Semiconductor Manufacturing
• 700 & Above Employee

• Performance Architect

  • Apr 2022 - Sep 2023

  San Francisco Bay Area Interconnect(Fabric) architecture modeling, Fabric related performance tuning and debugging for Xeon Granite Rapids.



Micron Technology

• United States
• Semiconductor Manufacturing
• 700 & Above Employee

• Senior Manager

  • Oct 2021 - Feb 2022

  San Jose, California, United States

• Principle System Architect

  • Oct 2019 - Oct 2021

  San Jose, California, United States

• Staff System Architect

  • Apr 2018 - Nov 2019

  San Jose, California, United States Performance modeling and architecture design for in-house memory controller using Micron's 3DXP technologies.



SanDisk®

• United States
• Semiconductor Manufacturing
• 700 & Above Employee

• Sr. Research Engineer / Principle Engineer

  • Mar 2015 - Apr 2018

  Milpitas, CA 3D NAND media system architecture design for enterprise SSD solutions, LDPC modeling and tuning for memory controller.



Huawei Technologies

• United Kingdom
• Telecommunications
• 200 - 300 Employee

• Wireless Research Intern

  • May 2014 - Dec 2014

  Bridgewater, NJ Physical Layer Optimization for LTE and LTE-A networks.



Syracuse University

• United States
• Higher Education
• 700 & Above Employee

• Research Assistant

  • Jan 2009 - May 2014

  Syracuse, New York Area Participated in DARPA Spectrum Challenge, designed a radio protocol that can best use a given communication channel in the presence of other dynamic users and interfering signals. Advanced to the final events as one of the top-15 teams. Multiple-access-Z-interference channels - Studied an uplink interference channel model of 3 users and 2 base stations, motivated by current cellular systems where co-cell interference is no longer ignored. - Proposed an achievable rate region based… Show more Participated in DARPA Spectrum Challenge, designed a radio protocol that can best use a given communication channel in the presence of other dynamic users and interfering signals. Advanced to the final events as one of the top-15 teams. Multiple-access-Z-interference channels - Studied an uplink interference channel model of 3 users and 2 base stations, motivated by current cellular systems where co-cell interference is no longer ignored. - Proposed an achievable rate region based on superposition coding and simultaneous decoding techniques with time sharing methodology. - Derived various optimal coding schemes corresponding to different interference strengths. Two-user discrete memoryless one sided and mixed interference channels - Proposed concrete expressions to determine the weak interference case for one-sided interference channels, as well as a class of mixed interference channels in discrete memoryless case. - Derived the exact characterization of the sum rate capacities for both cases, including the existing results on Gaussian channels as special cases. - Established the equivalence between the one-sided weak interference channel and a class of degraded interference channels. - Constructed an outer-bound of the capacity region based on the associated degraded interference channels, which can be the exact capacities under some conditions. Two-user Gaussian interference channels - Examined the largest computable achievable region for two-user Gaussian interference channels. - Established the optimality of FDM (Frequency Division Multiplexing) in terms of power allocation for a specific range of interference.

• Teaching Assistant

  • Sep 2008 - Dec 2008

  Syracuse, New York Area A lab instructor and a grader for the undergraduate course on electrical circuits.