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I am currently working as a Z Systems Hardware Architect at IBM. Defining new instructions and functions, document the detailed operation of these functions, and design reviews for IBM Z Systems Architecture.

I have a Ph.D. in Computer Engineering from Michigan Technological University. My dissertation is in DEMAND-DRIVEN EXECUTION USING FUTURE GATED SINGLE ASSIGNMENT FORM. I was working with my advisor Dr. Soner Onder.

My Ph.D. research & project was in Computer micro-architecture, Instruction Set Architecture (ISA), Memory Ordering, Memory model, Demand Driven Execution (Lazy Execution), Control flow execution, Data flow execution, Superscalar processor, Future Gated Single Assignment (FGSA).

I was working on an NSF XPS project exploring a previously unexplored execution paradigm, namely, Demand Driven Execution (Lazy Execution) of imperative programs. It harvests both Instruction Level Parallelism (ILP) & Data Level Parallelism (DLP) for extreme-scale machines. I have designed and developed Micro-architecture, Instruction Set Architecture, Demand-Driven Execution (DDE) paradigm, Simulator, Addressing mode, Memory Ordering, Memory model.

Previously, I worked as Research & Development Engineer (Electronics & Embedded systems) at Sensing Technologies Pvt. Ltd.; Mumbai.

I received my Master of Technology (M. Tech) in Electronics Engineering from 'Veermata Jijabai Technological Institute' (VJTI), previously known as ‘Victoria Jubilee Technical Institute’, Mumbai, India in September 2010.

I received my Bachelor's in Electronics Engineering from Fr. Conceicao Rodrigues College of Engineering (University of Mumbai), Mumbai, India in August 2008.

I am interested in research, design, and development of Microarchitecture, Instruction Set Architecture, CPU, Demand Driven Execution (Lazy Execution), Many-core Processor, Computer Architecture, Multi-core processor, Dataflow Architecture, Microprocessor, system on chip (SoC), Supercomputer, HPC and ASIC.

Master of Technology (M. Tech) Thesis on "Wireless Sensor Network using Bluetooth"

  • Design and development of a prototype of Wireless Sensor Node using Bluetooth radio module.

  • These Nodes are autonomous low power battery operated capable of signal sensing, signal conditioning, signal processing, control and communication.

  • Wireless Sensor Network is created using these embedded nodes.

Recent Publication

    • Omkar Javeri, Zhaoxiang Jin, and Soner Önder. A demand-driven instruction set architecture. Technical Report CS-TR-18-01, Department of Computer Science, Michigan Technological University, 2018.

    • Omkar Javeri, Tino Moore, and Soner Önder. Demand Driven Execution Pipeline. Technical Report CS-TR-18-02, Department of Computer Science, Michigan Technological University, 2018.

    • Gorkem Asilioglu, Zhaoxiang Jin, Murat Koksal, Omkar Javeri and Soner Onder. 2015. LaZy Superscalar. In Proceeding of the 42nd annual international symposium on Computer architecture (ISCA '15). Portland, OR, USA.