Rajiv V. Joshi is an Indian-American prolific inventor and research staff member at IBM's Thomas J. Watson Research Center. His work focuses on the development of integrated circuits and memory chips. He is an IEEE Fellow [1] and received the Industrial Pioneer Award from the IEEE Circuits and Systems Society in 2013 [2] and the IEEE Daniel E. Noble Award in 2018. He holds 271 U.S. patents. [3]
Joshi holds a bachelor of technology in mechanical engineering [4] from IIT Bombay. [5] He came to the United States in 1977 to pursue a master's degree at MIT and a doctoral degree at Columbia University. [6]
Integrated Circuit Interconnect
Dr. Joshi led innovation in new materials for integrated circuit interconnects, including refractory metals contacts, liners, and deposition techniques, chemical mechanical polishing processes, and large grain copper to prevent adverse effects. These inventions enabled replacement of conventional aluminum by copper and allowed achievement of multi-level wiring for further miniaturization of chips with low power. In state of the art microprocessors, there over 15 Billion transistors and over 50 km of Copper Interconnect.
Predictive Failure Analytics for Big Data
Joshi led development of many techniques for accelerating Predictive Analytics. This approach more rapidly estimates failure and optimizes the objective function. His techniques are 5-6 orders of magnitude faster than the conventional techniques which set the research across multiple CAD companies.
Advanced Integrated Circuit Memory
Joshi created several novel high speed memory innovations including MRAM, TRAM, IN-Memory computation enabling memory technology to scale beyond previously predicted Moore's Law limits, while improving bandwidth, performance and data movement.
Technology-Circuit Co-design
Joshi demonstrated the first high performance register file which helped to make the decision to change from bulk to SOI technology. Joshi demonstrated first time application of FinFET for low power and high performance SRAM and proposed strained non-planar devices. Such FinFETs are widely used in the industry.
Low Power Circuits
Joshi developed lower power circuits for energy efficient. Low power is essential for functionality and performance of VLSI Circuits . present/future Internet of everything (IOE) requires such techniques. Joshi's recent low power memory operating at 0.3V is an example. His work received wide spread publicity in EE Times.
Rajiv V. Joshi is an Indian-American prolific inventor and research staff member at IBM's Thomas J. Watson Research Center. His work focuses on the development of integrated circuits and memory chips. He is an IEEE Fellow [1] and received the Industrial Pioneer Award from the IEEE Circuits and Systems Society in 2013 [2] and the IEEE Daniel E. Noble Award in 2018. He holds 271 U.S. patents. [3]
Joshi holds a bachelor of technology in mechanical engineering [4] from IIT Bombay. [5] He came to the United States in 1977 to pursue a master's degree at MIT and a doctoral degree at Columbia University. [6]
Integrated Circuit Interconnect
Dr. Joshi led innovation in new materials for integrated circuit interconnects, including refractory metals contacts, liners, and deposition techniques, chemical mechanical polishing processes, and large grain copper to prevent adverse effects. These inventions enabled replacement of conventional aluminum by copper and allowed achievement of multi-level wiring for further miniaturization of chips with low power. In state of the art microprocessors, there over 15 Billion transistors and over 50 km of Copper Interconnect.
Predictive Failure Analytics for Big Data
Joshi led development of many techniques for accelerating Predictive Analytics. This approach more rapidly estimates failure and optimizes the objective function. His techniques are 5-6 orders of magnitude faster than the conventional techniques which set the research across multiple CAD companies.
Advanced Integrated Circuit Memory
Joshi created several novel high speed memory innovations including MRAM, TRAM, IN-Memory computation enabling memory technology to scale beyond previously predicted Moore's Law limits, while improving bandwidth, performance and data movement.
Technology-Circuit Co-design
Joshi demonstrated the first high performance register file which helped to make the decision to change from bulk to SOI technology. Joshi demonstrated first time application of FinFET for low power and high performance SRAM and proposed strained non-planar devices. Such FinFETs are widely used in the industry.
Low Power Circuits
Joshi developed lower power circuits for energy efficient. Low power is essential for functionality and performance of VLSI Circuits . present/future Internet of everything (IOE) requires such techniques. Joshi's recent low power memory operating at 0.3V is an example. His work received wide spread publicity in EE Times.