Global Journal on Recent Innovation in Microelectronics and Microcontroller’s Applications has been conceptualized for effective dissemination and promulgation of original research in all fields of Microelectronics and Microcontroller’s Applications. With a relentless pursuit of excellence, it aims at providing immaculate and superior research material, thus fostering the spirit of non-conformity, experimentation and de novo intellection among researchers in different parts of the world.

GJRIMMA strives ardently to present inceptive, innovative and invaluable research developments, both application-oriented and theoretical, in all possible domains of Microelectronics and Microcontroller’s Applications to a broad audience of academic researchers and industry practitioners in all major faculties - research and development, management, strategic planning, purchasing, design & styling, marketing, human resources etc.

Ingeniousness and research impaction are the main parameters for the evaluation of theoretical papers. Applications based on advanced theory and case studies aid in bridging the gap between theory and practice, and are particularly welcome.

General approaches, formalism's, algorithms or techniques should be complemented with lucid illustrations allowing easy comprehension and subsequent suitable applicability. Although the main emphasis of GJRIMMA is on original research papers, theoretical and integrative review articles, book reviews, and high-quality position papers are also published to keep readers up-to-date on the latest ideas, designs, and developments in these allied fields. Special review articles will be granted consideration based on the stage of the evolvement of their respective fields.

Although there is no restriction on the length of contributions, brevity will always be preferred. Brief articles will merit attention depending on their technical proficiency.

Discussions of previously published papers are also welcome.

Focus & Scope

The focus and scope of Global Journal on Recent Innovation in Microelectronics and Microcontroller’s Applications have been categorized as follows:

  • 3-D integration design and analysis
  • Advanced Embedded Systems
  • ASIC & FPGA
  • Advanced materials and processing technologies
  • Analog and digital electronic systems
  • Analog and digital filter design
  • Analog and Mixed-Signal Interface Circuits and Systems
  • Analog Design in Emerging Technologies
  • Applications related to integrated circuits and devices
  • ASICs and VLSI Circuit Design
  • Beyond CMOS Devices
  • CAD Design for FPGAs
  • Circuit Technologies
  • Circuits for Industrial Applications
  • Circuit Theory
  • Cost, Performance Trade-offs of VLSI/ULSI Systems
  • Design of Semiconductor Memories
  • Digital Circuits and Digital Signal Processor
  • Design experience with advanced design technology
  • Digital Filters
  • Displays, Sensors and MEMS
  • Design and test of high complexity systems integration
  • Deposition/Growth, Photolithography/Patterning
  • Device Simulation and Modelling of VLSI/CMOS/Unconventional Devices
  • Emerging and Advanced Fabrication Methodologies
  • Emerging device technologies and circuits
  • Electron Devices and Systems for Radar and Sonar Systems
  • Electronic Embedded Systems
  • Graphics Processing Units
  • Hardware-Software and Chip-Package
  • Instruction Set Architecture
  • IC Computer-Aided – Design Technology, DFM
  • Integrated Sensors and Actuators
  • Low Power VLSI Design
  • Logic, Architectural and System Level Synthesis
  • Low power devices and components
  • Low Voltage/Low Power Analog and RFIC Design
  • Leveraging Software Tools for Optimal Performance for Microcontroller
  • Memory devices and circuits
  • Microelectronics and VLSI Circuits
  • Microprocessor & Microcontroller System
  • Microelectronic Devices and Circuits
  • Micro Sensors and MEMS
  • Microstrip circuits and components
  • Microwave and millimetre-wave Circuits
  • Mixed-domain Simulation and Design
  • Modelling, Verification and Testing
  • Nonconventional Devices: OTFTs, CNTFETs, Multigate FETs Tunnel FETs
  • Nanoelectronics and Nanoprecision Instrumentation
  • Optoelectronics Circuits and Systems
  • Organic and Molecular Flexible Electronics
  • Optimizing Microarchitecture through Parallelism
  • Quantum Computing and Nano-Technology
  • Programmable Logic Circuits
  • RF, Wireless, and Microwave Circuits and Systems
  • System on Chip Design
  • Semiconductor Devices and Modelling
  • Switched-capacitor and switched-current circuits
  • SoC, SoPC, MPoC and NoC Designing
  • Thin/Thick Film Materials Analog and Digital Circuit Design
  • Testing, Design for Testability