Süleyman Demir | Cell Structure Analysis | Best Researcher Award

Published on by Cell Biologist

Dr. Süleyman Demir | Cell Structure Analysis | Best Researcher Award

Dr. Süleyman Demir, Marmara Üniversitesi Mühendislik Fakültesi: Marmara Universitesi Muhendislik Fakultesi, Turkey

Dr. Süleyman Demir is a dynamic researcher and engineer with over a decade of experience in mechanical and aerospace engineering. Born in Kütahya in 1985, he has developed deep expertise in topological optimization, fatigue analysis, and additive manufacturing. His professional journey spans both academia and industry, having contributed significantly to national-scale R&D initiatives in wind energy and aerospace sectors. Currently serving as a Relations Manager at TUSAŞ (Turkish Aerospace Industries), he supports strategic innovation and industry-academia collaboration, helping students and professionals gain hands-on R&D experience. With a Ph.D. in Mechanical Engineering from Marmara University and multiple master’s degrees, Dr. Demir has authored influential publications in international conferences and journals. His interdisciplinary approach and focus on practical impact make him a strong candidate for the Best Researcher Award. A detail-oriented and forward-thinking individual, he is passionate about advancing sustainable technologies and supporting the next generation of engineers.

Publication Profile: 

Orcid

Strengths for the Award:

  1. Strong Academic Background

    • Holds a Ph.D. in Mechanical Engineering with a focus on topological optimization and fatigue testing of aerospace components.

    • Completed two master’s degrees focusing on wind turbine systems and thermal fatigue analysis.

  2. Interdisciplinary Expertise

    • Combines aerospace engineering, renewable energy, material science, and computational modeling.

    • Demonstrates versatility with experience in both aerodynamics and structural mechanics.

  3. Industry-Academia Bridging

    • Works as Relations Manager at TUSAŞ, where he facilitates collaboration between R&D labs and aviation students through programs like Lift Up.

  4. Research Contributions

    • Contributed to nationally important projects, such as the design and FEA of 500 kW wind turbines using domestic resources.

    • Authored multiple peer-reviewed publications and conference papers in both mechanical and aerospace engineering domains.

  5. Application-Focused Research

    • Research directly impacts real-world components such as helicopter tail rotor arms, advancing fatigue resistance and manufacturability.

⚠️ Areas for Improvement:

  1. Global Visibility

    • While he has presented internationally, more high-impact journal publications in globally recognized platforms (e.g., IEEE, ASME, Nature Engineering) would further strengthen his global profile.

  2. Project Leadership

    • Highlighting PI (Principal Investigator) or lead roles in major R&D grants or government-funded innovation programs would demonstrate leadership in research.

  3. Patent Portfolio

    • A stronger emphasis on patent filings or commercialized technologies would enhance the practical impact of his innovations.

🎓 Education:

Dr. Demir holds a Ph.D. in Mechanical Engineering from Marmara University (2018–2023), where he researched topology optimization and additive manufacturing of aerospace components. His dissertation focused on the helicopter tail rotor pitch arm, combining computational and experimental approaches such as fatigue testing on advanced aluminum alloys. He earned two master’s degrees in Mechanical Engineering: one from Kocaeli University (2010–2013), where he studied “Wind Turbine Hub Manufacturing and System Integration,” and another from Dumlupınar University, Kütahya, focusing on “Fatigue Strength Factor (Kf) and Thermal Variations.” His educational background reflects a strong commitment to renewable energy, structural optimization, and materials engineering. Dr. Demir’s academic record blends theoretical knowledge with industrial application, laying the foundation for his impactful contributions to aerospace and mechanical systems. His interdisciplinary training enables him to bridge gaps between R&D, manufacturing, and system-level engineering.

💼 Experience:

Dr. Süleyman Demir has cultivated a robust career across industry and academia. At TUSAŞ (Turkish Aerospace Industries) in Ankara, he works as a Relations Manager, playing a pivotal role in R&D lab development and the Lift Up program, fostering practical experience for aviation students. From June 2011 to October 2013, he served as a Researcher at Sabancı University in Istanbul, where he focused on the mechanical design and FEA (Finite Element Analysis) of 500 kW wind turbines developed with domestic resources. His career is defined by a passion for engineering innovation and collaboration. His leadership bridges academic research with industrial application, ensuring practical solutions are brought to complex engineering problems. By mentoring young researchers and promoting applied science in aerospace technologies, Dr. Demir continues to impact Turkish and global research landscapes in engineering.

🔬 Research Focus:

Dr. Demir’s research focuses on structural optimization, fatigue damage modeling, additive manufacturing, and renewable energy systems. His Ph.D. research pioneered fatigue-based topological optimization of aerospace components, including helicopter rotor arms, using advanced materials like Al 7050-7452. His work combines simulation (ANSYS, FEA) with physical testing to validate optimized designs. In earlier roles, he contributed to the design and analysis of wind turbines, slewing bearings, and composite systems—demonstrating a balance between sustainable technologies and mechanical resilience. A key strength of his research is its translational nature: from lab-scale experiments to real-world aerospace applications. He actively supports engineering education through initiatives at TUSAŞ, bridging theory and application for undergraduate researchers. His interdisciplinary contributions have been recognized through national conferences, journals, and industrial innovation. Dr. Demir continues to push the boundaries in the optimization of energy-efficient, durable, and manufacturable components for both aviation and renewable energy fields.

📚 Publications Top Notes:

  1. 📘 Modeling of Aerodynamic on Wind Turbine using Q‑Blade Software – IATS’17, Elazığ

  2. 🛠 Interaction Analysis of Slewing Bearing using Hertz Theory and ANSYS Workbench Software – IATS’17, Elazığ

  3. Direksiyon Aksonlarının Statik Hasar Analizi – APJ Eng Sci, Vol.1, No:2 (2013)

  4. 🌬 Topology Optimization of a Mid‑Size Horizontal Axis Wind Turbine Hub – CMMSE 2013, Almeria, Spain

  5. 🚁 Fatigue Damage–Based Topology Optimization of Helicopter Tail Rotor Pitch Arm – Impact Dynamics in Aerospace Materials, 2023

🧾 Conclusion:

Dr. Süleyman Demir is a highly accomplished researcher with a well-rounded background in aerospace, mechanical engineering, and renewable energy systems. His work on topological optimization and fatigue-resistant aerospace structures, particularly within the framework of additive manufacturing, reflects deep technical expertise and strong innovation potential.

Through his role at TUSAŞ and his academic endeavors, Dr. Demir has significantly contributed to Turkey’s national R&D ecosystem, particularly in aviation and renewable energy. His ability to connect theory with practice, train future engineers, and develop strategic industry-university partnerships demonstrates both vision and leadership.

Nisha Agrawal | Cell Structure Analysis | Best Researcher Award

Published on by Cell Biologist

Mrs. Nisha Agrawal | Cell Structure Analysis | Best Researcher Award

Mrs. Nisha Agrawal, Centre for Development of Advanced Computing (C-DAC), India

Dr. Nisha Agrawal is a seasoned HPC (High-Performance Computing) specialist and currently serves as Scientist E at the Centre for Development of Advanced Computing (C-DAC), Pune. With over 20 years of expertise, she specializes in GPGPU computing, parallel programming, and the optimization of scientific applications on heterogeneous supercomputers. A NVIDIA-Certified Mentor, she is a recognized leader in GPU-accelerated simulation and a frequent mentor at OpenHackathons worldwide. She is an accomplished speaker with 30+ invited talks at IITs, IISERs, and major scientific forums. Her portfolio includes numerous peer-reviewed publications and the Best Paper Award at IEEE TEMSMET 2021. Dr. Agrawal’s deep commitment to scientific research, HPC education, and her passion for innovation in parallel computing make her a standout candidate for the Best Researcher Award.

Publication Profile: 

Scopus

Strengths for the Award:

  1. Extensive Domain Expertise (20+ Years)
    Dr. Agrawal has over two decades of hands-on experience in High-Performance Computing (HPC), which showcases both her technical maturity and consistency in research.

  2. Specialized Skill Set in GPGPU & Scientific Computing
    She is highly proficient in CUDA, OpenACC, MPI, OpenMP, and has successfully ported and optimized complex applications like DFT, NAMD, ANUGA, and WRF on heterogeneous (CPU+GPU) systems.

  3. Mentorship and Knowledge Dissemination
    As an NVIDIA-Certified Mentor and participant in OpenHackathons, she contributes not only as a researcher but also as a mentor and educator, spreading HPC knowledge to broader communities.

  4. Recognized Publications & Awards
    With 12+ peer-reviewed papers, including a Best Paper Award at IEEE TEMSMET-2021, she has established a credible presence in the international research community.

  5. Invited Speaker & Thought Leader
    Having delivered 30+ invited talks at premier institutions (IITs, IISERs), her influence in promoting HPC education and innovation is notable.

  6. Cross-Disciplinary Impact
    Her research spans multiple domains such as molecular dynamics, weather modeling, and flood simulation, indicating interdisciplinary relevance and applicability.

⚠️ Areas for Improvement:

  1. Broader International Collaboration
    While her national contributions are significant, increased participation in international research collaborations or joint projects could amplify her global academic impact.

  2. Patents and Industry Innovation
    Though she has notable research publications, contributions in the form of patents, industry tech transfer, or commercialization could further strengthen her applied research portfolio.

  3. Exploration of AI-HPC Synergies
    Given the growing overlap between AI/ML and HPC, engaging in hybrid research areas could help future-proof her work and widen its application.

🎓 Education:

Dr. Nisha Agrawal holds a Master of Technology (M.Tech) in Computer and Information Technology from S.P. Pune University (2016–2018), where she graduated with an Outstanding grade. Her foundational technical background stems from a Bachelor of Engineering (B.E.) in Information Technology from the University of Rajasthan, completed in 2005. Her academic journey is marked by both excellence and consistency, having also cleared the GATE 2005 with an impressive All India Rank of 695 in IT. Throughout her education, she has built a robust foundation in programming, system architecture, and computational modeling, which became pivotal in shaping her research interests in HPC, GPU programming, and scientific computing. Her transition from academia to research has been marked by a clear focus on applying theory to practical, high-impact computational problems.

💼 Professional Experience:

Dr. Agrawal has been with C-DAC Pune since May 2005, rising through the ranks to her current role as Scientist E. Over the years, she has led and contributed to critical national-level HPC projects, focusing on the GPU acceleration of computational simulations like DFT, Molecular Dynamics (MD), ANUGA, and WRF. She actively mentors participants at NVIDIA/OpenACC Hackathons, fostering GPU adoption across disciplines. Her projects typically involve complex parallel and distributed programming tasks, using CUDA, OpenACC, OpenMP, and MPI. She also plays a strategic role in tuning applications for GPU+CPU clusters, especially on Ampere GPU architecture. Her professional growth has been characterized by her ability to bridge cutting-edge theory with real-world computational applications in science and engineering domains.

🏆 Awards & Honors:

Dr. Nisha Agrawal’s research and mentoring excellence have been acknowledged through numerous accolades. She won the Best Paper Award at IEEE TEMSMET 2021, recognizing her pioneering work in GPU-based parallel computing. As a NVIDIA/OpenACC Certified HPC Mentor (2023), she contributes significantly to India’s HPC knowledge ecosystem. In 2017, she received the ACM Scholarship to attend the prestigious Grace Hopper Celebration India (GHCI), a testament to her commitment to women in technology. Earlier, she was conferred the GARGI Puraskar by the Government of Rajasthan in 1999 for academic excellence. Her qualifying performance in GATE 2005 (AIR 695) further highlighted her strong academic and analytical foundation. These honors collectively reflect a career marked by consistency, innovation, and community impact in the field of high-performance and scientific computing.

🔬 Research Focus:

Dr. Agrawal’s research revolves around the acceleration and optimization of scientific applications using GPU-centric architectures. Her core domains include molecular dynamics, weather forecasting, and flood modeling, where she leverages tools such as CUDA, OpenACC, OpenCL, and MPI to port and tune code for parallel execution on HPC clusters. A key area of her focus lies in the performance analysis of simulation software across different hardware platforms like NVIDIA GPUs and Intel Xeon processors. Through her work on multi-GPU scaling, memory bandwidth analysis, and hardware counters, she has contributed to making scientific simulations more efficient and scalable. Her interdisciplinary collaborations enable domain scientists to harness the power of heterogeneous computing architectures for complex simulations. As an educator and mentor, she also drives HPC awareness, especially in academic and R&D circles, reinforcing her dual mission of innovation and education.

📚 Publication Top Notes:

  1. 🧪 Experience with Adapting to a Software Framework for a Use-Case in Computational Science – Journal of Parallel and Distributed Computing, May 2025

  2. 🚀 GPU Implementation and Performance Evaluation of AMDKIIT for DFT – SupercomputingAsia (SCA), Mar 2025

  3. 📊 Hardware Counter Based Performance Analysis of ANUGA – IC3 (ACM), Sep 2023

  4. 🌩 Scalability Analysis of WRF on NVIDIA Ampere – IC3SIS, Dec 2022

  5. 🔬 NAMD Simulation on Dense GPU Supercomputer – ICTCS (Springer), Oct 2022

  6. 🖥 Highly Portable C++ Simulator with Dual Parallelism – IEEE, Aug 2022

  7. 🏆 Single Instruction Stream for Massively Parallel Ops – Best Paper, IEEE TEMSMET, May 2022

  8. 💡 Multi-GPU MD Simulation on Ampere Infrastructure – Springer LNNS, Aug 2021

  9. 📈 Performance Analysis of ANUGA on Modern Architectures – IC3 (ACM), Aug 2021

  10. ⚙️ Memory Bandwidth Analysis: Xeon Phi vs Xeon – Women in HPC at ISC, Jun 2017

🧾 Conclusion:

Dr. Nisha Agrawal is an exceptionally qualified and highly deserving candidate for the Best Researcher Award. Her robust combination of long-term experience, technical depth in GPU-based parallel computing, impactful publications, active mentoring, and commitment to HPC education position her as a leader in the field. While expanding global collaborations and venturing into AI-HPC convergence could further enhance her profile, her existing contributions already make a strong and compelling case for recognition.