Are you excited about designing hardware for artificial intelligence (AI) with the goal of solving important societal challenges? Are you a passionate, self-motivated and creative researcher who is curious about how the animal brain works? If so, then the Semiconductors and Microelectronic systems (SAM) group at TU Berlin has two exciting PhD opportunities at the interface between nanoelectronic devices, computational materials science and hardware-based AI.
Taking inspiration from the biological brain, the newly formed SAM group will design novel nanoelectronic devices and materials that can host an innovative form of AI which operates in hardware. This technology, called neuromorphic computing, aims to surpass the limitations of current software-based AI models, especially in terms of energy-efficiency, miniaturization, user privacy and scalability.
The overarching vision of our group is to design novel hardware to help understand and mimic biological intelligence. The group is led by Prof. Priyamvada Jadaun who is the Chair Professor of Electrical Engineering and Computer Sciences at TU Berlin. Prof. Jadaun also holds a Visiting Scholarship at University of California, Berkeley (UC Berkeley) and an Affiliate position at Lawrence Berkeley Laboratory (LBL).
**** PhD Position 1: Bio-inspired Neuromorphic Computing ****
Reference Number: IV-460/24
The goal of this project is to design hardware that mimics biological intelligence.
- Here, you will explore newly discovered, bio-inspired learning algorithms that go beyond deep learning, and implement them in hardware. These algorithms include forward learning models and adaptive intelligence techniques.
- You will design novel nanoelectronic devices (e.g. ReRAMs, magnetic Domain Wall systems, Ferroelectric FETs and 2D devices) and leverage their complex physics to realize new types of learning algorithms found in the animal brain.
- This project will impact applications in healthcare, neurotechnology, intelligent sensing, smart energy and robotics.
Your tasks:
- Computationally design and test neuromorphic hardware including novel materials, devices and circuits. Implement bio-inspired learning algorithms on said hardware.
- Collaborate with an international, multi-disciplinary team to achieve our collective research agenda. Cooperate with machine learning and neuroscience groups on the algorithmic aspects, and with experimental groups on the fabrication aspects of the project.
- Produce high-quality publications and publicly disseminate research results through conferences.
- Contribute to the university through undergraduate teaching and mentoring.
- Serve the academic community at large through peer review, conference organization etc.
What you can expect from us:
- Participation in a young, energetic, growing, highly motivated and international team with a cordial and supportive culture.
- The opportunity to conduct parts of your project at the University of California, Berkeley and Lawrence Berkeley National Laboratory, USA.
- Benefit from close collaborations with world-renowned research groups at Fraunhofer Society, Germany, TU Delft, Netherlands, Institute of Neuroinformatics, Zurich, EPFL, Lausanne, and UC Berkeley, USA.
- Exposure to a multidisciplinary research program that spans nanoelectronic devices design, materials design, circuit development, AI algorithms and neuroscience.
- The opportunity to do a doctorate (PhD) under the supervision of experienced academics.
Requirements:
Desirable qualifications:
- Interest in neuromorphic computing and curiosity about the workings of the brain.
- Academic excellence, creativity, and strong motivation to succeed.
- Strong communication, interpersonal, and organizational skills.
- Important skills such as leadership, problem-solving, and initiative-taking.
- Previous experience in scientific research, independent working style and the ability to work in diverse teams.
- Programming experience in Python or R. Experience in open-source platforms such as GitHub.
- Experience in the development of neuromorphic hardware implementations.
- Background in Digital/Mixed-Signal Integrated Circuit (IC) design and Low power IC design.
**** PhD Position 2: Bio-inspired Sensing and AI at the Edge ****
Reference Number: IV-460/24
The goal of this project is to develop advanced sensory and perception systems that mimic biological perception.
- Here, you will engage in groundbreaking research to develop advanced sensors that are event-based, resource-constrained, energy-efficient and show low-latency.
- These sensors should mimic natural neural systems by exploiting stochastic physical processes and by learning continuously.
- This project will impact applications in healthcare, neurotechnology, intelligent sensing, smart energy and robotics.
- Computationally design and test neuromorphic hardware including novel materials, devices and circuits. Implement bio-inspired learning algorithms on said hardware.
Your tasks:
- Collaborate with an international, multi-disciplinary team to achieve our collective research agenda. Cooperate with machine learning and neuroscience groups on the algorithmic aspects, and with experimental groups on the fabrication aspects of the project.
- Produce high-quality publications and publicly disseminate research results through conferences.
- Contribute to the university through undergraduate teaching and mentoring.
- Serve the academic community at large through peer review, conference organization etc.
What you can expect from us:
- Participation in a young, energetic, growing, highly motivated and international team with a cordial and supportive culture.
- The opportunity to conduct parts of your project at the University of California, Berkeley and Lawrence Berkeley National Laboratory, USA.
- Benefit from close collaborations with world-renowned research groups at Fraunhofer Society, Germany, TU Delft, Netherlands, Institute of Neuroinformatics, Zurich, EPFL, Lausanne, and UC Berkeley, USA.
- Exposure to a multidisciplinary research program that spans nanoelectronic devices design, materials design, circuit development, AI algorithms and neuroscience.
- The opportunity to do a doctorate (PhD) under the supervision of experienced academics.
Requirements:
Desirable qualifications:
**** How to Apply ****
Please send your application with the reference number only by email (single pdf file) to personal@tmp.tu-berlin.de with the following application materials:
- A cover letter in English, describing your motivation in applying for this position.
- Curriculum vitae in English, including a list of publications, if any.
- Academic Diplomas in English or German, of your relevant degrees.
- If possible, grade transcripts in English or German, including official description of the grading scale.
By submitting your application via email you consent to having your data electronically processed and saved. Please note that we do not provide a guaranty for the protection of your personal data when submitted as unprotected file. Please find our data protection notice acc. DSGVO (General Data Protection Regulation) at the TU staff department homepage: https://www.abt2-t.tu-berlin.de/menue/themen_a_z/datenschutzerklaerung/ .
To ensure equal opportunities between women and men, applications by women with the required qualifications are explicitly desired. Qualified individuals with disabilities will be favored. The TU Berlin values the diversity of its members and is committed to the goals of equal opportunities.
Technische Universität Berlin - Die Präsidentin - Fakultät IV, Institut für Hochfrequenz- und Halbleiter-Systemtechnologien, FG Halbleiterbauelemente und Mikroelektroniksysteme, Prof. Dr. Jadaun, Sekr. TIB 4/2-1, Gustav-Meyer-Allee 24, 13355 Berlin
More Information:
For job details, please see: https://pjadaun.com/open-positions/
https://tub.stellenticket.de/en/offers/187094/ https://tub.stellenticket.de/en/offers/187093/
For more information on the SAM group, please see: https://pjadaun.com https://www.tu.berlin/en/sam