Difference between revisions of "Main Page"
From iis-projects
(→Digital Circuits and Systems Group (Prof. Benini)) |
(→Available Hot Student Projects) |
||
Line 12: | Line 12: | ||
* [[:Category:Nano-TCAD|Nano-TCAD]] | * [[:Category:Nano-TCAD|Nano-TCAD]] | ||
− | |||
− | |||
− | |||
− | |||
− | |||
===[[Analog|Analog and Mixed Signal Design Group (Prof. Huang)]]=== | ===[[Analog|Analog and Mixed Signal Design Group (Prof. Huang)]]=== | ||
<DynamicPageList> | <DynamicPageList> |
Revision as of 19:36, 9 November 2017
Welcome to IIS-Projects
In this page you will find student and research projects at the Integrated Systems Laboratory of the ETH Zurich.
We have lost part of our look and feel customizations, we are trying to get back on track
Institute Organization
The IIS Consists of 4 main research groups
- Analog and Mixed Signal Design
- Digital Circuits and Systems
- Nano Electronics and Nano Photonics
- Nano-TCAD
Analog and Mixed Signal Design Group (Prof. Huang)
- Event-Driven Convolutional Neural Network Modular Accelerator
- Level Crossing ADC For a Many Channels Neural Recording Interface
- Design of Charge-Pump PLL in 22nm for 5G communication applications
Digital Circuits and Systems Group (Prof. Benini)
- Computer Architecture
- Acceleration and Transprecision
- Heterogeneous Acceleration Systems
- Event-Driven Computing
- Predictable Execution
- Low Power Embedded Systems
- Transient Computing
- RF SoCs for the Internet of Things
- Energy Efficient Autonomous UAVs
- Biomedical System on Chips
- Digital Medical Ultrasound Imaging
- Cryptographic Hardware
- Deep Learning Acceleration
- Hyperdimensional Computing
Nano Electronics and Nano Photonics Group (Prof. Wood)
Please see the dedicated www page for Open Semester and Master Projects at the Laboratory for Nanoelectronics.
Nano-TCAD Group (Prof. Luisier)
- Efficient Banded Matrix Multiplication for Quantum Transport Simulations
- Charge and heat transport through graphene nanoribbon based devices
- Molecular Binding Kinetics Modelling of NO2 on Graphene/hBN Heterostructure
- Quantum Transport Modeling of Interband Cascade Lasers (ICL)
- Every individual on the planet should have a real chance to obtain personalized medical therapy
- Integrated silicon photonic structures-Lumiphase
- Characterization techniques for silicon photonics-Lumiphase
- Implementation of Computationally Efficient Scattering Mechanisms for Periodic Devices and 2D Materials
- Electrothermal characterization of van der Waals Heterostructures with a partial overlap
- Phase-change memory devices for emerging computing paradigms
- Finite element modeling of electrochemical random access memory
- Influence of the Initial Filament Geometry on the Forming Step in CBRAM.
- Nanoscale Hybrid III-V Plasmonic Laser for Low-Power Photonic ICs
- Design space exploration of InP Heterojunction Bipolar Transistors (DHBTs)
- Quantum transport in 2D heterostructures
- Development of an efficient algorithm for quantum transport codes
- Investigation of Metal Diffusion in Oxides for CBRAM Applications
- Investigation of Redox Processes in CBRAM
Selected Projects in Progress
For a complete list, see Projects in Progress.
- ASIC implementation of a beamspace massive MIMO-OFDM detector for 5G/6G
- ASR-Waveformer
- GDBTrace: A Post-Simulation Trace-Based RISC-V GDB Debugging Server (1S)
- A RISC-V ISA Extension for Scalar Chaining in Snitch (M)
- Designing a Scalable Miniature I/O DMA (1-2B/1-3S/M)
Selected Completed Projects
For a complete list, see Completed Projects.
- Ultrasound Doppler system development
- Ultrasound-EMG combined hand gesture recognition
- Accelerating Matrix Multiplication on a 216-core MPSoC (1M)
- A RISC-V ISA Extension for Pseudo Dual-Issue Monte Carlo in Snitch (1M/2S)
- A reduction-capable AXI XBAR for fast M-to-1 communication (1M)
Selected Research Projects
For a complete list, see Research Projects.
- Ultrasound Doppler system development
- Ultrasound-EMG combined hand gesture recognition
- Accelerating Matrix Multiplication on a 216-core MPSoC (1M)
- A RISC-V ISA Extension for Pseudo Dual-Issue Monte Carlo in Snitch (1M/2S)
- A reduction-capable AXI XBAR for fast M-to-1 communication (1M)
Links to Other IIS Webpages
- http://www.iis.ee.ethz.ch
- Integrated Systems Laboratory Main homepage
- http://lne.ee.ethz.ch
- Laboratory for Nanoelectronics homepage
- http://www.nano-tcad.ethz.ch
- Nano-TCAD group homepage
- http://www.dz.ee.ethz.ch
- Microelectronics Design Center
- http://asic.ethz.ch/cg
- The IIS-ASIC Chip Gallery
- http://eda.ee.ethz.ch
- EDA Wiki (ETH Zurich internal access only!)