Difference between revisions of "Main Page"
From iis-projects
(→Projects in Progress) |
|||
(16 intermediate revisions by 6 users not shown) | |||
Line 3: | Line 3: | ||
In this page you will find student and research projects at the [http://www.iis.ee.ethz.ch Integrated Systems Laboratory] of the [http://www.ethz.ch ETH Zurich]. | In this page you will find student and research projects at the [http://www.iis.ee.ethz.ch Integrated Systems Laboratory] of the [http://www.ethz.ch 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 | The IIS Consists of 4 main research groups | ||
* [[Analog| Analog and Mixed Signal Design]] | * [[Analog| Analog and Mixed Signal Design]] | ||
− | * [[Digital| | + | * [[Digital| Digital Circuits and Systems]] |
− | * [ | + | * [https://lne.ee.ethz.ch/en/more-information/student-projects.html Nano Electronics and Nano Photonics] |
* [[:Category:Nano-TCAD|Nano-TCAD]] | * [[:Category:Nano-TCAD|Nano-TCAD]] | ||
− | + | ==Available Hot Student Projects== | |
− | + | We offer more projects than those listed here. | |
− | + | <span style="color:#009000"> | |
− | + | '''For a complete list, see [[:Category:Available|Available Projects (link)]].''''' | |
− | + | </span> | |
+ | ===[[Analog|Analog and Mixed Signal Design Group (Prof. Huang)]]=== | ||
+ | <DynamicPageList> | ||
+ | category = Analog | ||
+ | category = Available | ||
+ | category = Hot | ||
+ | </DynamicPageList> | ||
+ | ===[[Digital|Digital Circuits and Systems Group (Prof. Benini)]]=== | ||
+ | <DynamicPageList> | ||
+ | category = Digital | ||
+ | category = Available | ||
+ | category = Hot | ||
+ | redirects = include | ||
+ | </DynamicPageList> | ||
+ | ===[https://lne.ee.ethz.ch/en/more-information/student-projects.html Nano Electronics and Nano Photonics Group (Prof. Wood)]=== | ||
+ | Please see the dedicated www page for [https://lne.ee.ethz.ch/en/more-information/student-projects.html Open Semester and Master Projects at the Laboratory for Nanoelectronics]. | ||
− | ==[[:Category: | + | ===[[:Category:Nano-TCAD|Nano-TCAD Group (Prof. Luisier)]]=== |
− | |||
<DynamicPageList> | <DynamicPageList> | ||
− | + | category = Nano-TCAD | |
− | category = | + | category = Available |
− | category = | + | category = Hot |
</DynamicPageList> | </DynamicPageList> | ||
− | ===[[: | + | ==Selected Projects in Progress== |
+ | ''For a complete list, see [[:Category:In progress|Projects in Progress]].'' | ||
<DynamicPageList> | <DynamicPageList> | ||
count = 5 | count = 5 | ||
− | |||
category = In progress | category = In progress | ||
</DynamicPageList> | </DynamicPageList> | ||
− | ===[[:Category: | + | ==Selected Completed Projects== |
+ | ''For a complete list, see [[:Category:Completed|Completed Projects]].'' | ||
<DynamicPageList> | <DynamicPageList> | ||
count = 5 | count = 5 | ||
− | category = | + | category = Completed |
− | |||
</DynamicPageList> | </DynamicPageList> | ||
− | ===[[:Category: | + | ==Selected Research Projects== |
+ | ''For a complete list, see [[:Category:Research|Research Projects]].'' | ||
<DynamicPageList> | <DynamicPageList> | ||
count = 5 | count = 5 | ||
− | category = | + | category = Completed |
− | |||
</DynamicPageList> | </DynamicPageList> | ||
− | |||
− | |||
==Links to Other IIS Webpages== | ==Links to Other IIS Webpages== |
Revision as of 17:20, 7 August 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
Available Hot Student Projects
We offer more projects than those listed here. For a complete list, see Available Projects (link).
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)
- Benchmarking RISC-V-based Accelerator Cards for Inference (multiple SA)
- Benchmarking a RISC-V-based Server on LLMs/Foundation Models (SA or MA)
- On-Device Learnable Embeddings for Acoustic Environments
- On-Device Federated Continual Learning on Nano-Drone Swarms
- Extreme-Edge Experience Replay for Keyword Spotting
- GPT on the edge
- Exploratory Development of a Unified Foundational Model for Multi Biosignal Analysis
- Deep Learning Based Anomaly Detection in ECG Signals Using Foundation Models
- Pretraining Foundational Models for EEG Signal Analysis Using Open Source Large Scale Datasets
- EEG-based drowsiness detection
- In-ear EEG signal acquisition
- EEG earbud
- NeuroSoC RISC-V Component (M/1-2S)
- Realtime Gaze Tracking on Siracusa
- System Emulation for AR and VR devices
- Learning at the Edge with Hardware-Aware Algorithms
- Advanced EEG glasses
- Softmax for Transformers (M/1-2S)
- Testbed Design for Self-sustainable IoT Sensors
- Towards Flexible and Printable Wearables
- Modular Distributed Data Collection Platform
- Object Detection and Tracking on the Edge
- Design of a Low Power Smart Sensing Multi-modal Vision Platform
- Design of a High-performance Hybrid PTZ for Multimodal Vision Systems
- Energy Efficient Serial Link
- Audio Visual Speech Separation and Recognition (1S/1M)
- Predict eye movement through brain activity
- Design of a Reconfigurable Vector Processor Cluster for Area Efficient Radar Processing (1M)
- Benchmarking a heterogeneous 217-core MPSoC on HPC applications (M/1-3S)
- Integration Of A Smart Vision System
- Event-based navigation on autonomous nano-drones
- A Novel Execution Scheme for Ultra-tiny CNNs Aboard Nano-UAVs
- Improved Collision Avoidance for Nano-drones
- Deep Learning-based Global Local Planner for Autonomous Nano-drones
- Fast Accelerator Context Switch for PULP
- Visualization of Neural Architecture Search Spaces
- Self Aware Epilepsy Monitoring
- Non-blocking Algorithms in Real-Time Operating Systems
- EEG artifact detection with machine learning
- Design of Time-Encoded Spiking Neural Networks (IBM-Zurich)
- EEG artifact detection for epilepsy monitoring
- Fast Simulation of Manycore Systems (1S)
- Training and Deploying Next-Generation Quantized Neural Networks on Microcontrollers
- Spiking Neural Network for Motor Function Decoding Based on Neural Dust
- Hardware/software codesign neural decoding algorithm for “neural dust”
- Huawei Research
- IBM Research
- RISC-V based Implementation of Secure Ranging According to IEEE 802.15.4z UWB
- BCI-controlled Drone
- Spiking Neural Network for Autonomous Navigation
- Event-Driven Convolutional Neural Network Modular Accelerator
- Implementation of the RISC-V Bit Manipulation (RVB) extensions for our RISC-V core
- Implementation of the RISC-V Bit Manipulation (RVB) extensions for our RI5CY core
- Level Crossing ADC For a Many Channels Neural Recording Interface
- Cerebellum: Design of a Programmable Smart-Peripheral for the Ariane Core
- Monocular Vision-based Object Following on Nano-size Robotic Blimp
- A Waypoint-based Navigation System for Nano-Size UAVs in GPS-denied Environments
- Real-Time Implementation of Quantum State Identification using an FPGA
- Autonomous Sensors For Underwater Monitoring In Smart Navy Systems
- Autonomous Smart Sensors for IoT
- Variable Bit Precision Logic for Deep Learning and Artificial Intelligence
- Smart Wearable System For Vital Sign Monitoring Exploiting On Board and Cloud Machine Learning
- PVT Dynamic Adaptation in PULPv3
- Passive and Self Sustaining Receivers For On and Intra Body Communication For Wearable Sensors Networks
- A Wearable System To Control Phone And Electronic Device Without Hands
- Ultra Low Power Conversion Circuit For Batteryless Applications
- Using Motion Sensors to Support Indoor Localization
- Birds Long Term Monitoring With Ultra Low Power Wireless Sensor Node
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!)