Name: Chair for Design Automation, TU Munich
Type: Organization
Bio: The CDA provides expertise for all main steps in the design and realization of integrated circuits, embedded systems, as well as cyber-physical systems.
Location: Germany
Blog: https://www.cda.cit.tum.de
Chair for Design Automation, TU Munich's Projects
Community health files for the Chair for Design Automation
ABC: System for Sequential Logic Synthesis and Formal Verification
Design Automation Toolkit for the European Train Control System
MQT decision diagram package tailored to quantum computing
An open-source design automation framework for Field-coupled Nanotechnologies
A Interface Library for SAT/SMT Abstractions written in C++
The source code for simulating microfluidic fuel cell (MFFC) performance.
A tool that allows users to automatically create designs for tree-shaped concentration gradient generators for mixing two fluids with different concentration values.
The MMFT ISO Designer is a tool that validates and generates microfluidic chip designs conforming to the ISO 22916 standard.
In this repository the JSON file definitions used for mmft tools are stored and updated.
Design automation solution for organs-on-chip.
A library that contains a collection of simulators for closed channel-based microfluidic devices.
MNT Bench - An MNT tool for Benchmarking FCN circuits
Design, layout, and simulation files of the paper "Hexagons are the Bestagons: Design Automation for Silicon Dangling Bond Logic" by M. Walter, S. S. H. Ng, K. Walus, and R. Wille in DAC 2022.
NanoPlaceR: An open-source framework for placement and routing of Field-coupled Nanotechnologies based on reinforcement learning.
Supplementary material for the paper "Multi-Dimensional Operational Domain Computation in Silicon Dangling Bond Logic" by M. Walter, J. Drewniok, S. S. H. Ng, K. Walus, and R. Wille submitted to TNANO (under review).
Layout and simulation files of the paper "QuickSim: Efficient and Accurate Physical Simulation of Silicon Dangling Bond Logic" by J. Drewniok, M. Walter, S. S. H. Ng, K. Walus, and R. Wille.
Silicon Dangling Bond Layouts
SiDB Simulation and Gate Design
Physical Simulation of Atomic Silicon Quantum Dot Assemblies.
The Munich Quantum Toolkit
MQT Bench - A MQT tool for Benchmarking Quantum Software Tools
MQT Core - The Backbone of the Munich Quantum Toolkit
MQT DASQA - Designer for Superconducting Quantum Architectures
MQT DDSIM - A quantum circuit simulator based on decision diagrams written in C++
MQT DDVis - An installation-free web-tool which visualizes quantum decision diagrams and allows to explore their behavior when used in design tasks such as simulation, synthesis, or verification.
MQT IonShuttler generate shuttling schedules for QCCD architectures