Courseworks of CS6165 VLSI Physical Design Automation, NTHU.
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Updated
Jan 23, 2021 - C++
Courseworks of CS6165 VLSI Physical Design Automation, NTHU.
RISC-V SoC Physical Implementation in 180 nm CMOS with a Quark Core Based on FemtoRV32
2019 NTHU CS6135 (CS613500) VLSI Physical Design Automation Course Projects (include Two-way Min-cut Partitioning, Fixed-outline Slicing Floorplan Design, Placement Legalization, Global Routing)
Coursework of NTHU CS613500 VLSI Physical Design Automation
A GPT-GNN based verilog netlist partitioner for 3D IC design
PowerSynth 1 Series (v1.0-v1.9) Source Code
This is the PowerSynth backend with the command line interface (CLI)
This contains the materials for the PowerSynth 2 release package excluding the source code
This is the cross-platform PowerSynth 2 front end based on QT
🧱 Physical design C++ Code
PowerSynth 1 Series (v1.0-v1.9) Package Materials
Courseworks of VLSI Physical Design Automation, NTHU CS course teached by prof. Ting-Chi Wang in fall 2023
NYCU Physical Design Automation
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