embedded and fpga-based system design research lab - mohammed khalid · 2018. 3. 5. · university...

EMBEDDED AND FPGA-BASED SYSTEM DESIGN RESEARCH LAB WELCOME TO THE Embedded and FPGA-Based System Design Research Lab Main research areas include: • FPGA-based power efficient hardware acceleration for High Performance Computing (HPC), high level synthesis (HLS) for FPGAs and automotive embedded systems, especially for autonomous vehicles (AVs) and advanced driver assistance systems (ADAS). • Development of large scale software systems using C/C++ for Electronic Design Automation (EDA), HPC and embedded systems. • FPGA-based system design for real world applications in Automotive, Networking, DSP, etc. • Computer-Aided-Design (CAD) algorithms and tools for FPGAs and multi-FPGA systems. Main research infrastructures: • State-of-the-art FPGA boards from Xilinx and Intel, FPGA acceleration boards from Nallatech and Terasic. • State-of-the-art CAD tools for HLS and FPGA- based system design from Intel and Xilinx such as Intel SDK for OpenCL and Xilinx Vivado. • State-of-the-art CAD tools for compilation and simulation of VHDL and Verilog models from Mentor Graphics, Synopsys and Cadence. Embedded System Design tools from Mentor Graphics. • State-of-the-art Desktop and Server workstations, compilers, debuggers and Computer-Aided Software Engineering (CASE) tools for large the development of scale software systems. To learn more about how you can get involved with the Embedded and FPGA-Based System Design Research Group, contact Dr. Mohammed Khalid in the Department of Electrical and Computer Engineering by email at [email protected] or call 519.253.3000 ext. 2611.

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University of windsor 401 Sunset Ave., Windsor Ontario N9B 3P4 | 519-253-3000 ext. 3926 www.Uwindsor.CA

EMBEDDED AND FPGA-BASED SYSTEM DESIGN RESEARCH LAB

WELCOME TO THE

Embedded and FPGA-Based System Design Research Lab

Main research areas include:

• FPGA-based power efficient hardware acceleration for High Performance Computing (HPC), high level synthesis (HLS) for FPGAs and automotive embedded systems, especially for autonomous vehicles (AVs) and advanced driver assistance systems (ADAS).

• Development of large scale software systems using C/C++ for Electronic Design Automation (EDA), HPC and embedded systems.

• FPGA-based system design for real world applications in Automotive, Networking, DSP, etc.

• Computer-Aided-Design (CAD) algorithms and tools for FPGAs and multi-FPGA systems.

Main research infrastructures:

• State-of-the-art FPGA boards from Xilinx and Intel, FPGA acceleration boards from Nallatechand Terasic.

• State-of-the-art CAD tools for HLS and FPGA-based system design from Intel and Xilinx such as Intel SDK for OpenCL and Xilinx Vivado.

• State-of-the-art CAD tools for compilation and simulation of VHDL and Verilog models from Mentor Graphics, Synopsys and Cadence. Embedded System Design tools from Mentor Graphics.

• State-of-the-art Desktop and Server workstations, compilers, debuggers and Computer-Aided Software Engineering (CASE) tools for large the development of scale software systems.

To learn more about how you can get involved with the Embedded and FPGA-Based System DesignResearch Group, contact Dr. Mohammed Khalid in the Department of Electrical and Computer Engineeringby email at [email protected] or call 519.253.3000 ext. 2611.