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George Mason University Follow-up Courses. ECE Department MS in Electrical Engineering MS EE MS in Computer Engineering MS CpE COMMUNICATIONS & NETWORKING.

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Presentation on theme: "George Mason University Follow-up Courses. ECE Department MS in Electrical Engineering MS EE MS in Computer Engineering MS CpE COMMUNICATIONS & NETWORKING."— Presentation transcript:

1 George Mason University Follow-up Courses

2 ECE Department MS in Electrical Engineering MS EE MS in Computer Engineering MS CpE COMMUNICATIONS & NETWORKING SIGNAL PROCESSING CONTROL & ROBOTICS MICROELECTRONICS/ NANOELECTRONICS SYSTEM DESIGN DIGITAL SYSTEMS DESIGN COMPUTER NETWORKS MICROPROCESSORS & EMBEDDED SYSTEMS NETWORK & SYSTEM SECURITY Programs Specializations BIOENGINEERING

3 MICROPROCESSOR AND EMBEDDED SYSTEMS 1.ECE 510 Real-Time Concepts – P. Pachowicz, project, design of real-time systems 2. ECE 511 Microprocessors – J.P. Kaps, project, system based on MSP430 microcontroller 3. ECE 611 Advanced Microprocessors – H. Homayoun, A. Sasan, project, computer architecture simulation tools 4. ECE 612 Real-Time Embedded System – C. Sabzevari, project, programming distributed real-time systems 5. ECE 641 Computer System Architecture – H. Homayoun, project, computer architecture simulation tools 6. ECE 699 Software/Hardware Codesign – K. Gaj, homework, SoC design with VHDL and C 7. ECE 699 Parallel and Heterogeneous Computing – H. Homayoun, project, computer architecture simulation tools

4 DIGITAL SYSTEMS DESIGN 1.ECE 545 Digital System Design with VHDL – K. Gaj, project, FPGA design with VHDL, 2. ECE 645 Computer Arithmetic – K. Gaj, project, FPGA design with VHDL or Verilog 3. ECE 681 VLSI Design for ASICs – H. Homayoun, project/lab, front-end and back-end ASIC design with Synopsys tools 4. ECE 586 Digital Integrated Circuits – D. Ioannou, R. Mulpuri, homework 5a. ECE 682 VLSI Test Concepts – T. Storey, homework 5b. ECE 699 Digital Signals Processing Hardware Architectures – A. Cohen, project, FPGA design with VHDL and Matlab/Simulink 6. ECE 699 Software/Hardware Codesign – K. Gaj, homework, SoC design with VHDL and C

5 Useful Knowledge Basics of computer organization High level programming language (preferably C) RTL design with VHDL FPGA devices and tools ECE 699 Software/Hardware Codesign Prerequisites ECE 511 Microprocessors ECE 545 Digital System Design with VHDL

6 Course web page ECE web page  Courses  ECE 699 http://ece.gmu.edu/coursewebpages/ECE/ECE699_SW_HW/S15

7 A Simplified Model of the Zynq Architecture Source: The Zynq Book

8 Simplified Hardware Architecture of an Embedded SoC Source: The Zynq Book

9 Mapping of an Embedded SoC Hardware Architecture to Zynq Source: The Zynq Book

10 Mapping of an Embedded SoC Hardware Architecture to Zynq Source: Xilinx White Paper: Extensible Processing Platform

11 The ZYBO Development Board Source: The Zynq Book

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