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Course Agenda

Course Agenda. DSP Design Flow. Objectives. After completing this course, you will be able to:. Describe the different design flows for implementing DSP functions, with a large focus on the System Generator

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Course Agenda

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  1. Course Agenda DSP Design Flow

  2. Objectives After completing this course, you will be able to: • Describe the different design flows for implementing DSP functions, with a large focus on the System Generator • Understand the Xilinx FPGA capabilities and know how to implement a design from algorithm concept to hardware simulation • Perform Hardware in the Loop and HDL co-simulations and improve productivity

  3. Day 1 • Introduction • Power of Parallelism • Platform FPGA Virtex-II/ Virtex-II Pro Series • Spartan-3 Architecture • DSP Design Flows in FPGA • Using VHDL • Using the Xilinx CORE Generator • Using the Xilinx System Generator for DSP • Hardware in the Loop Accelerated Verification

  4. Day 2 • Digital Filtering • Digital Filtering Blocks • Use the FDA Tool in Conjunction with the Xilinx Blockset • HDL Co-Simulation • Concept • Supporting Blocks • Co-Simulation Procedure

  5. Day 2 • Looking Under the Hood • Quantization and Overflow • Hardware Cost • Data Path Management • Controlling the System • Control Mechanism • Control Blocks • Multi-rate Systems • Sample Rates • Sample Rate Changing Blocks • Hardware Realization of Sample Rate Changing Blocks

  6. Bonus Material • Advanced Features • Multiple FPGAs • Multiple System Generator versions • PicoBlaze microcontroller • User IP Library • Parametric Design Techniques

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