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1. About the Nios® V Embedded Processor
2. Nios® V Processor Hardware System Design with Quartus® Prime Software and Platform Designer
3. Nios® V Processor Software System Design
4. Nios® V Processor Configuration and Booting Solutions
5. Nios® V Processor - Using the MicroC/TCP-IP Stack
6. Nios® V Processor Debugging, Verifying, and Simulating
7. Nios® V Processor — Remote System Update
8. Nios® V Processor — Using Custom Instruction
9. Nios® V Embedded Processor Design Handbook Archives
10. Document Revision History for the Nios® V Embedded Processor Design Handbook
2.1. Creating Nios® V Processor System Design with Platform Designer
2.2. Integrating Platform Designer System into the Quartus® Prime Project
2.3. Designing a Nios® V Processor Memory System
2.4. Clocks and Resets Best Practices
2.5. Assigning a Default Agent
2.6. Assigning a UART Agent for Printing
2.7. JTAG Signals
4.1. Introduction
4.2. Linking Applications
4.3. Nios® V Processor Booting Methods
4.4. Introduction to Nios® V Processor Booting Methods
4.5. Nios® V Processor Booting from Configuration QSPI Flash
4.6. Nios® V Processor Booting from On-Chip Memory (OCRAM)
4.7. Nios® V Processor Booting from Tightly Coupled Memory (TCM)
4.8. Summary of Nios® V Processor Vector Configuration and BSP Settings
6.2.3.2.1. Enabling Signal Tap Logic Analyzer
6.2.3.2.2. Adding Signals for Monitoring and Debugging
6.2.3.2.3. Specifying Trigger Conditions
6.2.3.2.4. Assigning the Acquisition Clock, Sample Depth, and Memory Type, and Buffer Acquisition Mode
6.2.3.2.5. Compiling the Design and Programming the Target Device
6.6.1. Prerequisites
6.6.2. Setting Up and Generating Your Simulation Environment in Platform Designer
6.6.3. Creating Nios V Processor Software
6.6.4. Generating Memory Initialization File
6.6.5. Generating System Simulation Files
6.6.6. Running Simulation in the QuestaSim Simulator Using Command Line
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2.2.2. Connecting Signals and Assigning Physical Pin Locations
To connect your Intel FPGA design to your board-level design, perform the following tasks:
- Identify the top-level file for your design and signals to connect to external Intel FPGA device pins.
- Understand which pins to connect through your board-level design user guide or schematics.
- Assign signals in the top-level design to ports on your Intel FPGA device with pin assignment tools.
Your Platform Designer system can be the top level design. However, the Intel FPGA can also include additional logic based on your needs and thus introduces a custom top-level file. The top-level file connects the Nios® V processor system module signals to other Intel FPGA design logic.
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