2.2.1. Building Hardware Design in Platform Designer Overview
2.2.2. Building Hardware Design in Platform Designer — Manual Instantiation
2.2.3. Building Hardware Design in Platform Designer — Board-Aware Flow
2.2.4. Building Hardware Design in Platform Designer — Configurable Example Design
2.2.5. Building Software Design with Ashling* RiscFree* IDE for Altera® FPGAs
2.2.2.2.1. Adding Nios® V/m Processor IP
2.2.2.2.2. Adding On-Chip Memory II (RAM or ROM) IP
2.2.2.2.3. Adding JTAG UART IP
2.2.2.2.4. Adding Reset Release IP
2.2.2.2.5. Connect Interfaces and Signals
2.2.2.2.6. Clear System Warnings and Errors
2.2.2.2.7. Configuring the Reset Vector of the Nios® V Processor
2.2.2.2.8. Saving and Generating System HDL
2.2.3.2.1. Adding Nios® V/m Processor IP
2.2.3.2.2. Adding On-Chip Memory (RAM or ROM) IP
2.2.3.2.3. Adding JTAG UART IP
2.2.3.2.4. Adding System ID Peripheral IP
2.2.3.2.5. Adding Reset Release IP
2.2.3.2.6. Connect Interfaces and Signals
2.2.3.2.7. Clear System Warnings and Errors
2.2.3.2.8. Saving and Generating System HDL
3.5.1.1. Setting Initial Breakpoint
Before debugging any system, you need to have at least one breakpoint to suspend the execution inside the program.
- Open the Ashling* RiscFree* IDE for Altera® FPGAs.
- Open the Nios® V processor software project (hello.c).
- Set a breakpoint at main() by double-clicking on the left-margin of the line containing main().
- Ensure that a blue circle have appeared beside main().
Figure 88. Figure 143. Initial Breakpoint at main()