3.3.6.1.1. Machine Status Register (mstatus)
3.3.6.1.2. Machine Trap-Vector Base-Address Register (mtvec)
3.3.6.1.3. Machine Interrupt Register (mip and mie)
3.3.6.1.4. Machine Exception Program Counter Register (mepc)
3.3.6.1.5. Machine Cause Register (mcause)
3.3.6.1.6. Machine Trap Value Register (mtval)
4.3.1. General-Purpose Register File
4.3.2. Shadow Register
4.3.3. Arithmetic Logic Unit
4.3.4. Multipy and Divide Units
4.3.5. Floating-Point Unit
4.3.6. Custom Instruction
4.3.7. Instruction Cycles
4.3.8. Reset and Debug Signals
4.3.9. Control and Status Registers
4.3.10. Trap Controller (CLINT)
4.3.11. Trap Controller (CLIC)
4.3.12. Memory and I/O Organization
4.3.13. RISC-V based Debug Module
4.3.14. Error Correction Code (ECC)
4.3.15. Branch Prediction
4.3.16. Lockstep Module
4.3.10.1.1. Machine Status Register (mstatus)
4.3.10.1.2. Machine Trap-Vector Base-Address Register (mtvec)
4.3.10.1.3. Machine Interrupt Register (mip and mie)
4.3.10.1.4. Machine Exception Program Counter Register (mepc)
4.3.10.1.5. Machine Cause Register (mcause)
4.3.10.1.6. Machine Trap Value Register (mtval)
4.3.10.1.7. Machine Second Trap Value Register (mtval2)
4.3.11.1.3.1. Machine Trap-handler Vector Table base address Register (mtvt)
4.3.11.1.3.2. Machine Next Interrupt Handler Address and Interrupt Enable Register (mnxti)
4.3.11.1.3.3. Machine Interrupt Status Register (mintstatus)
4.3.11.1.3.4. Machine Interrupt-Level Threshold Register (mintthresh)
4.3.11.1.3.5. Machine Scratch Swap for Interrupt-Level Register (mscratchcswl)
3.3.8.6.2. Accessing Debug Module Interface
Altera recommends you to utilize the OpenOCD executables along with the RISC-V Debug Configuration, Authentication, and DMI commands to access the Debug Module. They offer abstraction to the JTAG DTM, which reduces complexity and improve efficiency during Debug Module access.
If you are developing a custom Debug Translator, please refer to subchapter B.1 Debug Module Interface Access in RISC-V Debug Specification 0.13.2, with JTAG DTM.
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