\m4_TLV_version 1d: tl-x.org \SV // This code can be found in: https://github.com/stevehoover/LF-Building-a-RISC-V-CPU-Core/risc-v_shell.tlv m4_include_lib(['https://raw.githubusercontent.com/stevehoover/LF-Building-a-RISC-V-CPU-Core/lib/risc-v_shell_lib.tlv']) \SV m4_makerchip_module // (Expanded in Nav-TLV pane.) \TLV // /====================\ // | Sum 1 to 9 Program | // \====================/ // // Program for MYTH Workshop to test RV32I // Add 1,2,3,...,9 (in that order). // // Regs: // r10 (a0): In: 0, Out: final sum // r12 (a2): 10 // r13 (a3): 1..10 // r14 (a4): Sum // // External to function: m4_asm(ADD, r10, r0, r0) // Initialize r10 (a0) to 0. // Function: m4_asm(ADD, r14, r10, r0) // Initialize sum register a4 with 0x0 m4_asm(ADDI, r12, r10, 1010) // Store count of 10 in register a2. m4_asm(ADD, r13, r10, r0) // Initialize intermediate sum register a3 with 0 // Loop: m4_asm(ADD, r14, r13, r14) // Incremental addition m4_asm(ADDI, r13, r13, 1) // Increment intermediate register by 1 m4_asm(BLT, r13, r12, 1111111111000) // If a3 is less than a2, branch to label named m4_asm(ADD, r10, r14, r0) // Store final result to register a0 so that it can be read by main program m4_asm(ADDI, r1, r0, 101) m4_asm(ORI, r6, r0, 0) m4_asm(SW, r6, r1, 0) m4_asm(LW, r4, r6, 0) // Optional: m4_asm(JAL, r7, 11111111111111101000) // Done. Jump to itself (infinite loop). (Up to 20-bit signed immediate plus implicit 0 bit (unlike JALR) provides byte address; last immediate bit should also be 0) m4_define_hier(['M4_IMEM'], M4_NUM_INSTRS) m4+fill_imem() |cpu @0 $reset = *reset; // YOUR CODE HERE // ... // Note: Because of the magic we are using for visualisation, if visualisation is enabled below, // be sure to avoid having unassigned signals (which you might be using for random inputs) // other than those specifically expected in the labs. You'll get strange errors for these. // Assert these to end simulation (before Makerchip cycle limit). *passed = *cyc_cnt > 40; *failed = 1'b0; // Macro instantiations for: // o instruction memory // o register file // o data memory // o CPU visualization |cpu m4+rf(entries, width, $reset, $port1_en, $port1_index, $port1_data, $port2_en, $port2_index, $$port2_data, $port3_en, $port3_index, $$port3_data) m4+dmem(entries, width, $reset, $port1_en, $port1_index, $port1_data, $port2_en, $port2_index, $$port2_data) //m4+cpu_viz(@4) // For visualisation, argument should be at least equal to the last stage of CPU logic // @4 would work for all labs \SV endmodule