`default_nettype none module serv_ctrl #(parameter RESET_STRATEGY = "MINI", parameter RESET_PC = 32'd0, parameter WITH_CSR = 1) ( input wire clk, input wire i_rst, //State input wire i_pc_en, input wire i_cnt12to31, input wire i_cnt0, input wire i_cnt1, input wire i_cnt2, //Control input wire i_jump, input wire i_jal_or_jalr, input wire i_utype, input wire i_pc_rel, input wire i_trap, input wire i_iscomp, //Data input wire i_imm, input wire i_buf, input wire i_csr_pc, output wire o_rd, output wire o_bad_pc, //External output reg [31:0] o_ibus_adr); wire pc_plus_4; wire pc_plus_4_cy; reg pc_plus_4_cy_r; wire pc_plus_offset; wire pc_plus_offset_cy; reg pc_plus_offset_cy_r; wire pc_plus_offset_aligned; wire plus_4; wire pc = o_ibus_adr[0]; wire new_pc; wire offset_a; wire offset_b; /* If i_iscomp=1: increment pc by 2 else increment pc by 4 */ assign plus_4 = i_iscomp ? i_cnt1 : i_cnt2; assign o_bad_pc = pc_plus_offset_aligned; assign {pc_plus_4_cy,pc_plus_4} = pc+plus_4+pc_plus_4_cy_r; generate if (|WITH_CSR) begin : gen_csr assign new_pc = i_trap ? (i_csr_pc & !i_cnt0) : i_jump ? pc_plus_offset_aligned : pc_plus_4; end else begin : gen_no_csr assign new_pc = i_jump ? pc_plus_offset_aligned : pc_plus_4; end endgenerate assign o_rd = (i_utype & pc_plus_offset_aligned) | (pc_plus_4 & i_jal_or_jalr); assign offset_a = i_pc_rel & pc; assign offset_b = i_utype ? (i_imm & i_cnt12to31): i_buf; assign {pc_plus_offset_cy,pc_plus_offset} = offset_a+offset_b+pc_plus_offset_cy_r; assign pc_plus_offset_aligned = pc_plus_offset & !i_cnt0; initial if (RESET_STRATEGY == "NONE") o_ibus_adr = RESET_PC; always @(posedge clk) begin pc_plus_4_cy_r <= i_pc_en & pc_plus_4_cy; pc_plus_offset_cy_r <= i_pc_en & pc_plus_offset_cy; if (RESET_STRATEGY == "NONE") begin if (i_pc_en) o_ibus_adr <= {new_pc, o_ibus_adr[31:1]}; end else begin if (i_pc_en | i_rst) o_ibus_adr <= i_rst ? RESET_PC : {new_pc, o_ibus_adr[31:1]}; end end endmodule