Can change word size
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2e4cd0240c
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057ee6cb61
162
src/beepo.v
162
src/beepo.v
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@ -1,15 +1,17 @@
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// `include "instructions.v"
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`include "instructions.v"
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module Beepo #(
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parameter FREQ = 27_000_000,
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parameter UART_BAUD = 115200
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parameter FREQ = 27_000_000,
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parameter UART_BAUD = 115200,
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parameter WORD_SIZE = 16
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) (
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input i_clk,
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input i_button1,
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input i_resume,
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output [6:0] o_segments_drive,
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output [3:0] o_displays_neg,
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output o_breakpoint
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output o_breakpoint,
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output o_uart_tx
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);
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// State values
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localparam IDLE = 0; // Start fetching instruction
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@ -36,22 +38,22 @@ module Beepo #(
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localparam NUM_REGS = 4;
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reg [2:0] r_state = IDLE;
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reg [63:0] r_tick = 0;
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reg [WORD_SIZE-1:0] r_tick = 0;
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// Registers
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reg [63:0] r_pc = PC_START; // program counter
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reg [63:0] r_registers [0:NUM_REGS]; // up to 255 modifiable registers
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reg [7:0] r_instr; // the current instruction
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reg [7:0] r_arg_regs [0:3]; // register arguments
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reg [63:0] r_arg_imm = 0; // immediate argument
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reg [63:0] r_arg_addr = 0; // relative/absolute address argument
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reg [WORD_SIZE-1:0] r_pc = PC_START; // program counter
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reg [WORD_SIZE-1:0] r_registers [0:NUM_REGS]; // up to 255 modifiable registers
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reg [7:0] r_instr; // the current instruction
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reg [7:0] r_arg_regs [0:3]; // register arguments
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reg [WORD_SIZE-1:0] r_arg_imm = 0; // immediate argument
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reg [WORD_SIZE-1:0] r_arg_addr = 0; // relative/absolute address argument
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reg [1:0] r_arg_index = 3; // the instruction index currently being fetched
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reg [3:0] r_arg_types [0:3]; // the types of each argument to be fetched
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reg [1:0] r_arg_index = 3; // the instruction index currently being fetched
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reg [3:0] r_arg_types [0:3]; // the types of each argument to be fetched
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reg [15:0] r_arg_types_packed = 0; // to be unpacked into r_arg_types
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reg [2:0] r_arg_bytes = 0; // the number of bytes left to fetch for the current argument
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reg [2:0] r_arg_bytes = 0; // the number of bytes left to fetch for the current argument
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reg [3:0] r_arg_current_type = 8; // the type of the current argument
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reg [5:0] r_arg_bit = 0; // the current lower bit index being fetched for the current argument
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reg [5:0] r_arg_bit = 0; // the current lower bit index being fetched for the current argument
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reg r_mem_wre = 0;
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reg r_mem_busy = 0;
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@ -59,12 +61,19 @@ module Beepo #(
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reg [7:0] r_mem_in = 0;
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reg [7:0] r_mem_index = 0; // the index of the byte in transfer
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reg [7:0] r_mem_reg = 0; // the register currently used in transfer
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wire [63:0] w_mem_addr = r_mem_trans ? r_arg_addr : r_pc;
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wire [WORD_SIZE-1:0] w_mem_addr = r_mem_trans ? r_arg_addr : r_pc;
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wire [7:0] w_mem_fetch;
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reg r_breakpoint = 0;
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assign o_breakpoint = r_breakpoint;
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reg r_uart_rst_n = 0;
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reg [7:0] r_uart_data = 0;
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reg r_uart_busy = 0;
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reg [7:0] r_uart_left = 0;
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reg [WORD_SIZE-1:0] r_uart_addr = 0;
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wire w_uart_ready;
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genvar i;
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generate
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@ -172,46 +181,58 @@ module Beepo #(
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EXEC: begin
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r_state <= FETCHI;
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case (r_instr)
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`TX: r_state <= DONE;
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`NOP: ;
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`ADD8: set_reg_byte (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:8] + r_registers [r_arg_regs[2]][0+:8]);
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`ADD16: set_reg_hword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:16] + r_registers [r_arg_regs[2]][0+:16]);
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`ADD32: set_reg_word (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:32] + r_registers [r_arg_regs[2]][0+:32]);
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`ADD64: set_reg_dword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:64] + r_registers [r_arg_regs[2]][0+:64]);
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`ADDI8: set_reg_byte (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:8] + r_arg_imm [0+:8]);
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`ADDI16: set_reg_hword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:16] + r_arg_imm [0+:16]);
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`ADDI32: set_reg_word (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:32] + r_arg_imm [0+:32]);
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`ADDI64: set_reg_dword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:64] + r_arg_imm [0+:64]);
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`LI8: set_reg_byte (r_arg_regs[0], r_arg_imm);
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`LI16: set_reg_hword (r_arg_regs[0], r_arg_imm);
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`LI32: set_reg_word (r_arg_regs[0], r_arg_imm);
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`LI64: set_reg_dword (r_arg_regs[0], r_arg_imm);
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`LD: begin
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if (r_arg_imm > 0) begin
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r_arg_addr <= r_arg_addr + r_registers[r_arg_regs[1]];
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r_mem_index <= 0;
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r_mem_reg <= r_arg_regs[0];
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r_mem_busy <= 1;
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r_state <= MEMR;
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r_mem_trans <= 1;
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if (WORD_SIZE >= 8)
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case (r_instr)
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`TX: r_state <= DONE;
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`NOP: ;
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`ADD8: set_reg_byte (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:8] + r_registers [r_arg_regs[2]][0+:8]);
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`ADDI8: set_reg_byte (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:8] + r_arg_imm [0+:8]);
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`LI8: set_reg_byte (r_arg_regs[0], r_arg_imm);
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`LD: begin
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if (r_arg_imm > 0) begin
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r_arg_addr <= r_arg_addr + r_registers[r_arg_regs[1]];
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r_mem_index <= 0;
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r_mem_reg <= r_arg_regs[0];
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r_mem_busy <= 1;
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r_state <= MEMR;
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r_mem_trans <= 1;
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end
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end
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end
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`ST: begin
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if (r_arg_imm > 0) begin
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r_arg_addr <= r_arg_addr + r_registers[r_arg_regs[1]];
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r_mem_index <= 1;
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r_mem_reg <= r_arg_regs[0];
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r_mem_wre <= 1;
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r_mem_in <= r_registers[r_arg_regs[0]][0+:8];
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r_mem_busy <= 1;
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r_state <= MEMR;
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r_mem_trans <= 1;
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`ST: begin
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if (r_arg_imm > 0) begin
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r_arg_addr <= r_arg_addr + r_registers[r_arg_regs[1]];
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r_mem_index <= 1;
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r_mem_reg <= r_arg_regs[0];
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r_mem_wre <= 1;
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r_mem_in <= r_registers[r_arg_regs[0]][0+:8];
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r_mem_busy <= 1;
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r_state <= MEMR;
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r_mem_trans <= 1;
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end
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end
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`EBP: r_breakpoint = 1;
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endcase
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end
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end
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`EBP: r_breakpoint = 1;
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endcase
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if (WORD_SIZE >= 16)
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case (r_instr)
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`ADD16: set_reg_hword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:16] + r_registers [r_arg_regs[2]][0+:16]);
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`ADDI16: set_reg_hword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:16] + r_arg_imm [0+:16]);
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`LI16: set_reg_hword (r_arg_regs[0], r_arg_imm);
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endcase
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if (WORD_SIZE >= 32)
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case (r_instr)
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`ADD32: set_reg_word (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:32] + r_registers [r_arg_regs[2]][0+:32]);
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`ADDI32: set_reg_word (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:32] + r_arg_imm [0+:32]);
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`LI32: set_reg_word (r_arg_regs[0], r_arg_imm);
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endcase
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if (WORD_SIZE >= 64)
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case (r_instr)
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`ADD64: set_reg_dword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:64] + r_registers [r_arg_regs[2]][0+:64]);
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`ADDI64: set_reg_dword (r_arg_regs[0], r_registers[r_arg_regs[1]][0+:64] + r_arg_imm [0+:64]);
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`LI64: set_reg_dword (r_arg_regs[0], r_arg_imm);
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endcase
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end
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MEMR: begin
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case (r_instr)
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@ -229,7 +250,7 @@ module Beepo #(
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end else begin
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r_mem_index = r_mem_index + 1;
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if (r_mem_index == 8) begin
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if (r_mem_index == WORD_SIZE / 8) begin
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// reached the end of this register
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r_mem_reg <= r_mem_reg + 1;
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r_mem_index <= 0;
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@ -240,9 +261,9 @@ module Beepo #(
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end
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end
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endcase
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end
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always @(r_registers[0]) r_registers[0] <= 0;
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r_registers[0] <= 0;
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end
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task automatic set_reg_byte(
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input [7:0] being_set,
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@ -267,7 +288,7 @@ module Beepo #(
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task automatic set_reg_dword(
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input [7:0] being_set,
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input [63:0] setting_to
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input [WORD_SIZE-1:0] setting_to
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);
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r_registers[being_set][0+:64] = setting_to;
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endtask
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@ -280,13 +301,24 @@ module Beepo #(
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if (start_bit <= 56) r_registers[being_set][start_bit+:8] = setting_to;
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endtask
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Multi7 display (
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.i_clk(i_clk),
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.i_hex({r_registers[1][15:0]}),
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.o_segments_drive(o_segments_drive),
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.o_displays_neg(o_displays_neg)
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);
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Multi7 display (
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.i_clk(i_clk),
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.i_hex({r_registers[1][15:0]}),
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.o_segments_drive(o_segments_drive),
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.o_displays_neg(o_displays_neg)
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);
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// uart_tx #(
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// .CLK_FRE(FREQ/1_000_000),
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// .BAUD_RATE(115200)
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// ) serial (
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// .clk(i_clk),
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// .rst_n(r_uart_rst_n),
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// .tx_data(r_uart_data),
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// .tx_data_ready(w_uart_ready),
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// .tx_pin(o_uart_tx)
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// );
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spMem mem (
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.clk(i_clk),
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.ad(w_mem_addr),
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@ -61,5 +61,7 @@
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`define JEQ 'h56
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// Environment traps
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`define ECA 'h5C
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`define ECA_ARGS {ARG_N, ARG_N, ARG_N, ARG_N}
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`define EBP 'h5D
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`define EBP_ARGS {ARG_N, ARG_N, ARG_N, ARG_N}
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@ -1,13 +1,2 @@
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li64 (r4, 0x1020304050607080);
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st (r4, r0, 0x400, 8);
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ld (r1, r0, 0x400, 8); // 0x1020304050607080
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ebp();
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ld (r2, r0, 0x404, 4); // 0x0000000010203040
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ebp();
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li64 (r1, 0x1010202030304040);
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li64 (r2, 0x5050606070708080);
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st (r1, r0, 0x410, 16);
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ld (r3, r0, 0x410, 16);
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nop();
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ebp();
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@ -46,16 +46,20 @@ module tb_beepo();
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$display("BREAK");
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case (r_test)
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T_STLD: begin
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`assert(bep.r_registers[1], 64'h1020304050607080);
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// `assert(bep.r_registers[1], 64'h1020304050607080);
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`assert(bep.r_registers[1], 16'h1020);
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$display("[MEM] ST/LD test passed");
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end
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T_STLD_HALF: begin
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`assert(bep.r_registers[2], 64'h0000000010203040);
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// `assert(bep.r_registers[2], 64'h0000000010203040);
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`assert(bep.r_registers[2], 16'h10);
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$display("[MEM] ST/LD Half test passed");
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end
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T_STLD_DOUBLE: begin
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`assert(bep.r_registers[3], 64'h1010202030304040);
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`assert(bep.r_registers[4], 64'h5050606070708080);
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// `assert(bep.r_registers[3], 64'h1010202030304040);
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// `assert(bep.r_registers[4], 64'h5050606070708080);
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`assert(bep.r_registers[3], 64'h1010);
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`assert(bep.r_registers[4], 64'h5050);
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$display("[MEM] ST/LD Double test passed");
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end
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endcase
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