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Completed wrapper, to be tested
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@ -22,6 +22,10 @@ logic clk_internal; // modulated clock to be passed to harvard cpu
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logic[31:0] harvard_instr_address; // instr addr from pc
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logic[31:0] harvard_instr_address; // instr addr from pc
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logic harvard_read; // harvard cpu read flag
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logic harvard_read; // harvard cpu read flag
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logic harvard_write; // harvard cpu write flag
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logic harvard_write; // harvard cpu write flag
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logic[31:0] harvard_data_address; // data addr from ALU
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logic[31:0] harvard_readdata; // <= data read from Avalon MM Device
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logic[3:0] write_byteenable; // byteenable calculator for partial write
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logic clk_state; // make sure posedge and negedge of clk do not occur repeatedly
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initial begin
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initial begin
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clk_internal = 1'b0;
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clk_internal = 1'b0;
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@ -33,29 +37,33 @@ initial begin
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read = 1'b0;
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read = 1'b0;
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writedata = 32'h00000000;
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writedata = 32'h00000000;
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byteenable = 4'b0000;
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byteenable = 4'b0000;
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clk_state = 0;
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end
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end
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always_ff @(posedge clk) begin // CLK Rising Edge
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always_ff @(posedge clk) begin // CLK Rising Edge
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if (waitrequest) begin
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if (!waitrequest && !clk_state) begin
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end else begin
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case (n_state)
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case (n_state)
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2'b00: begin // fetch
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2'b00: begin // fetch
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clk_internal <= 1'b1;
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clk_internal <= 1'b1;
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state <= 2'b00;
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state <= 2'b00;
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end
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end
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2'b01: begin // execute
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2'b01: begin // execute
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state <= 2'b10;
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state <= 2'b01;
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instr_reg <= readdata;
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instr_reg <= readdata;
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end
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end
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2'b10: begin // read
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2'b10: begin // read
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state <= 2'b10;
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end
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end
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2'b11: begin // write
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2'b11: begin // write
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state <= 2'b11;
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end
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end
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endcase // state
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endcase // state
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end
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end
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clk_state <= 1'b1;
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end
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end
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always_ff @(negedge clk) begin // CLK Falling Edge
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always_ff @(negedge clk) begin // CLK Falling Edge
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if (!waitrequest && clk_state) begin
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case (state)
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case (state)
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2'b00: // nothing happens on fetch negedge
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2'b00: // nothing happens on fetch negedge
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2'b01: begin // execute negedge
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2'b01: begin // execute negedge
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@ -63,7 +71,15 @@ always_ff @(negedge clk) begin // CLK Falling Edge
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clk_internal <= 1'b0;
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clk_internal <= 1'b0;
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end // otherwise do nothing
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end // otherwise do nothing
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end
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end
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2'b10: begin
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clk_internal <= 1'b0;
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end
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2'b11: begin
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clk_internal <= 1'b0;
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end
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endcase
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endcase
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end
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clk_state <= 1'b0;
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end
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end
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always_comb begin
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always_comb begin
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@ -79,24 +95,48 @@ always_comb begin
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byteenable = 4'b0000;
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byteenable = 4'b0000;
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end else begin
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end else begin
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case (state)
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case (state)
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2'b00: begin
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2'b00: begin // connecting wires when in fetch state
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address = harvard_instr_address;
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address = harvard_instr_address;
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read = 1'b1;
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read = 1'b1;
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write = 1'b0;
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byteenable = 4'b1111;
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byteenable = 4'b1111;
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harvard_readdata = 32'h00000000;
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writedata = 32'h00000000;
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n_state = 2'b01;
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n_state = 2'b01;
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end
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end
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2'b01: begin
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2'b01: begin // connecting wires when in execute state
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address = 32'h00000000;
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address = 32'h00000000;
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read = 1'b0;
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read = 1'b0;
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write = 1'b0;
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byteenable = 4'b0000;
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byteenable = 4'b0000;
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harvard_readdata = 32'h00000000;
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writedata = 32'h00000000;
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if (harvard_read) begin
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if (harvard_read) begin
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n_state = 2'b10; // next state is read
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n_state = 2'b10; // next state is read
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end else if (harvard_write) begin
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end else if (harvard_write) begin
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n_state = 2'b11; // next state is write
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n_state = 2'b11; // next state is write
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end else begin
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end else begin
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n_state 2'b00; // next state is fetch
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n_state = 2'b00; // next state is fetch
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end
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end
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end
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end
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2'b10: begin // connecting wires when in read state
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address = harvard_data_address;
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read = 1'b1;
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write = 1'b0;
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byteenable = 4'b1111;
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harvard_readdata = readdata;
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writedata = 32'h00000000;
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n_state = 2'b00;
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end
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2'b11: begin // connecting wires when in write state
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address = harvard_data_address;
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read = 1'b0;
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write = 1'b1;
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byteenable = write_byteenable;
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harvard_readdata = 32'h00000000;
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writedata = harvard_writedata;
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n_state = 2'b00;
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end
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endcase // state
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endcase // state
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end
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end
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end
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end
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@ -109,11 +149,11 @@ mips_cpu_harvard mips_cpu_harvard( // Harvard CPU within wrapper
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.clk_enable(1'b0), // unused clock enable, input
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.clk_enable(1'b0), // unused clock enable, input
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.instr_address(harvard_instr_address), // instr addr from pc, output
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.instr_address(harvard_instr_address), // instr addr from pc, output
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.instr_readdata(instr_reg), // cached instruction passed into harvard cpu, input
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.instr_readdata(instr_reg), // cached instruction passed into harvard cpu, input
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.data_address(######), // output
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.data_address(harvard_data_address), // harvard data memory address, output
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.data_write(harvard_write), // harvard write flag, output
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.data_write(harvard_write), // harvard write flag, output
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.data_read(harvard_read), // harvard read flag, output
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.data_read(harvard_read), // harvard read flag, output
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.data_writedata(######), // output
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.data_writedata(harvard_writedata), // data output from regfile readport2, output
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.data_readdata(######) // input
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.data_readdata(harvard_readdata) // data in from read instruction, input
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);
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);
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endmodule : mips_cpu_bus
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endmodule : mips_cpu_bus
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