`timescale 1ns/1ps // 三通道图像合成一个RGB图像 module ColorBlender #( parameter reg [4:0] IN_DEPTH = 12, // 输入图像的色深 parameter reg [4:0] OUT_DEPTH = 8 // 输出图像的色深 ) ( input wire clk, input wire reset, input wire in_en, input wire [15:0] in_data[3], // 0:R 1:G 2:B output wire out_ready, output wire out_receive, // 输出相关 input wire in_ready, input wire in_receive, output reg out_en, output reg [OUT_DEPTH - 1:0] out_data[3], // 颜色校正 input wire [15:0] gain_red, input wire [15:0] gain_green, input wire [15:0] gain_blue, input wire enable ); localparam reg [2:0] READ_DATA = 0; localparam reg [2:0] CALC_DATA = 1; localparam reg [2:0] SATI_DATA = 2; localparam reg [2:0] SEND_DATA = 3; reg [2:0] state, nextState; reg [32 - 1:0] data_cal[3]; // 用于保存运算结果,防止溢出 always @(posedge clk) begin if (reset) begin state <= READ_DATA; end else begin state <= nextState; end end always @(*) begin case (state) READ_DATA: nextState = (in_en) ? CALC_DATA : READ_DATA; CALC_DATA: nextState = SATI_DATA; SATI_DATA: nextState = SEND_DATA; SEND_DATA: nextState = (in_receive) ? READ_DATA : SEND_DATA; default: nextState = READ_DATA; endcase end assign out_ready = (!in_en && state == READ_DATA && !reset) ? 1 : 0; assign out_receive = (in_en && state == READ_DATA && !reset) ? 1 : 0; always @(posedge clk) begin if (reset) begin // 初始化 data_cal[0] <= 0; data_cal[1] <= 0; data_cal[2] <= 0; out_data[0] <= 0; out_data[1] <= 0; out_data[2] <= 0; out_en <= 0; end else begin case (state) READ_DATA: begin if (in_en) begin data_cal[0] <= ({16'b0, in_data[0]}) << (8 - (IN_DEPTH - OUT_DEPTH)); data_cal[1] <= ({16'b0, in_data[1]}) << (8 - (IN_DEPTH - OUT_DEPTH)); data_cal[2] <= ({16'b0, in_data[2]}) << (8 - (IN_DEPTH - OUT_DEPTH)); end end CALC_DATA: begin if (enable) begin data_cal[0] <= (data_cal[0] * {16'b0, gain_red}) >> 16; data_cal[1] <= (data_cal[1] * {16'b0, gain_green}) >> 16; data_cal[2] <= (data_cal[2] * {16'b0, gain_blue}) >> 16; end else begin data_cal[0] <= data_cal[0] >> 8; data_cal[1] <= data_cal[1] >> 8; data_cal[2] <= data_cal[2] >> 8; end end SATI_DATA: begin data_cal[0] <= |data_cal[0][31 : OUT_DEPTH] ? {32{1'b1}} : data_cal[0]; data_cal[1] <= |data_cal[1][31 : OUT_DEPTH] ? {32{1'b1}} : data_cal[1]; data_cal[2] <= |data_cal[2][31 : OUT_DEPTH] ? {32{1'b1}} : data_cal[2]; end SEND_DATA: begin if (in_ready && !in_receive) begin out_en <= 1; out_data[0] <= data_cal[0][OUT_DEPTH-1:0]; out_data[1] <= data_cal[1][OUT_DEPTH-1:0]; out_data[2] <= data_cal[2][OUT_DEPTH-1:0]; end else out_en <= 0; end default: ; endcase end end endmodule