// 三通道图像合成一个RGB图像 module WhiteBalance #( 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 parameter reg [8:0] BUFF_SIZE = 32, parameter reg [31:0] RAM_BEGIN_ADDR = 0, parameter reg [31:0] IM_SIZE = 1920 * 1080 ) ( 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 wire out_en, output wire [OUT_DEPTH - 1:0] out_data[3], input wire enable, input wire [8:0] flame_rate, input wire [31:0] white_gain[3] ); wire ram_read_en, ram_write_en, ram_read_ready, ram_write_ready; wire [31:0] ram_read_data, ram_read_addr, ram_write_data, ram_write_addr; reg [8:0] cnt_flame; reg [31:0] cnt_in_pic, cnt_out_pic, cnt_pixels; reg [31:0] red_total, green_total, blue_total; reg [31:0] r_white_gain[3]; wire is_finish_cal; always @(*) begin if (cnt_in_pic >= IM_SIZE) is_finish_cal = 1; else if (cnt_out_pic >= IM_SIZE) is_finish_cal = 0; else is_finish_cal = is_finish_cal; end assign ram_read_addr = cnt_out_pic; assign ram_write_addr = cnt_in_pic; assign cnt_pixels = (is_finish_cal) ? IM_SIZE - cnt_out_pic + cnt_in_pic : cnt_in_pic - cnt_out_pic; assign out_ready = (!in_en && !reset && cnt_pixels < IM_SIZE) ? 1 : 0; assign out_receive = (in_en && !reset && cnt_in_pic < IM_SIZE) ? 1 : 0; DiffWidthSyncFIFO #( .DATA_WIDTH (8), .DATA_DEPTH (12), .READ_DEPTH (4), .WRITE_DEPTH(3) ) in_fifo ( .clk(clk), .reset(reset), .read_ready(ram_write_ready), .read_en(ram_write_en), .read_data(ram_write_data), .write_ready(in_ready), .write_en(in_en), .write_data(in_data) ); DiffWidthSyncFIFO #( .DATA_WIDTH (8), .DATA_DEPTH (12), .READ_DEPTH (3), .WRITE_DEPTH(4) ) out_fifo ( .clk(clk), .reset(reset), .read_ready(out_ready), .read_en(out_en), .read_data(out_data), .write_ready(ram_read_ready), .write_en(ram_read_en), .write_data(ram_read_data) ); SDRAM inst_RAM ( .clk(clk), .read_en(ram_read_en), .read_addr(ram_read_addr), .read_data(ram_read_data), .read_ready(ram_read_ready), .write_en(ram_write_en), .write_addr(ram_write_addr), .write_data(ram_write_data), .write_ready(ram_write_ready) ); // calculate white gain always @(posedge clk) begin if (reset) begin red_total <= 0; green_total <= 0; blue_total <= 0; cnt_flame <= 0; cnt_in_pic <= 0; r_white_gain[0] <= white_gain[0]; r_white_gain[1] <= white_gain[1]; r_white_gain[2] <= white_gain[2]; end else begin if (in_en && cnt_pixels < IM_SIZE) begin red_total <= red_total + in_data[0]; green_total <= green_total + in_data[1]; blue_total <= blue_total + in_data[2]; if (cnt_in_pic < IM_SIZE) cnt_in_pic <= cnt_in_pic + 1; else cnt_in_pic <= 0; end else begin end end end // calculate out data always @(posedge clk) begin if (reset) begin cnt_out_pic <= 0; end else begin if (out_ready && is_finish_cal) begin out_en <= 1; end else begin out_en <= 0; end end end endmodule