optimize the GreyWorld
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2190150dcf
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2543d624d2
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@ -32,10 +32,10 @@ module GreyWorld #(
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localparam reg [2:0] SEND_DATA = 2;
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reg [8:0] cnt_flame;
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reg [47:0] red_total, green_total, blue_total, r_white_gain[3];
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reg [31:0] red_total, green_total, blue_total, r_white_gain[3];
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reg [31:0] data_cal[3], data_cache[3];
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reg [31:0] cnt_pexels;
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wire [47:0] average;
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wire [39:0] average;
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always @(posedge clk) begin
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if (reset) state <= READ_DATA;
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@ -54,7 +54,7 @@ module GreyWorld #(
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assign out_ready = (!in_en && state == READ_DATA && !reset) ? 1 : 0;
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assign out_receive = (in_en && state == READ_DATA && !reset) ? 1 : 0;
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assign average = ((red_total + green_total + blue_total) << 8) / (3 * IM_SIZE);
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assign average = (({8'b0, red_total } + {8'b0, green_total } + {8'b0, blue_total }) << 8) / 3 ;
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always @(posedge clk) begin
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if (reset) begin
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@ -63,9 +63,9 @@ module GreyWorld #(
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blue_total <= 0;
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cnt_flame <= flame_rate;
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cnt_pexels <= 0;
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r_white_gain[0] <= {16'b0, white_gain[0] };
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r_white_gain[1] <= {16'b0, white_gain[1] };
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r_white_gain[2] <= {16'b0, white_gain[2] };
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r_white_gain[0] <= white_gain[0];
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r_white_gain[1] <= white_gain[1];
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r_white_gain[2] <= white_gain[2];
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data_cache[0] <= 0;
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data_cache[1] <= 0;
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data_cache[2] <= 0;
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@ -83,9 +83,9 @@ module GreyWorld #(
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data_cache[2] <= {24'b0, in_data[2]};
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if (cnt_flame == flame_rate) begin
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red_total <= red_total + {40'b0, in_data[0]};
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green_total <= green_total + {40'b0, in_data[1]};
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blue_total <= blue_total + {40'b0, in_data[2]};
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red_total <= red_total + {24'b0, in_data[0]};
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green_total <= green_total + {24'b0, in_data[1]};
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blue_total <= blue_total + {24'b0, in_data[2]};
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end
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if (cnt_pexels <= IM_SIZE) begin
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@ -100,9 +100,9 @@ module GreyWorld #(
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CALC_DATA: begin
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if (cnt_pexels >= IM_SIZE && cnt_flame == flame_rate) begin
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r_white_gain[0] <= (average * IM_SIZE) / red_total;
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r_white_gain[1] <= (average * IM_SIZE) / green_total;
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r_white_gain[2] <= (average * IM_SIZE) / blue_total;
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r_white_gain[0] <= { ( average / {8'b0, red_total } ) }[31:0];
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r_white_gain[1] <= { ( average / {8'b0, green_total } ) }[31:0];
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r_white_gain[2] <= { ( average / {8'b0, blue_total } ) }[31:0];
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end
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data_cal[0] <= (data_cache[0] * r_white_gain[0][31:0]);
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@ -38,6 +38,7 @@ struct color_gain {
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static const double gamma_value = 2.2;
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static const double saturation_inc = 0.5;
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static const double contrast = 1.2;
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// static const double white_radio = 0.1;
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using namespace sc_core;
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@ -217,6 +218,12 @@ bool picProcess(uint32_t* image, uint16_t number) {
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// }
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// }
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// Contrast enhancement
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// red = static_cast<uchar>(contrast * (red - 128) + 128);
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// green = static_cast<uchar>(contrast * (green - 128) + 128);
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// blue = static_cast<uchar>(contrast * (blue - 128) + 128);
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// save data
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data[index + 0] = red; // R
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data[index + 1] = green; // G
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@ -379,16 +386,16 @@ int sc_main(int argc, char* argv[]) {
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isp->saturation_inc(saturation_increase);
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blender_enable = true; // enable color correction
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gain_red = (uint32_t)(color_gain.red * std::pow(2, 8));
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gain_green = (uint32_t)(color_gain.green * std::pow(2, 8));
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gain_blue = (uint32_t)(color_gain.blue * std::pow(2, 8));
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gain_red = static_cast<uint32_t>(color_gain.red * std::pow(2, 8));
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gain_green = static_cast<uint32_t>(color_gain.green * std::pow(2, 8));
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gain_blue = static_cast<uint32_t>(color_gain.blue * std::pow(2, 8));
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gamma_enable = true;
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gamma_inverse = (uint32_t)((1.0 / gamma_value) * std::pow(2, 8));
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gamma_inverse = static_cast<uint32_t>((1.0 / gamma_value) * std::pow(2, 8));
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for (int i = 0; i < 256; i++) {
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// calculate gamma table
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isp->gamma_table[i](gamma_table[i]);
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gamma_table[i] = (uint32_t)(255 * pow(i / 255.0, 1.0 / gamma_value));
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gamma_table[i] = static_cast<uint32_t>(255 * pow(i / 255.0, 1.0 / gamma_value));
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}
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white_enable = true;
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