//-----------------------------------------------------------------------
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//-----------------------------------------------------------------------
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// Design : nova
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// Design : nova
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// Author(s) : Ke Xu
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// Author(s) : Ke Xu
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// Email : eexuke@yahoo.com
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// Email : eexuke@yahoo.com
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// File : DF_pipeline.v
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// File : DF_pipeline.v
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// Generated : Dec 2, 2005
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// Generated : Dec 2, 2005
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// Copyright (C) 2008 Ke Xu
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// Copyright (C) 2008 Ke Xu
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//-------------------------------------------------------------------------------------------------
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//-------------------------------------------------------------------------------------------------
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// Description
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// Description
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// 5-stage pipeline control for deblocking filter
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// 5-stage pipeline control for deblocking filter
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//-------------------------------------------------------------------------------------------------
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//-------------------------------------------------------------------------------------------------
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// synopsys translate_off
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// synopsys translate_off
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`include "timescale.v"
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`include "timescale.v"
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// synopsys translate_on
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// synopsys translate_on
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`include "nova_defines.v"
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`include "nova_defines.v"
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module DF_pipeline (clk,gclk_DF,gclk_end_of_MB_DEC,reset_n,disable_DF,end_of_BS_DEC,
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module DF_pipeline (clk,gclk_DF,gclk_end_of_MB_DEC,reset_n,disable_DF,end_of_BS_DEC,
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end_of_MB_DF,end_of_lastMB_DF,
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end_of_MB_DF,end_of_lastMB_DF,
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bs_V0,bs_V1,bs_V2,bs_V3,bs_H0,bs_H1,bs_H2,bs_H3,
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bs_V0,bs_V1,bs_V2,bs_V3,bs_H0,bs_H1,bs_H2,bs_H3,
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QPy,QPc,slice_alpha_c0_offset_div2,slice_beta_offset_div2,
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QPy,QPc,slice_alpha_c0_offset_div2,slice_beta_offset_div2,
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DF_mbAddrA_RF_dout,DF_mbAddrB_RAM_dout,rec_DF_RAM_dout,
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DF_mbAddrA_RF_dout,DF_mbAddrB_RAM_dout,rec_DF_RAM_dout,
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buf0_0,buf0_1,buf0_2,buf0_3,buf1_0,buf1_1,buf1_2,buf1_3,
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buf0_0,buf0_1,buf0_2,buf0_3,buf1_0,buf1_1,buf1_2,buf1_3,
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buf2_0,buf2_1,buf2_2,buf2_3,buf3_0,buf3_1,buf3_2,buf3_3,
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buf2_0,buf2_1,buf2_2,buf2_3,buf3_0,buf3_1,buf3_2,buf3_3,
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DF_duration,
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DF_duration,
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DF_edge_counter_MR,DF_edge_counter_MW,
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DF_edge_counter_MR,DF_edge_counter_MW,
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one_edge_counter_MR,one_edge_counter_MW,
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one_edge_counter_MR,one_edge_counter_MW,
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bs_curr_MR,bs_curr_MW,
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bs_curr_MR,bs_curr_MW,
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p0_MW,p1_MW,p2_MW,p3_MW,q0_MW,q1_MW,q2_MW,q3_MW);
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p0_MW,p1_MW,p2_MW,p3_MW,q0_MW,q1_MW,q2_MW,q3_MW);
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input clk;
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input clk;
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input gclk_DF;
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input gclk_DF;
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input gclk_end_of_MB_DEC;
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input gclk_end_of_MB_DEC;
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input reset_n;
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input reset_n;
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input disable_DF;
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input disable_DF;
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input end_of_BS_DEC;
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input end_of_BS_DEC;
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input end_of_MB_DF;
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input end_of_MB_DF;
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input end_of_lastMB_DF;
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input end_of_lastMB_DF;
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input [11:0] bs_V0,bs_V1,bs_V2,bs_V3;
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input [11:0] bs_V0,bs_V1,bs_V2,bs_V3;
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input [11:0] bs_H0,bs_H1,bs_H2,bs_H3;
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input [11:0] bs_H0,bs_H1,bs_H2,bs_H3;
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input [5:0] QPy,QPc;
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input [5:0] QPy,QPc;
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input [3:0] slice_alpha_c0_offset_div2,slice_beta_offset_div2;
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input [3:0] slice_alpha_c0_offset_div2,slice_beta_offset_div2;
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input [31:0] DF_mbAddrA_RF_dout,DF_mbAddrB_RAM_dout,rec_DF_RAM_dout;
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input [31:0] DF_mbAddrA_RF_dout,DF_mbAddrB_RAM_dout,rec_DF_RAM_dout;
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input [31:0] buf0_0,buf0_1,buf0_2,buf0_3,buf1_0,buf1_1,buf1_2,buf1_3;
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input [31:0] buf0_0,buf0_1,buf0_2,buf0_3,buf1_0,buf1_1,buf1_2,buf1_3;
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input [31:0] buf2_0,buf2_1,buf2_2,buf2_3,buf3_0,buf3_1,buf3_2,buf3_3;
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input [31:0] buf2_0,buf2_1,buf2_2,buf2_3,buf3_0,buf3_1,buf3_2,buf3_3;
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output DF_duration;
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output DF_duration;
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output [5:0] DF_edge_counter_MR,DF_edge_counter_MW;
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output [5:0] DF_edge_counter_MR,DF_edge_counter_MW;
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output [1:0] one_edge_counter_MR,one_edge_counter_MW;
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output [1:0] one_edge_counter_MR,one_edge_counter_MW;
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output [2:0] bs_curr_MR;
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output [2:0] bs_curr_MR;
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output [2:0] bs_curr_MW;
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output [2:0] bs_curr_MW;
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output [7:0] p0_MW,p1_MW,p2_MW,p3_MW;
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output [7:0] p0_MW,p1_MW,p2_MW,p3_MW;
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output [7:0] q0_MW,q1_MW,q2_MW,q3_MW;
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output [7:0] q0_MW,q1_MW,q2_MW,q3_MW;
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reg DF_duration;
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reg DF_duration;
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always @ (posedge clk or negedge reset_n)
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always @ (posedge clk or negedge reset_n)
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if (reset_n == 1'b0)
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if (reset_n == 1'b0)
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DF_duration <= 1'b0;
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DF_duration <= 1'b0;
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else if (end_of_BS_DEC)
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else if (end_of_BS_DEC)
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DF_duration <= 1'b1;
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DF_duration <= 1'b1;
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else if (end_of_MB_DF || end_of_lastMB_DF)
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else if (end_of_MB_DF || end_of_lastMB_DF)
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DF_duration <= 1'b0;
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DF_duration <= 1'b0;
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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//1.MR: Memory Read
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//1.MR: Memory Read
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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//DF_edge_counter_MR & one_edge_counter_MR
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//DF_edge_counter_MR & one_edge_counter_MR
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reg [5:0] DF_edge_counter_MR;
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reg [5:0] DF_edge_counter_MR;
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reg [1:0] one_edge_counter_MR;
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reg [1:0] one_edge_counter_MR;
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always @ (posedge gclk_DF or negedge reset_n)
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always @ (posedge gclk_DF or negedge reset_n)
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if (reset_n == 1'b0)
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if (reset_n == 1'b0)
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DF_edge_counter_MR <= 6'd48;
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DF_edge_counter_MR <= 6'd48;
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else if (end_of_BS_DEC == 1'b1)
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else if (end_of_BS_DEC == 1'b1)
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DF_edge_counter_MR <= 0;
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DF_edge_counter_MR <= 0;
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else if (one_edge_counter_MR == 2'd3 && DF_edge_counter_MR != 6'd48)
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else if (one_edge_counter_MR == 2'd3 && DF_edge_counter_MR != 6'd48)
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DF_edge_counter_MR <= DF_edge_counter_MR + 1;
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DF_edge_counter_MR <= DF_edge_counter_MR + 1;
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always @ (posedge gclk_DF or negedge reset_n)
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always @ (posedge gclk_DF or negedge reset_n)
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if (reset_n == 0)
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if (reset_n == 0)
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one_edge_counter_MR <= 2'd3;
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one_edge_counter_MR <= 2'd3;
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else if (end_of_BS_DEC == 1'b1)
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else if (end_of_BS_DEC == 1'b1)
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one_edge_counter_MR <= 2'd0;
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one_edge_counter_MR <= 2'd0;
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else
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else
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begin
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begin
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if (one_edge_counter_MR == 2'd3 && DF_edge_counter_MR != 6'd47 && DF_edge_counter_MR[5:4] != 2'b11) //!47,!48
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if (one_edge_counter_MR == 2'd3 && DF_edge_counter_MR != 6'd47 && DF_edge_counter_MR[5:4] != 2'b11) //!47,!48
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one_edge_counter_MR <= 2'd0;
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one_edge_counter_MR <= 2'd0;
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else if (one_edge_counter_MR != 2'd3)
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else if (one_edge_counter_MR != 2'd3)
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one_edge_counter_MR <= one_edge_counter_MR + 1;
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one_edge_counter_MR <= one_edge_counter_MR + 1;
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end
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end
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//lumaEdgeFlag_MR,chromaEdgeFlag_MR
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//lumaEdgeFlag_MR,chromaEdgeFlag_MR
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wire lumaEdgeFlag_MR,chromaEdgeFlag_MR;
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wire lumaEdgeFlag_MR,chromaEdgeFlag_MR;
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assign lumaEdgeFlag_MR = !DF_edge_counter_MR[5];
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assign lumaEdgeFlag_MR = !DF_edge_counter_MR[5];
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assign chromaEdgeFlag_MR = DF_edge_counter_MR[5] && (DF_edge_counter_MR != 6'd48);
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assign chromaEdgeFlag_MR = DF_edge_counter_MR[5] && (DF_edge_counter_MR != 6'd48);
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//bs_curr_MR
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//bs_curr_MR
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reg [2:0] bs_curr_MR;
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reg [2:0] bs_curr_MR;
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always @ (disable_DF or lumaEdgeFlag_MR or chromaEdgeFlag_MR or
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always @ (disable_DF or lumaEdgeFlag_MR or chromaEdgeFlag_MR or
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DF_edge_counter_MR[4:0] or one_edge_counter_MR[1] or
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DF_edge_counter_MR[4:0] or one_edge_counter_MR[1] or
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bs_V0 or bs_V1 or bs_V2 or bs_V3 or bs_H0 or bs_H1 or bs_H2 or bs_H3)
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bs_V0 or bs_V1 or bs_V2 or bs_V3 or bs_H0 or bs_H1 or bs_H2 or bs_H3)
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if (!disable_DF && lumaEdgeFlag_MR)
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if (!disable_DF && lumaEdgeFlag_MR)
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case (DF_edge_counter_MR[4:0])
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case (DF_edge_counter_MR[4:0])
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5'd0 :bs_curr_MR <= bs_V0[2:0];
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5'd0 :bs_curr_MR <= bs_V0[2:0];
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5'd1 :bs_curr_MR <= bs_V1[2:0];
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5'd1 :bs_curr_MR <= bs_V1[2:0];
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5'd2 :bs_curr_MR <= bs_V0[5:3];
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5'd2 :bs_curr_MR <= bs_V0[5:3];
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5'd3 :bs_curr_MR <= bs_V1[5:3];
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5'd3 :bs_curr_MR <= bs_V1[5:3];
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5'd4 :bs_curr_MR <= bs_H0[2:0];
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5'd4 :bs_curr_MR <= bs_H0[2:0];
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5'd5 :bs_curr_MR <= bs_H1[2:0];
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5'd5 :bs_curr_MR <= bs_H1[2:0];
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5'd6 :bs_curr_MR <= bs_V2[2:0];
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5'd6 :bs_curr_MR <= bs_V2[2:0];
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5'd7 :bs_curr_MR <= bs_V2[5:3];
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5'd7 :bs_curr_MR <= bs_V2[5:3];
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5'd8 :bs_curr_MR <= bs_H0[5:3];
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5'd8 :bs_curr_MR <= bs_H0[5:3];
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5'd9 :bs_curr_MR <= bs_H1[5:3];
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5'd9 :bs_curr_MR <= bs_H1[5:3];
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5'd10:bs_curr_MR <= bs_V3[2:0];
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5'd10:bs_curr_MR <= bs_V3[2:0];
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5'd11:bs_curr_MR <= bs_V3[5:3];
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5'd11:bs_curr_MR <= bs_V3[5:3];
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5'd12:bs_curr_MR <= bs_H0[8:6];
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5'd12:bs_curr_MR <= bs_H0[8:6];
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5'd13:bs_curr_MR <= bs_H0[11:9];
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5'd13:bs_curr_MR <= bs_H0[11:9];
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5'd14:bs_curr_MR <= bs_H1[8:6];
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5'd14:bs_curr_MR <= bs_H1[8:6];
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5'd15:bs_curr_MR <= bs_H1[11:9];
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5'd15:bs_curr_MR <= bs_H1[11:9];
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5'd16:bs_curr_MR <= bs_V0[8:6];
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5'd16:bs_curr_MR <= bs_V0[8:6];
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5'd17:bs_curr_MR <= bs_V1[8:6];
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5'd17:bs_curr_MR <= bs_V1[8:6];
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5'd18:bs_curr_MR <= bs_V0[11:9];
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5'd18:bs_curr_MR <= bs_V0[11:9];
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5'd19:bs_curr_MR <= bs_V1[11:9];
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5'd19:bs_curr_MR <= bs_V1[11:9];
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5'd20:bs_curr_MR <= bs_H2[2:0];
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5'd20:bs_curr_MR <= bs_H2[2:0];
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5'd21:bs_curr_MR <= bs_H3[2:0];
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5'd21:bs_curr_MR <= bs_H3[2:0];
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5'd22:bs_curr_MR <= bs_V2[8:6];
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5'd22:bs_curr_MR <= bs_V2[8:6];
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5'd23:bs_curr_MR <= bs_V2[11:9];
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5'd23:bs_curr_MR <= bs_V2[11:9];
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5'd24:bs_curr_MR <= bs_H2[5:3];
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5'd24:bs_curr_MR <= bs_H2[5:3];
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5'd25:bs_curr_MR <= bs_H3[5:3];
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5'd25:bs_curr_MR <= bs_H3[5:3];
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5'd26:bs_curr_MR <= bs_V3[8:6];
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5'd26:bs_curr_MR <= bs_V3[8:6];
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5'd27:bs_curr_MR <= bs_V3[11:9];
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5'd27:bs_curr_MR <= bs_V3[11:9];
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5'd28:bs_curr_MR <= bs_H2[8:6];
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5'd28:bs_curr_MR <= bs_H2[8:6];
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5'd29:bs_curr_MR <= bs_H2[11:9];
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5'd29:bs_curr_MR <= bs_H2[11:9];
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5'd30:bs_curr_MR <= bs_H3[8:6];
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5'd30:bs_curr_MR <= bs_H3[8:6];
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5'd31:bs_curr_MR <= bs_H3[11:9];
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5'd31:bs_curr_MR <= bs_H3[11:9];
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endcase
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endcase
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else if (!disable_DF && chromaEdgeFlag_MR)
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else if (!disable_DF && chromaEdgeFlag_MR)
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case (DF_edge_counter_MR[3:0])
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case (DF_edge_counter_MR[3:0])
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4'd0,4'd8: //32,40
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4'd0,4'd8: //32,40
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_V0[2:0];
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1'b0:bs_curr_MR <= bs_V0[2:0];
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1'b1:bs_curr_MR <= bs_V0[5:3];
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1'b1:bs_curr_MR <= bs_V0[5:3];
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endcase
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endcase
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4'd2,4'd10: //34,42
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4'd2,4'd10: //34,42
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_V0[8:6];
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1'b0:bs_curr_MR <= bs_V0[8:6];
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1'b1:bs_curr_MR <= bs_V0[11:9];
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1'b1:bs_curr_MR <= bs_V0[11:9];
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endcase
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endcase
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4'd1,4'd9: //33,41
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4'd1,4'd9: //33,41
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_V2[2:0];
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1'b0:bs_curr_MR <= bs_V2[2:0];
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1'b1:bs_curr_MR <= bs_V2[5:3];
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1'b1:bs_curr_MR <= bs_V2[5:3];
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endcase
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endcase
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4'd3,4'd11: //35,43
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4'd3,4'd11: //35,43
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_V2[8:6];
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1'b0:bs_curr_MR <= bs_V2[8:6];
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1'b1:bs_curr_MR <= bs_V2[11:9];
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1'b1:bs_curr_MR <= bs_V2[11:9];
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endcase
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endcase
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4'd4,4'd12: //36,44
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4'd4,4'd12: //36,44
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_H0[2:0];
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1'b0:bs_curr_MR <= bs_H0[2:0];
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1'b1:bs_curr_MR <= bs_H0[5:3];
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1'b1:bs_curr_MR <= bs_H0[5:3];
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endcase
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endcase
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4'd5,4'd13: //37,45
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4'd5,4'd13: //37,45
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_H0[8:6];
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1'b0:bs_curr_MR <= bs_H0[8:6];
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1'b1:bs_curr_MR <= bs_H0[11:9];
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1'b1:bs_curr_MR <= bs_H0[11:9];
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endcase
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endcase
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4'd6,4'd14: //38,46
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4'd6,4'd14: //38,46
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_H2[2:0];
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1'b0:bs_curr_MR <= bs_H2[2:0];
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1'b1:bs_curr_MR <= bs_H2[5:3];
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1'b1:bs_curr_MR <= bs_H2[5:3];
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endcase
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endcase
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4'd7,4'd15: //39,47
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4'd7,4'd15: //39,47
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case (one_edge_counter_MR[1])
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case (one_edge_counter_MR[1])
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1'b0:bs_curr_MR <= bs_H2[8:6];
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1'b0:bs_curr_MR <= bs_H2[8:6];
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1'b1:bs_curr_MR <= bs_H2[11:9];
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1'b1:bs_curr_MR <= bs_H2[11:9];
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endcase
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endcase
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endcase
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endcase
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else
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else
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bs_curr_MR <= 0;
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bs_curr_MR <= 0;
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// Pipelined parameters
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// Pipelined parameters
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reg [2:0] bs_curr_TD;
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reg [2:0] bs_curr_TD;
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reg lumaEdgeFlag_TD,chromaEdgeFlag_TD;
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reg lumaEdgeFlag_TD,chromaEdgeFlag_TD;
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reg [5:0] DF_edge_counter_TD;
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reg [5:0] DF_edge_counter_TD;
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reg [1:0] one_edge_counter_TD;
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reg [1:0] one_edge_counter_TD;
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always @ (posedge gclk_DF or negedge reset_n)
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always @ (posedge gclk_DF or negedge reset_n)
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if (reset_n == 1'b0)
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if (reset_n == 1'b0)
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begin
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begin
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bs_curr_TD <= 0;
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bs_curr_TD <= 0;
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lumaEdgeFlag_TD <= 0;
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lumaEdgeFlag_TD <= 0;
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chromaEdgeFlag_TD <= 0;
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chromaEdgeFlag_TD <= 0;
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DF_edge_counter_TD <= 6'd48;
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DF_edge_counter_TD <= 6'd48;
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one_edge_counter_TD <= 2'd3;
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one_edge_counter_TD <= 2'd3;
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end
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end
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else
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else
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begin
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begin
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bs_curr_TD <= bs_curr_MR;
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bs_curr_TD <= bs_curr_MR;
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lumaEdgeFlag_TD <= lumaEdgeFlag_MR;
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lumaEdgeFlag_TD <= lumaEdgeFlag_MR;
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chromaEdgeFlag_TD <= chromaEdgeFlag_MR;
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chromaEdgeFlag_TD <= chromaEdgeFlag_MR;
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DF_edge_counter_TD <= DF_edge_counter_MR;
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DF_edge_counter_TD <= DF_edge_counter_MR;
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one_edge_counter_TD <= one_edge_counter_MR;
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one_edge_counter_TD <= one_edge_counter_MR;
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end
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end
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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//2.TD: Threshold Decider
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//2.TD: Threshold Decider
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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wire [6:0] indexA_y_unclipped,indexA_c_unclipped;
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wire [6:0] indexA_y_unclipped,indexA_c_unclipped;
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wire [6:0] indexB_y_unclipped,indexB_c_unclipped;
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wire [6:0] indexB_y_unclipped,indexB_c_unclipped;
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assign indexA_y_unclipped = QPy + {{2{slice_alpha_c0_offset_div2[3]}},slice_alpha_c0_offset_div2,1'b0};
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assign indexA_y_unclipped = QPy + {{2{slice_alpha_c0_offset_div2[3]}},slice_alpha_c0_offset_div2,1'b0};
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assign indexA_c_unclipped = QPc + {{2{slice_alpha_c0_offset_div2[3]}},slice_alpha_c0_offset_div2,1'b0};
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assign indexA_c_unclipped = QPc + {{2{slice_alpha_c0_offset_div2[3]}},slice_alpha_c0_offset_div2,1'b0};
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assign indexB_y_unclipped = QPy + {{2{slice_beta_offset_div2[3]}},slice_beta_offset_div2,1'b0};
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assign indexB_y_unclipped = QPy + {{2{slice_beta_offset_div2[3]}},slice_beta_offset_div2,1'b0};
|
assign indexB_c_unclipped = QPc + {{2{slice_beta_offset_div2[3]}},slice_beta_offset_div2,1'b0};
|
assign indexB_c_unclipped = QPc + {{2{slice_beta_offset_div2[3]}},slice_beta_offset_div2,1'b0};
|
|
|
wire [5:0] indexA_y,indexA_c;
|
wire [5:0] indexA_y,indexA_c;
|
wire [5:0] indexB_y,indexB_c;
|
wire [5:0] indexB_y,indexB_c;
|
assign indexA_y = (indexA_y_unclipped[6] == 1)? 0:((indexA_y_unclipped[5:0] > 6'd51)? 6'd51:indexA_y_unclipped[5:0]);
|
assign indexA_y = (indexA_y_unclipped[6] == 1)? 0:((indexA_y_unclipped[5:0] > 6'd51)? 6'd51:indexA_y_unclipped[5:0]);
|
assign indexA_c = (indexA_c_unclipped[6] == 1)? 0:((indexA_c_unclipped[5:0] > 6'd51)? 6'd51:indexA_c_unclipped[5:0]);
|
assign indexA_c = (indexA_c_unclipped[6] == 1)? 0:((indexA_c_unclipped[5:0] > 6'd51)? 6'd51:indexA_c_unclipped[5:0]);
|
assign indexB_y = (indexB_y_unclipped[6] == 1)? 0:((indexB_y_unclipped[5:0] > 6'd51)? 6'd51:indexB_y_unclipped[5:0]);
|
assign indexB_y = (indexB_y_unclipped[6] == 1)? 0:((indexB_y_unclipped[5:0] > 6'd51)? 6'd51:indexB_y_unclipped[5:0]);
|
assign indexB_c = (indexB_c_unclipped[6] == 1)? 0:((indexB_c_unclipped[5:0] > 6'd51)? 6'd51:indexB_c_unclipped[5:0]);
|
assign indexB_c = (indexB_c_unclipped[6] == 1)? 0:((indexB_c_unclipped[5:0] > 6'd51)? 6'd51:indexB_c_unclipped[5:0]);
|
|
|
reg [5:0] indexA_y_reg,indexA_c_reg;
|
reg [5:0] indexA_y_reg,indexA_c_reg;
|
reg [5:0] indexB_y_reg,indexB_c_reg;
|
reg [5:0] indexB_y_reg,indexB_c_reg;
|
always @ (posedge gclk_end_of_MB_DEC or negedge reset_n)
|
always @ (posedge gclk_end_of_MB_DEC or negedge reset_n)
|
if (reset_n == 1'b0)
|
if (reset_n == 1'b0)
|
begin indexA_y_reg <= 0; indexA_c_reg <= 0; indexB_y_reg <= 0; indexB_c_reg <= 0; end
|
begin indexA_y_reg <= 0; indexA_c_reg <= 0; indexB_y_reg <= 0; indexB_c_reg <= 0; end
|
else if (!disable_DF)
|
else if (!disable_DF)
|
begin
|
begin
|
indexA_y_reg <= indexA_y; indexA_c_reg <= indexA_c;
|
indexA_y_reg <= indexA_y; indexA_c_reg <= indexA_c;
|
indexB_y_reg <= indexB_y; indexB_c_reg <= indexB_c;
|
indexB_y_reg <= indexB_y; indexB_c_reg <= indexB_c;
|
end
|
end
|
|
|
wire [5:0] indexA,indexB;
|
wire [5:0] indexA,indexB;
|
assign indexA = (lumaEdgeFlag_TD)? indexA_y_reg:((chromaEdgeFlag_TD)? indexA_c_reg:0);
|
assign indexA = (lumaEdgeFlag_TD)? indexA_y_reg:((chromaEdgeFlag_TD)? indexA_c_reg:0);
|
assign indexB = (lumaEdgeFlag_TD)? indexB_y_reg:((chromaEdgeFlag_TD)? indexB_c_reg:0);
|
assign indexB = (lumaEdgeFlag_TD)? indexB_y_reg:((chromaEdgeFlag_TD)? indexB_c_reg:0);
|
|
|
reg [7:0] alpha,beta;
|
reg [7:0] alpha,beta;
|
//alpha
|
//alpha
|
always @ (indexA)
|
always @ (indexA)
|
if (indexA < 16)
|
if (indexA < 16)
|
alpha <= 0;
|
alpha <= 0;
|
else
|
else
|
case (indexA)
|
case (indexA)
|
6'd16,6'd17:alpha <= 8'd4;
|
6'd16,6'd17:alpha <= 8'd4;
|
6'd18:alpha <= 8'd5; 6'd19:alpha <= 8'd6; 6'd20:alpha <= 8'd7; 6'd21:alpha <= 8'd8;
|
6'd18:alpha <= 8'd5; 6'd19:alpha <= 8'd6; 6'd20:alpha <= 8'd7; 6'd21:alpha <= 8'd8;
|
6'd22:alpha <= 8'd9; 6'd23:alpha <= 8'd10; 6'd24:alpha <= 8'd12; 6'd25:alpha <= 8'd13;
|
6'd22:alpha <= 8'd9; 6'd23:alpha <= 8'd10; 6'd24:alpha <= 8'd12; 6'd25:alpha <= 8'd13;
|
6'd26:alpha <= 8'd15; 6'd27:alpha <= 8'd17; 6'd28:alpha <= 8'd20; 6'd29:alpha <= 8'd22;
|
6'd26:alpha <= 8'd15; 6'd27:alpha <= 8'd17; 6'd28:alpha <= 8'd20; 6'd29:alpha <= 8'd22;
|
6'd30:alpha <= 8'd25; 6'd31:alpha <= 8'd28; 6'd32:alpha <= 8'd32; 6'd33:alpha <= 8'd36;
|
6'd30:alpha <= 8'd25; 6'd31:alpha <= 8'd28; 6'd32:alpha <= 8'd32; 6'd33:alpha <= 8'd36;
|
6'd34:alpha <= 8'd40; 6'd35:alpha <= 8'd45; 6'd36:alpha <= 8'd50; 6'd37:alpha <= 8'd56;
|
6'd34:alpha <= 8'd40; 6'd35:alpha <= 8'd45; 6'd36:alpha <= 8'd50; 6'd37:alpha <= 8'd56;
|
6'd38:alpha <= 8'd63; 6'd39:alpha <= 8'd71; 6'd40:alpha <= 8'd80; 6'd41:alpha <= 8'd90;
|
6'd38:alpha <= 8'd63; 6'd39:alpha <= 8'd71; 6'd40:alpha <= 8'd80; 6'd41:alpha <= 8'd90;
|
6'd42:alpha <= 8'd101; 6'd43:alpha <= 8'd113; 6'd44:alpha <= 8'd127; 6'd45:alpha <= 8'd144;
|
6'd42:alpha <= 8'd101; 6'd43:alpha <= 8'd113; 6'd44:alpha <= 8'd127; 6'd45:alpha <= 8'd144;
|
6'd46:alpha <= 8'd162; 6'd47:alpha <= 8'd182; 6'd48:alpha <= 8'd203; 6'd49:alpha <= 8'd226;
|
6'd46:alpha <= 8'd162; 6'd47:alpha <= 8'd182; 6'd48:alpha <= 8'd203; 6'd49:alpha <= 8'd226;
|
default:alpha <= 8'd255;
|
default:alpha <= 8'd255;
|
endcase
|
endcase
|
//beta
|
//beta
|
always @ (indexB)
|
always @ (indexB)
|
if (indexB < 16)
|
if (indexB < 16)
|
beta <= 0;
|
beta <= 0;
|
else if (indexB > 15 && indexB < 26)
|
else if (indexB > 15 && indexB < 26)
|
case (indexB)
|
case (indexB)
|
6'd16,6'd17,6'd18 :beta <= 8'd2;
|
6'd16,6'd17,6'd18 :beta <= 8'd2;
|
6'd19,6'd20,6'd21,6'd22 :beta <= 8'd3;
|
6'd19,6'd20,6'd21,6'd22 :beta <= 8'd3;
|
6'd23,6'd24,6'd25 :beta <= 8'd4;
|
6'd23,6'd24,6'd25 :beta <= 8'd4;
|
default:beta <= 0;
|
default:beta <= 0;
|
endcase
|
endcase
|
else
|
else
|
beta <= indexB[5:1] - 3'd7;
|
beta <= indexB[5:1] - 3'd7;
|
|
|
wire [7:0] absolute_TD0_a,absolute_TD0_b;
|
wire [7:0] absolute_TD0_a,absolute_TD0_b;
|
wire [7:0] absolute_TD1_a,absolute_TD1_b;
|
wire [7:0] absolute_TD1_a,absolute_TD1_b;
|
wire [7:0] absolute_TD2_a,absolute_TD2_b;
|
wire [7:0] absolute_TD2_a,absolute_TD2_b;
|
wire [7:0] absolute_TD0_out,absolute_TD1_out,absolute_TD2_out;
|
wire [7:0] absolute_TD0_out,absolute_TD1_out,absolute_TD2_out;
|
absolute absolute_TD0 (.a(absolute_TD0_a),.b(absolute_TD0_b),.out(absolute_TD0_out));
|
absolute absolute_TD0 (.a(absolute_TD0_a),.b(absolute_TD0_b),.out(absolute_TD0_out));
|
absolute absolute_TD1 (.a(absolute_TD1_a),.b(absolute_TD1_b),.out(absolute_TD1_out));
|
absolute absolute_TD1 (.a(absolute_TD1_a),.b(absolute_TD1_b),.out(absolute_TD1_out));
|
absolute absolute_TD2 (.a(absolute_TD2_a),.b(absolute_TD2_b),.out(absolute_TD2_out));
|
absolute absolute_TD2 (.a(absolute_TD2_a),.b(absolute_TD2_b),.out(absolute_TD2_out));
|
|
|
//p0 ~ p3
|
//p0 ~ p3
|
wire Is_p_from_mbAddrA;
|
wire Is_p_from_mbAddrA;
|
wire Is_p_from_mbAddrB;
|
wire Is_p_from_mbAddrB;
|
wire Is_p_from_buf0;
|
wire Is_p_from_buf0;
|
wire Is_p_from_buf1;
|
wire Is_p_from_buf1;
|
wire Is_p_from_buf2;
|
wire Is_p_from_buf2;
|
wire Is_p_from_buf3;
|
wire Is_p_from_buf3;
|
assign Is_p_from_mbAddrA = (DF_edge_counter_TD == 6'd0 || DF_edge_counter_TD == 6'd2 ||
|
assign Is_p_from_mbAddrA = (DF_edge_counter_TD == 6'd0 || DF_edge_counter_TD == 6'd2 ||
|
DF_edge_counter_TD == 6'd16 || DF_edge_counter_TD == 6'd18 || DF_edge_counter_TD == 6'd32 ||
|
DF_edge_counter_TD == 6'd16 || DF_edge_counter_TD == 6'd18 || DF_edge_counter_TD == 6'd32 ||
|
DF_edge_counter_TD == 6'd34 || DF_edge_counter_TD == 6'd40 || DF_edge_counter_TD == 6'd42);
|
DF_edge_counter_TD == 6'd34 || DF_edge_counter_TD == 6'd40 || DF_edge_counter_TD == 6'd42);
|
|
|
assign Is_p_from_mbAddrB = (DF_edge_counter_TD == 6'd4 || DF_edge_counter_TD == 6'd8 ||
|
assign Is_p_from_mbAddrB = (DF_edge_counter_TD == 6'd4 || DF_edge_counter_TD == 6'd8 ||
|
DF_edge_counter_TD == 6'd12 || DF_edge_counter_TD == 6'd13 || DF_edge_counter_TD == 6'd20 ||
|
DF_edge_counter_TD == 6'd12 || DF_edge_counter_TD == 6'd13 || DF_edge_counter_TD == 6'd20 ||
|
DF_edge_counter_TD == 6'd24 || DF_edge_counter_TD == 6'd28 || DF_edge_counter_TD == 6'd29 ||
|
DF_edge_counter_TD == 6'd24 || DF_edge_counter_TD == 6'd28 || DF_edge_counter_TD == 6'd29 ||
|
DF_edge_counter_TD == 6'd36 || DF_edge_counter_TD == 6'd37 || DF_edge_counter_TD == 6'd44 ||
|
DF_edge_counter_TD == 6'd36 || DF_edge_counter_TD == 6'd37 || DF_edge_counter_TD == 6'd44 ||
|
DF_edge_counter_TD == 6'd45);
|
DF_edge_counter_TD == 6'd45);
|
|
|
assign Is_p_from_buf0 = (DF_edge_counter_TD == 6'd1 || DF_edge_counter_TD == 6'd5 ||
|
assign Is_p_from_buf0 = (DF_edge_counter_TD == 6'd1 || DF_edge_counter_TD == 6'd5 ||
|
DF_edge_counter_TD == 6'd10 || DF_edge_counter_TD == 6'd14 || DF_edge_counter_TD == 6'd17 ||
|
DF_edge_counter_TD == 6'd10 || DF_edge_counter_TD == 6'd14 || DF_edge_counter_TD == 6'd17 ||
|
DF_edge_counter_TD == 6'd21 || DF_edge_counter_TD == 6'd26 || DF_edge_counter_TD == 6'd30 ||
|
DF_edge_counter_TD == 6'd21 || DF_edge_counter_TD == 6'd26 || DF_edge_counter_TD == 6'd30 ||
|
DF_edge_counter_TD == 6'd33 || DF_edge_counter_TD == 6'd38 || DF_edge_counter_TD == 6'd41 ||
|
DF_edge_counter_TD == 6'd33 || DF_edge_counter_TD == 6'd38 || DF_edge_counter_TD == 6'd41 ||
|
DF_edge_counter_TD == 6'd46);
|
DF_edge_counter_TD == 6'd46);
|
|
|
assign Is_p_from_buf1 = (DF_edge_counter_TD == 6'd6 || DF_edge_counter_TD == 6'd9 ||
|
assign Is_p_from_buf1 = (DF_edge_counter_TD == 6'd6 || DF_edge_counter_TD == 6'd9 ||
|
DF_edge_counter_TD == 6'd15 || DF_edge_counter_TD == 6'd22 || DF_edge_counter_TD == 6'd25 ||
|
DF_edge_counter_TD == 6'd15 || DF_edge_counter_TD == 6'd22 || DF_edge_counter_TD == 6'd25 ||
|
DF_edge_counter_TD == 6'd31 || DF_edge_counter_TD == 6'd39 || DF_edge_counter_TD == 6'd47);
|
DF_edge_counter_TD == 6'd31 || DF_edge_counter_TD == 6'd39 || DF_edge_counter_TD == 6'd47);
|
|
|
assign Is_p_from_buf2 = (DF_edge_counter_TD == 6'd3 || DF_edge_counter_TD == 6'd11 ||
|
assign Is_p_from_buf2 = (DF_edge_counter_TD == 6'd3 || DF_edge_counter_TD == 6'd11 ||
|
DF_edge_counter_TD == 6'd19 || DF_edge_counter_TD == 6'd27 || DF_edge_counter_TD == 6'd35 ||
|
DF_edge_counter_TD == 6'd19 || DF_edge_counter_TD == 6'd27 || DF_edge_counter_TD == 6'd35 ||
|
DF_edge_counter_TD == 6'd43);
|
DF_edge_counter_TD == 6'd43);
|
|
|
assign Is_p_from_buf3 = (DF_edge_counter_TD == 6'd7 || DF_edge_counter_TD == 6'd23);
|
assign Is_p_from_buf3 = (DF_edge_counter_TD == 6'd7 || DF_edge_counter_TD == 6'd23);
|
|
|
reg [7:0] p0,p1,p2,p3;
|
reg [7:0] p0,p1,p2,p3;
|
always @ (Is_p_from_mbAddrA or Is_p_from_mbAddrB or Is_p_from_buf0 or Is_p_from_buf1 or
|
always @ (Is_p_from_mbAddrA or Is_p_from_mbAddrB or Is_p_from_buf0 or Is_p_from_buf1 or
|
Is_p_from_buf2 or Is_p_from_buf3 or one_edge_counter_TD or
|
Is_p_from_buf2 or Is_p_from_buf3 or one_edge_counter_TD or
|
DF_mbAddrA_RF_dout or DF_mbAddrB_RAM_dout or
|
DF_mbAddrA_RF_dout or DF_mbAddrB_RAM_dout or
|
buf0_0 or buf0_1 or buf0_2 or buf0_3 or buf1_0 or buf1_1 or buf1_2 or buf1_3 or
|
buf0_0 or buf0_1 or buf0_2 or buf0_3 or buf1_0 or buf1_1 or buf1_2 or buf1_3 or
|
buf2_0 or buf2_1 or buf2_2 or buf2_3 or buf3_0 or buf3_1 or buf3_2 or buf3_3)
|
buf2_0 or buf2_1 or buf2_2 or buf2_3 or buf3_0 or buf3_1 or buf3_2 or buf3_3)
|
case ({Is_p_from_mbAddrA,Is_p_from_mbAddrB,Is_p_from_buf0,Is_p_from_buf1,Is_p_from_buf2,Is_p_from_buf3})
|
case ({Is_p_from_mbAddrA,Is_p_from_mbAddrB,Is_p_from_buf0,Is_p_from_buf1,Is_p_from_buf2,Is_p_from_buf3})
|
6'b100000:{p0,p1,p2,p3} <= DF_mbAddrA_RF_dout;
|
6'b100000:{p0,p1,p2,p3} <= DF_mbAddrA_RF_dout;
|
6'b010000:{p0,p1,p2,p3} <= DF_mbAddrB_RAM_dout;
|
6'b010000:{p0,p1,p2,p3} <= DF_mbAddrB_RAM_dout;
|
6'b001000: case (one_edge_counter_TD)
|
6'b001000: case (one_edge_counter_TD)
|
2'b00:{p0,p1,p2,p3} <= buf0_0;
|
2'b00:{p0,p1,p2,p3} <= buf0_0;
|
2'b01:{p0,p1,p2,p3} <= buf0_1;
|
2'b01:{p0,p1,p2,p3} <= buf0_1;
|
2'b10:{p0,p1,p2,p3} <= buf0_2;
|
2'b10:{p0,p1,p2,p3} <= buf0_2;
|
2'b11:{p0,p1,p2,p3} <= buf0_3;
|
2'b11:{p0,p1,p2,p3} <= buf0_3;
|
endcase
|
endcase
|
6'b000100: case (one_edge_counter_TD)
|
6'b000100: case (one_edge_counter_TD)
|
2'b00:{p0,p1,p2,p3} <= buf1_0;
|
2'b00:{p0,p1,p2,p3} <= buf1_0;
|
2'b01:{p0,p1,p2,p3} <= buf1_1;
|
2'b01:{p0,p1,p2,p3} <= buf1_1;
|
2'b10:{p0,p1,p2,p3} <= buf1_2;
|
2'b10:{p0,p1,p2,p3} <= buf1_2;
|
2'b11:{p0,p1,p2,p3} <= buf1_3;
|
2'b11:{p0,p1,p2,p3} <= buf1_3;
|
endcase
|
endcase
|
6'b000010: case (one_edge_counter_TD)
|
6'b000010: case (one_edge_counter_TD)
|
2'b00:{p0,p1,p2,p3} <= buf2_0;
|
2'b00:{p0,p1,p2,p3} <= buf2_0;
|
2'b01:{p0,p1,p2,p3} <= buf2_1;
|
2'b01:{p0,p1,p2,p3} <= buf2_1;
|
2'b10:{p0,p1,p2,p3} <= buf2_2;
|
2'b10:{p0,p1,p2,p3} <= buf2_2;
|
2'b11:{p0,p1,p2,p3} <= buf2_3;
|
2'b11:{p0,p1,p2,p3} <= buf2_3;
|
endcase
|
endcase
|
6'b000001: case (one_edge_counter_TD)
|
6'b000001: case (one_edge_counter_TD)
|
2'b00:{p0,p1,p2,p3} <= buf3_0;
|
2'b00:{p0,p1,p2,p3} <= buf3_0;
|
2'b01:{p0,p1,p2,p3} <= buf3_1;
|
2'b01:{p0,p1,p2,p3} <= buf3_1;
|
2'b10:{p0,p1,p2,p3} <= buf3_2;
|
2'b10:{p0,p1,p2,p3} <= buf3_2;
|
2'b11:{p0,p1,p2,p3} <= buf3_3;
|
2'b11:{p0,p1,p2,p3} <= buf3_3;
|
endcase
|
endcase
|
default:{p0,p1,p2,p3} <= 0;
|
default:{p0,p1,p2,p3} <= 0;
|
endcase
|
endcase
|
|
|
//q0 ~ q3
|
//q0 ~ q3
|
wire Is_q_from_buf0;
|
wire Is_q_from_buf0;
|
wire Is_q_from_buf1;
|
wire Is_q_from_buf1;
|
wire Is_q_from_buf2;
|
wire Is_q_from_buf2;
|
wire Is_q_from_buf3;
|
wire Is_q_from_buf3;
|
|
|
assign Is_q_from_buf0 = (DF_edge_counter_TD == 6'd4 || DF_edge_counter_TD == 6'd12 ||
|
assign Is_q_from_buf0 = (DF_edge_counter_TD == 6'd4 || DF_edge_counter_TD == 6'd12 ||
|
DF_edge_counter_TD == 6'd20 || DF_edge_counter_TD == 6'd28 || DF_edge_counter_TD == 6'd36 ||
|
DF_edge_counter_TD == 6'd20 || DF_edge_counter_TD == 6'd28 || DF_edge_counter_TD == 6'd36 ||
|
DF_edge_counter_TD == 6'd44);
|
DF_edge_counter_TD == 6'd44);
|
|
|
assign Is_q_from_buf1 = (DF_edge_counter_TD == 6'd8 || DF_edge_counter_TD == 6'd13 ||
|
assign Is_q_from_buf1 = (DF_edge_counter_TD == 6'd8 || DF_edge_counter_TD == 6'd13 ||
|
DF_edge_counter_TD == 6'd24 || DF_edge_counter_TD == 6'd29 || DF_edge_counter_TD == 6'd37 ||
|
DF_edge_counter_TD == 6'd24 || DF_edge_counter_TD == 6'd29 || DF_edge_counter_TD == 6'd37 ||
|
DF_edge_counter_TD == 6'd45);
|
DF_edge_counter_TD == 6'd45);
|
|
|
assign Is_q_from_buf2 = (DF_edge_counter_TD == 6'd5 || DF_edge_counter_TD == 6'd14 ||
|
assign Is_q_from_buf2 = (DF_edge_counter_TD == 6'd5 || DF_edge_counter_TD == 6'd14 ||
|
DF_edge_counter_TD == 6'd21 || DF_edge_counter_TD == 6'd30 || DF_edge_counter_TD == 6'd38 ||
|
DF_edge_counter_TD == 6'd21 || DF_edge_counter_TD == 6'd30 || DF_edge_counter_TD == 6'd38 ||
|
DF_edge_counter_TD == 6'd46);
|
DF_edge_counter_TD == 6'd46);
|
|
|
assign Is_q_from_buf3 = (DF_edge_counter_TD == 6'd9 || DF_edge_counter_TD == 6'd15 ||
|
assign Is_q_from_buf3 = (DF_edge_counter_TD == 6'd9 || DF_edge_counter_TD == 6'd15 ||
|
DF_edge_counter_TD == 6'd25 || DF_edge_counter_TD == 6'd31 || DF_edge_counter_TD == 6'd39 ||
|
DF_edge_counter_TD == 6'd25 || DF_edge_counter_TD == 6'd31 || DF_edge_counter_TD == 6'd39 ||
|
DF_edge_counter_TD == 6'd47);
|
DF_edge_counter_TD == 6'd47);
|
|
|
reg [7:0] q0,q1,q2,q3;
|
reg [7:0] q0,q1,q2,q3;
|
always @ (Is_q_from_buf0 or Is_q_from_buf1 or Is_q_from_buf2 or Is_q_from_buf3 or
|
always @ (Is_q_from_buf0 or Is_q_from_buf1 or Is_q_from_buf2 or Is_q_from_buf3 or
|
rec_DF_RAM_dout or one_edge_counter_TD or DF_edge_counter_TD or
|
rec_DF_RAM_dout or one_edge_counter_TD or DF_edge_counter_TD or
|
buf0_0 or buf0_1 or buf0_2 or buf0_3 or buf1_0 or buf1_1 or buf1_2 or buf1_3 or
|
buf0_0 or buf0_1 or buf0_2 or buf0_3 or buf1_0 or buf1_1 or buf1_2 or buf1_3 or
|
buf2_0 or buf2_1 or buf2_2 or buf2_3 or buf3_0 or buf3_1 or buf3_2 or buf3_3)
|
buf2_0 or buf2_1 or buf2_2 or buf2_3 or buf3_0 or buf3_1 or buf3_2 or buf3_3)
|
case ({Is_q_from_buf0,Is_q_from_buf1,Is_q_from_buf2,Is_q_from_buf3})
|
case ({Is_q_from_buf0,Is_q_from_buf1,Is_q_from_buf2,Is_q_from_buf3})
|
4'b1000:case (one_edge_counter_TD)
|
4'b1000:case (one_edge_counter_TD)
|
2'b00:{q3,q2,q1,q0} <= buf0_0;
|
2'b00:{q3,q2,q1,q0} <= buf0_0;
|
2'b01:{q3,q2,q1,q0} <= buf0_1;
|
2'b01:{q3,q2,q1,q0} <= buf0_1;
|
2'b10:{q3,q2,q1,q0} <= buf0_2;
|
2'b10:{q3,q2,q1,q0} <= buf0_2;
|
2'b11:{q3,q2,q1,q0} <= buf0_3;
|
2'b11:{q3,q2,q1,q0} <= buf0_3;
|
endcase
|
endcase
|
4'b0100:case (one_edge_counter_TD)
|
4'b0100:case (one_edge_counter_TD)
|
2'b00:{q3,q2,q1,q0} <= buf1_0;
|
2'b00:{q3,q2,q1,q0} <= buf1_0;
|
2'b01:{q3,q2,q1,q0} <= buf1_1;
|
2'b01:{q3,q2,q1,q0} <= buf1_1;
|
2'b10:{q3,q2,q1,q0} <= buf1_2;
|
2'b10:{q3,q2,q1,q0} <= buf1_2;
|
2'b11:{q3,q2,q1,q0} <= buf1_3;
|
2'b11:{q3,q2,q1,q0} <= buf1_3;
|
endcase
|
endcase
|
4'b0010:case (one_edge_counter_TD)
|
4'b0010:case (one_edge_counter_TD)
|
2'b00:{q3,q2,q1,q0} <= buf2_0;
|
2'b00:{q3,q2,q1,q0} <= buf2_0;
|
2'b01:{q3,q2,q1,q0} <= buf2_1;
|
2'b01:{q3,q2,q1,q0} <= buf2_1;
|
2'b10:{q3,q2,q1,q0} <= buf2_2;
|
2'b10:{q3,q2,q1,q0} <= buf2_2;
|
2'b11:{q3,q2,q1,q0} <= buf2_3;
|
2'b11:{q3,q2,q1,q0} <= buf2_3;
|
endcase
|
endcase
|
4'b0001:case (one_edge_counter_TD)
|
4'b0001:case (one_edge_counter_TD)
|
2'b00:{q3,q2,q1,q0} <= buf3_0;
|
2'b00:{q3,q2,q1,q0} <= buf3_0;
|
2'b01:{q3,q2,q1,q0} <= buf3_1;
|
2'b01:{q3,q2,q1,q0} <= buf3_1;
|
2'b10:{q3,q2,q1,q0} <= buf3_2;
|
2'b10:{q3,q2,q1,q0} <= buf3_2;
|
2'b11:{q3,q2,q1,q0} <= buf3_3;
|
2'b11:{q3,q2,q1,q0} <= buf3_3;
|
endcase
|
endcase
|
default:if (DF_edge_counter_TD != 6'd48) {q3,q2,q1,q0} <= rec_DF_RAM_dout;
|
default:if (DF_edge_counter_TD != 6'd48) {q3,q2,q1,q0} <= rec_DF_RAM_dout;
|
else {q3,q2,q1,q0} <= 0;
|
else {q3,q2,q1,q0} <= 0;
|
endcase
|
endcase
|
|
|
// |p0 - q0| < alpha
|
// |p0 - q0| < alpha
|
assign absolute_TD0_a = (!disable_DF && bs_curr_TD != 0)? p0:0;
|
assign absolute_TD0_a = (!disable_DF && bs_curr_TD != 0)? p0:0;
|
assign absolute_TD0_b = (!disable_DF && bs_curr_TD != 0)? q0:0;
|
assign absolute_TD0_b = (!disable_DF && bs_curr_TD != 0)? q0:0;
|
|
|
// |p1 - p0| < beta
|
// |p1 - p0| < beta
|
assign absolute_TD1_a = (!disable_DF && bs_curr_TD != 0)? p0:0;
|
assign absolute_TD1_a = (!disable_DF && bs_curr_TD != 0)? p0:0;
|
assign absolute_TD1_b = (!disable_DF && bs_curr_TD != 0)? p1:0;
|
assign absolute_TD1_b = (!disable_DF && bs_curr_TD != 0)? p1:0;
|
|
|
// |q1 - q0| < beta
|
// |q1 - q0| < beta
|
assign absolute_TD2_a = (!disable_DF && bs_curr_TD != 0)? q0:0;
|
assign absolute_TD2_a = (!disable_DF && bs_curr_TD != 0)? q0:0;
|
assign absolute_TD2_b = (!disable_DF && bs_curr_TD != 0)? q1:0;
|
assign absolute_TD2_b = (!disable_DF && bs_curr_TD != 0)? q1:0;
|
|
|
// Threshold
|
// Threshold
|
wire threshold;
|
wire threshold;
|
assign threshold = ((absolute_TD0_out < alpha) && (absolute_TD1_out < beta) &&
|
assign threshold = ((absolute_TD0_out < alpha) && (absolute_TD1_out < beta) &&
|
(absolute_TD2_out < beta))? 1'b1:1'b0;
|
(absolute_TD2_out < beta))? 1'b1:1'b0;
|
|
|
// Pipelined parameters
|
// Pipelined parameters
|
reg [2:0] bs_curr_PRE;
|
reg [2:0] bs_curr_PRE;
|
reg [5:0] DF_edge_counter_PRE;
|
reg [5:0] DF_edge_counter_PRE;
|
reg [1:0] one_edge_counter_PRE;
|
reg [1:0] one_edge_counter_PRE;
|
reg lumaEdgeFlag_PRE,chromaEdgeFlag_PRE;
|
reg lumaEdgeFlag_PRE,chromaEdgeFlag_PRE;
|
reg [7:0] p0_PRE,p1_PRE,p2_PRE,p3_PRE;
|
reg [7:0] p0_PRE,p1_PRE,p2_PRE,p3_PRE;
|
reg [7:0] q0_PRE,q1_PRE,q2_PRE,q3_PRE;
|
reg [7:0] q0_PRE,q1_PRE,q2_PRE,q3_PRE;
|
reg [5:0] indexA_PRE;
|
reg [5:0] indexA_PRE;
|
reg [7:0] alpha_PRE,beta_PRE;
|
reg [7:0] alpha_PRE,beta_PRE;
|
always @ (posedge gclk_DF or negedge reset_n)
|
always @ (posedge gclk_DF or negedge reset_n)
|
if (reset_n == 1'b0)
|
if (reset_n == 1'b0)
|
begin
|
begin
|
bs_curr_PRE <= 0;
|
bs_curr_PRE <= 0;
|
DF_edge_counter_PRE <= 6'd48;
|
DF_edge_counter_PRE <= 6'd48;
|
one_edge_counter_PRE <= 2'd3;
|
one_edge_counter_PRE <= 2'd3;
|
lumaEdgeFlag_PRE <= 0;
|
lumaEdgeFlag_PRE <= 0;
|
chromaEdgeFlag_PRE <= 0;
|
chromaEdgeFlag_PRE <= 0;
|
indexA_PRE <= 0;
|
indexA_PRE <= 0;
|
alpha_PRE <= 0;
|
alpha_PRE <= 0;
|
beta_PRE <= 0;
|
beta_PRE <= 0;
|
p0_PRE <= 0; p1_PRE <= 0; p2_PRE <= 0; p3_PRE <= 0;
|
p0_PRE <= 0; p1_PRE <= 0; p2_PRE <= 0; p3_PRE <= 0;
|
q0_PRE <= 0; q1_PRE <= 0; q2_PRE <= 0; q3_PRE <= 0;
|
q0_PRE <= 0; q1_PRE <= 0; q2_PRE <= 0; q3_PRE <= 0;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
bs_curr_PRE <= (threshold)? bs_curr_TD:0;
|
bs_curr_PRE <= (threshold)? bs_curr_TD:0;
|
DF_edge_counter_PRE <= DF_edge_counter_TD;
|
DF_edge_counter_PRE <= DF_edge_counter_TD;
|
one_edge_counter_PRE<= one_edge_counter_TD;
|
one_edge_counter_PRE<= one_edge_counter_TD;
|
lumaEdgeFlag_PRE <= (threshold)? lumaEdgeFlag_TD:0;
|
lumaEdgeFlag_PRE <= (threshold)? lumaEdgeFlag_TD:0;
|
chromaEdgeFlag_PRE <= (threshold)? chromaEdgeFlag_TD:0;
|
chromaEdgeFlag_PRE <= (threshold)? chromaEdgeFlag_TD:0;
|
indexA_PRE <= (threshold)? indexA:0;
|
indexA_PRE <= (threshold)? indexA:0;
|
alpha_PRE <= (threshold)? alpha:0;
|
alpha_PRE <= (threshold)? alpha:0;
|
beta_PRE <= (threshold)? beta:0;
|
beta_PRE <= (threshold)? beta:0;
|
p0_PRE <= p0; p1_PRE <= p1; p2_PRE <= p2; p3_PRE <= p3;
|
p0_PRE <= p0; p1_PRE <= p1; p2_PRE <= p2; p3_PRE <= p3;
|
q0_PRE <= q0; q1_PRE <= q1; q2_PRE <= q2; q3_PRE <= q3;
|
q0_PRE <= q0; q1_PRE <= q1; q2_PRE <= q2; q3_PRE <= q3;
|
end
|
end
|
//---------------------------------------------------------------------
|
//---------------------------------------------------------------------
|
//3.PRE: Precomputation
|
//3.PRE: Precomputation
|
//---------------------------------------------------------------------
|
//---------------------------------------------------------------------
|
wire [7:0] absolute_PRE0_a,absolute_PRE0_b;
|
wire [7:0] absolute_PRE0_a,absolute_PRE0_b;
|
wire [7:0] absolute_PRE1_a,absolute_PRE1_b;
|
wire [7:0] absolute_PRE1_a,absolute_PRE1_b;
|
wire [7:0] absolute_PRE2_a,absolute_PRE2_b;
|
wire [7:0] absolute_PRE2_a,absolute_PRE2_b;
|
wire [7:0] absolute_PRE0_out,absolute_PRE1_out,absolute_PRE2_out;
|
wire [7:0] absolute_PRE0_out,absolute_PRE1_out,absolute_PRE2_out;
|
|
|
absolute absolute_PRE0 (.a(absolute_PRE0_a),.b(absolute_PRE0_b),.out(absolute_PRE0_out));
|
absolute absolute_PRE0 (.a(absolute_PRE0_a),.b(absolute_PRE0_b),.out(absolute_PRE0_out));
|
absolute absolute_PRE1 (.a(absolute_PRE1_a),.b(absolute_PRE1_b),.out(absolute_PRE1_out));
|
absolute absolute_PRE1 (.a(absolute_PRE1_a),.b(absolute_PRE1_b),.out(absolute_PRE1_out));
|
absolute absolute_PRE2 (.a(absolute_PRE2_a),.b(absolute_PRE2_b),.out(absolute_PRE2_out));
|
absolute absolute_PRE2 (.a(absolute_PRE2_a),.b(absolute_PRE2_b),.out(absolute_PRE2_out));
|
|
|
// |p2 - p0| < beta
|
// |p2 - p0| < beta
|
assign absolute_PRE0_a = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? p2_PRE:0;
|
assign absolute_PRE0_a = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? p2_PRE:0;
|
assign absolute_PRE0_b = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? p0_PRE:0;
|
assign absolute_PRE0_b = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? p0_PRE:0;
|
|
|
// |q2 - q0| < beta
|
// |q2 - q0| < beta
|
assign absolute_PRE1_a = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? q2_PRE:0;
|
assign absolute_PRE1_a = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? q2_PRE:0;
|
assign absolute_PRE1_b = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? q0_PRE:0;
|
assign absolute_PRE1_b = (bs_curr_PRE != 0 && lumaEdgeFlag_PRE)? q0_PRE:0;
|
|
|
// |p0 - q0| < alpha >> 2 + 2
|
// |p0 - q0| < alpha >> 2 + 2
|
assign absolute_PRE2_a = (lumaEdgeFlag_PRE && bs_curr_PRE == 3'd4)? p0_PRE:0;
|
assign absolute_PRE2_a = (lumaEdgeFlag_PRE && bs_curr_PRE == 3'd4)? p0_PRE:0;
|
assign absolute_PRE2_b = (lumaEdgeFlag_PRE && bs_curr_PRE == 3'd4)? q0_PRE:0;
|
assign absolute_PRE2_b = (lumaEdgeFlag_PRE && bs_curr_PRE == 3'd4)? q0_PRE:0;
|
|
|
wire p2_m_p0_less_beta,q2_m_q0_less_beta,p0_m_q0_less_alpha_shift;
|
wire p2_m_p0_less_beta,q2_m_q0_less_beta,p0_m_q0_less_alpha_shift;
|
assign p2_m_p0_less_beta = (bs_curr_PRE == 0 || !lumaEdgeFlag_PRE)? 1'b0:
|
assign p2_m_p0_less_beta = (bs_curr_PRE == 0 || !lumaEdgeFlag_PRE)? 1'b0:
|
((absolute_PRE0_out < beta_PRE)? 1'b1:1'b0);
|
((absolute_PRE0_out < beta_PRE)? 1'b1:1'b0);
|
assign q2_m_q0_less_beta = (bs_curr_PRE == 0 || !lumaEdgeFlag_PRE)? 1'b0:
|
assign q2_m_q0_less_beta = (bs_curr_PRE == 0 || !lumaEdgeFlag_PRE)? 1'b0:
|
((absolute_PRE1_out < beta_PRE)? 1'b1:1'b0);
|
((absolute_PRE1_out < beta_PRE)? 1'b1:1'b0);
|
assign p0_m_q0_less_alpha_shift = (!lumaEdgeFlag_PRE || bs_curr_PRE != 4)? 1'b0:
|
assign p0_m_q0_less_alpha_shift = (!lumaEdgeFlag_PRE || bs_curr_PRE != 4)? 1'b0:
|
((absolute_PRE2_out < ((alpha_PRE >> 2) + 2))? 1'b1:1'b0);
|
((absolute_PRE2_out < ((alpha_PRE >> 2) + 2))? 1'b1:1'b0);
|
// bs = 1 ~ 3
|
// bs = 1 ~ 3
|
reg [4:0] c1;
|
reg [4:0] c1;
|
always @ (bs_curr_PRE or indexA_PRE)
|
always @ (bs_curr_PRE or indexA_PRE)
|
if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
|
if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
|
case (bs_curr_PRE)
|
case (bs_curr_PRE)
|
3'd1:
|
3'd1:
|
if (indexA_PRE < 23) c1 <= 5'd0;
|
if (indexA_PRE < 23) c1 <= 5'd0;
|
else if (indexA_PRE < 33) c1 <= 5'd1;
|
else if (indexA_PRE < 33) c1 <= 5'd1;
|
else if (indexA_PRE < 37) c1 <= 5'd2;
|
else if (indexA_PRE < 37) c1 <= 5'd2;
|
else if (indexA_PRE < 40) c1 <= 5'd3;
|
else if (indexA_PRE < 40) c1 <= 5'd3;
|
else if (indexA_PRE < 43) c1 <= 5'd4;
|
else if (indexA_PRE < 43) c1 <= 5'd4;
|
else
|
else
|
case (indexA_PRE)
|
case (indexA_PRE)
|
6'd43:c1 <= 5'd5; 6'd44,6'd45:c1 <= 5'd6;
|
6'd43:c1 <= 5'd5; 6'd44,6'd45:c1 <= 5'd6;
|
6'd46:c1 <= 5'd7; 6'd47:c1 <= 5'd8; 6'd48:c1 <= 5'd9;
|
6'd46:c1 <= 5'd7; 6'd47:c1 <= 5'd8; 6'd48:c1 <= 5'd9;
|
6'd49:c1 <= 5'd10; 6'd50:c1 <= 5'd11; 6'd51:c1 <= 5'd13;
|
6'd49:c1 <= 5'd10; 6'd50:c1 <= 5'd11; 6'd51:c1 <= 5'd13;
|
default:c1 <= 0;
|
default:c1 <= 0;
|
endcase
|
endcase
|
3'd2:
|
3'd2:
|
if (indexA_PRE < 21) c1 <= 5'd0;
|
if (indexA_PRE < 21) c1 <= 5'd0;
|
else if (indexA_PRE < 31) c1 <= 5'd1;
|
else if (indexA_PRE < 31) c1 <= 5'd1;
|
else if (indexA_PRE < 35) c1 <= 5'd2;
|
else if (indexA_PRE < 35) c1 <= 5'd2;
|
else if (indexA_PRE < 38) c1 <= 5'd3;
|
else if (indexA_PRE < 38) c1 <= 5'd3;
|
else
|
else
|
case (indexA_PRE)
|
case (indexA_PRE)
|
6'd38,6'd39:c1 <= 5'd4;
|
6'd38,6'd39:c1 <= 5'd4;
|
6'd40,6'd41:c1 <= 5'd5;
|
6'd40,6'd41:c1 <= 5'd5;
|
6'd42:c1 <= 5'd6; 6'd43:c1 <= 5'd7; 6'd44,6'd45:c1 <= 5'd8;
|
6'd42:c1 <= 5'd6; 6'd43:c1 <= 5'd7; 6'd44,6'd45:c1 <= 5'd8;
|
6'd46:c1 <= 5'd10; 6'd47:c1 <= 5'd11; 6'd48:c1 <= 5'd12;
|
6'd46:c1 <= 5'd10; 6'd47:c1 <= 5'd11; 6'd48:c1 <= 5'd12;
|
6'd49:c1 <= 5'd13; 6'd50:c1 <= 5'd15; 6'd51:c1 <= 5'd17;
|
6'd49:c1 <= 5'd13; 6'd50:c1 <= 5'd15; 6'd51:c1 <= 5'd17;
|
default:c1 <= 5'd0;
|
default:c1 <= 5'd0;
|
endcase
|
endcase
|
3'd3:
|
3'd3:
|
if (indexA_PRE < 17) c1 <= 5'd0;
|
if (indexA_PRE < 17) c1 <= 5'd0;
|
else if (indexA_PRE < 27) c1 <= 5'd1;
|
else if (indexA_PRE < 27) c1 <= 5'd1;
|
else if (indexA_PRE < 31) c1 <= 5'd2;
|
else if (indexA_PRE < 31) c1 <= 5'd2;
|
else if (indexA_PRE < 34) c1 <= 5'd3;
|
else if (indexA_PRE < 34) c1 <= 5'd3;
|
else if (indexA_PRE < 37) c1 <= 5'd4;
|
else if (indexA_PRE < 37) c1 <= 5'd4;
|
else
|
else
|
case (indexA_PRE)
|
case (indexA_PRE)
|
6'd37:c1 <= 5'd5; 6'd38,6'd39:c1 <= 5'd6;
|
6'd37:c1 <= 5'd5; 6'd38,6'd39:c1 <= 5'd6;
|
6'd40:c1 <= 5'd7; 6'd41:c1 <= 5'd8; 6'd42:c1 <= 5'd9; 6'd43:c1 <= 5'd10;
|
6'd40:c1 <= 5'd7; 6'd41:c1 <= 5'd8; 6'd42:c1 <= 5'd9; 6'd43:c1 <= 5'd10;
|
6'd44:c1 <= 5'd11; 6'd45:c1 <= 5'd13; 6'd46:c1 <= 5'd14; 6'd47:c1 <= 5'd16;
|
6'd44:c1 <= 5'd11; 6'd45:c1 <= 5'd13; 6'd46:c1 <= 5'd14; 6'd47:c1 <= 5'd16;
|
6'd48:c1 <= 5'd18; 6'd49:c1 <= 5'd20; 6'd50:c1 <= 5'd23; 6'd51:c1 <= 5'd25;
|
6'd48:c1 <= 5'd18; 6'd49:c1 <= 5'd20; 6'd50:c1 <= 5'd23; 6'd51:c1 <= 5'd25;
|
default:c1 <= 5'd0;
|
default:c1 <= 5'd0;
|
endcase
|
endcase
|
default:c1 <= 0;
|
default:c1 <= 0;
|
endcase
|
endcase
|
else
|
else
|
c1 <= 0;
|
c1 <= 0;
|
|
|
reg [4:0] c0;
|
reg [4:0] c0;
|
always @ (bs_curr_PRE or lumaEdgeFlag_PRE or c1 or p2_m_p0_less_beta or q2_m_q0_less_beta)
|
always @ (bs_curr_PRE or lumaEdgeFlag_PRE or c1 or p2_m_p0_less_beta or q2_m_q0_less_beta)
|
if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
|
if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
|
begin
|
begin
|
if (lumaEdgeFlag_PRE) //filter luma edge
|
if (lumaEdgeFlag_PRE) //filter luma edge
|
c0 <= ( p2_m_p0_less_beta && q2_m_q0_less_beta)? (c1 + 2):
|
c0 <= ( p2_m_p0_less_beta && q2_m_q0_less_beta)? (c1 + 2):
|
((!p2_m_p0_less_beta && !q2_m_q0_less_beta)? c1:(c1+1));
|
((!p2_m_p0_less_beta && !q2_m_q0_less_beta)? c1:(c1+1));
|
else //filter chroma edge
|
else //filter chroma edge
|
c0 <= c1 + 1;
|
c0 <= c1 + 1;
|
end
|
end
|
else
|
else
|
c0 <= 0;
|
c0 <= 0;
|
|
|
//delta_0i = [(q0 - p0) << 2 + (p1 - q1) + 4] >> 3 : P151 (8-334) of H.264/AVC standard 2003
|
//delta_0i = [(q0 - p0) << 2 + (p1 - q1) + 4] >> 3 : P151 (8-334) of H.264/AVC standard 2003
|
wire [8:0] delta_0i;
|
wire [8:0] delta_0i;
|
wire need_delta_0i;
|
wire need_delta_0i;
|
wire [8:0] q0_m_p0; //p0 - q0
|
wire [8:0] q0_m_p0; //p0 - q0
|
wire [11:0] delta_0i_tmp; //[(p0 - q0) << 2 + (p1 - q1) + 4]
|
wire [11:0] delta_0i_tmp; //[(p0 - q0) << 2 + (p1 - q1) + 4]
|
assign need_delta_0i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4);
|
assign need_delta_0i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4);
|
assign q0_m_p0 = (need_delta_0i)? ({1'b0,q0_PRE} + {1'b1,~p0_PRE} + 1):0;
|
assign q0_m_p0 = (need_delta_0i)? ({1'b0,q0_PRE} + {1'b1,~p0_PRE} + 1):0;
|
assign delta_0i_tmp = (need_delta_0i)? ({q0_m_p0[8],q0_m_p0,2'b0} + p1_PRE + {4'b1111,~q1_PRE} + 5):0;
|
assign delta_0i_tmp = (need_delta_0i)? ({q0_m_p0[8],q0_m_p0,2'b0} + p1_PRE + {4'b1111,~q1_PRE} + 5):0;
|
assign delta_0i = delta_0i_tmp[11:3];
|
assign delta_0i = delta_0i_tmp[11:3];
|
|
|
|
|
//delta p1i = [(p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)] >> 1 : P152 (8-341) of H.264/AVC standard 2003
|
//delta p1i = [(p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)] >> 1 : P152 (8-341) of H.264/AVC standard 2003
|
//delta q1i = [(q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)] >> 1 : P152 (8-343) of H.264/AVC standard 2003
|
//delta q1i = [(q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)] >> 1 : P152 (8-343) of H.264/AVC standard 2003
|
wire [8:0] delta_p1i,delta_q1i;
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wire [8:0] delta_p1i,delta_q1i;
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wire need_p1i;
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wire need_p1i;
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wire need_q1i;
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wire need_q1i;
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wire [8:0] p0_q0_sum; //p0+q0+1
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wire [8:0] p0_q0_sum; //p0+q0+1
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wire [9:0] neg_p1_shift; //-(p1 << 1)
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wire [9:0] neg_p1_shift; //-(p1 << 1)
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wire [9:0] neg_q1_shift; //-(q1 << 1)
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wire [9:0] neg_q1_shift; //-(q1 << 1)
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wire [9:0] delta_p1i_tmp;// (p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)
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wire [9:0] delta_p1i_tmp;// (p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)
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wire [9:0] delta_q1i_tmp;// (q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)
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wire [9:0] delta_q1i_tmp;// (q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)
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assign need_p1i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta);
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assign need_p1i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta);
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assign need_q1i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta);
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assign need_q1i = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta);
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assign p0_q0_sum = (need_p1i || need_q1i)? ({1'b0,p0_PRE} + {1'b0,q0_PRE} + 1):0;
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assign p0_q0_sum = (need_p1i || need_q1i)? ({1'b0,p0_PRE} + {1'b0,q0_PRE} + 1):0;
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assign neg_p1_shift = (need_p1i)? ({1'b1,~p1_PRE,1'b1} + 1):0;
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assign neg_p1_shift = (need_p1i)? ({1'b1,~p1_PRE,1'b1} + 1):0;
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assign neg_q1_shift = (need_q1i)? ({1'b1,~q1_PRE,1'b1} + 1):0;
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assign neg_q1_shift = (need_q1i)? ({1'b1,~q1_PRE,1'b1} + 1):0;
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assign delta_p1i_tmp = (need_p1i)? (p2_PRE + p0_q0_sum[8:1] + neg_p1_shift):0;
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assign delta_p1i_tmp = (need_p1i)? (p2_PRE + p0_q0_sum[8:1] + neg_p1_shift):0;
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assign delta_q1i_tmp = (need_q1i)? (q2_PRE + p0_q0_sum[8:1] + neg_q1_shift):0;
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assign delta_q1i_tmp = (need_q1i)? (q2_PRE + p0_q0_sum[8:1] + neg_q1_shift):0;
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assign delta_p1i = delta_p1i_tmp[9:1];
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assign delta_p1i = delta_p1i_tmp[9:1];
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assign delta_q1i = delta_q1i_tmp[9:1];
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assign delta_q1i = delta_q1i_tmp[9:1];
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wire [8:0] clip_to_c_0_delta,clip_to_c_p1_delta,clip_to_c_q1_delta;
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wire [8:0] clip_to_c_0_delta,clip_to_c_p1_delta,clip_to_c_q1_delta;
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wire [4:0] clip_to_c_0_c,clip_to_c_p1_c,clip_to_c_q1_c;
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wire [4:0] clip_to_c_0_c,clip_to_c_p1_c,clip_to_c_q1_c;
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wire [5:0] clip_to_c_0_out,clip_to_c_p1_out,clip_to_c_q1_out;
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wire [5:0] clip_to_c_0_out,clip_to_c_p1_out,clip_to_c_q1_out;
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clip_to_c clip_to_c_0 (.delta(clip_to_c_0_delta),.c(clip_to_c_0_c),.out(clip_to_c_0_out));
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clip_to_c clip_to_c_0 (.delta(clip_to_c_0_delta),.c(clip_to_c_0_c),.out(clip_to_c_0_out));
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clip_to_c clip_to_c_p1 (.delta(clip_to_c_p1_delta),.c(clip_to_c_p1_c),.out(clip_to_c_p1_out));
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clip_to_c clip_to_c_p1 (.delta(clip_to_c_p1_delta),.c(clip_to_c_p1_c),.out(clip_to_c_p1_out));
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clip_to_c clip_to_c_q1 (.delta(clip_to_c_q1_delta),.c(clip_to_c_q1_c),.out(clip_to_c_q1_out));
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clip_to_c clip_to_c_q1 (.delta(clip_to_c_q1_delta),.c(clip_to_c_q1_c),.out(clip_to_c_q1_out));
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assign clip_to_c_0_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)? delta_0i:0;
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assign clip_to_c_0_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)? delta_0i:0;
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assign clip_to_c_0_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)? c0:0;
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assign clip_to_c_0_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)? c0:0;
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assign clip_to_c_p1_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta)? delta_p1i:0;
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assign clip_to_c_p1_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta)? delta_p1i:0;
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assign clip_to_c_p1_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta)? c1:0;
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assign clip_to_c_p1_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && p2_m_p0_less_beta)? c1:0;
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assign clip_to_c_q1_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta)? delta_q1i:0;
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assign clip_to_c_q1_delta = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta)? delta_q1i:0;
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assign clip_to_c_q1_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta)? c1:0;
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assign clip_to_c_q1_c = (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4 && q2_m_q0_less_beta)? c1:0;
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// Pipelined parameters
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// Pipelined parameters
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reg [5:0] delta_0,delta_p1,delta_q1;
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reg [5:0] delta_0,delta_p1,delta_q1;
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always @ (posedge gclk_DF or negedge reset_n)
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always @ (posedge gclk_DF or negedge reset_n)
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if (reset_n == 1'b0)
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if (reset_n == 1'b0)
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begin delta_0 <= 0; delta_p1 <= 0; delta_q1 <= 0; end
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begin delta_0 <= 0; delta_p1 <= 0; delta_q1 <= 0; end
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else if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
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else if (bs_curr_PRE != 0 && bs_curr_PRE != 3'd4)
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begin
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begin
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delta_0 <= clip_to_c_0_out;
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delta_0 <= clip_to_c_0_out;
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delta_p1 <= (p2_m_p0_less_beta)? clip_to_c_p1_out:0;
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delta_p1 <= (p2_m_p0_less_beta)? clip_to_c_p1_out:0;
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delta_q1 <= (q2_m_q0_less_beta)? clip_to_c_q1_out:0;
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delta_q1 <= (q2_m_q0_less_beta)? clip_to_c_q1_out:0;
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end
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end
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reg p2_m_p0_less_beta_FIR,q2_m_q0_less_beta_FIR,p0_m_q0_less_alpha_shift_FIR;
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reg p2_m_p0_less_beta_FIR,q2_m_q0_less_beta_FIR,p0_m_q0_less_alpha_shift_FIR;
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reg lumaEdgeFlag_FIR,chromaEdgeFlag_FIR;
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reg lumaEdgeFlag_FIR,chromaEdgeFlag_FIR;
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reg [2:0] bs_curr_FIR;
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reg [2:0] bs_curr_FIR;
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reg [5:0] DF_edge_counter_FIR;
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reg [5:0] DF_edge_counter_FIR;
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reg [1:0] one_edge_counter_FIR;
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reg [1:0] one_edge_counter_FIR;
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reg [7:0] p0_FIR,p1_FIR,p2_FIR,p3_FIR;
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reg [7:0] p0_FIR,p1_FIR,p2_FIR,p3_FIR;
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reg [7:0] q0_FIR,q1_FIR,q2_FIR,q3_FIR;
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reg [7:0] q0_FIR,q1_FIR,q2_FIR,q3_FIR;
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always @ (posedge gclk_DF or negedge reset_n)
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always @ (posedge gclk_DF or negedge reset_n)
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if (reset_n == 1'b0)
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if (reset_n == 1'b0)
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begin
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begin
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p2_m_p0_less_beta_FIR <= 0; q2_m_q0_less_beta_FIR <= 0;
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p2_m_p0_less_beta_FIR <= 0; q2_m_q0_less_beta_FIR <= 0;
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p0_m_q0_less_alpha_shift_FIR <= 0;
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p0_m_q0_less_alpha_shift_FIR <= 0;
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bs_curr_FIR <= 0;
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bs_curr_FIR <= 0;
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lumaEdgeFlag_FIR <= 0; chromaEdgeFlag_FIR <= 0;
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lumaEdgeFlag_FIR <= 0; chromaEdgeFlag_FIR <= 0;
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DF_edge_counter_FIR <= 6'd48; one_edge_counter_FIR <= 2'd3;
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DF_edge_counter_FIR <= 6'd48; one_edge_counter_FIR <= 2'd3;
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p0_FIR <= 0; p1_FIR <= 0; p2_FIR <= 0; p3_FIR <= 0;
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p0_FIR <= 0; p1_FIR <= 0; p2_FIR <= 0; p3_FIR <= 0;
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q0_FIR <= 0; q1_FIR <= 0; q2_FIR <= 0; q3_FIR <= 0;
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q0_FIR <= 0; q1_FIR <= 0; q2_FIR <= 0; q3_FIR <= 0;
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end
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end
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else
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else
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begin
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begin
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p2_m_p0_less_beta_FIR <= p2_m_p0_less_beta;
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p2_m_p0_less_beta_FIR <= p2_m_p0_less_beta;
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q2_m_q0_less_beta_FIR <= q2_m_q0_less_beta;
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q2_m_q0_less_beta_FIR <= q2_m_q0_less_beta;
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p0_m_q0_less_alpha_shift_FIR <= p0_m_q0_less_alpha_shift;
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p0_m_q0_less_alpha_shift_FIR <= p0_m_q0_less_alpha_shift;
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bs_curr_FIR <= bs_curr_PRE;
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bs_curr_FIR <= bs_curr_PRE;
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lumaEdgeFlag_FIR <= lumaEdgeFlag_PRE; chromaEdgeFlag_FIR <= chromaEdgeFlag_PRE;
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lumaEdgeFlag_FIR <= lumaEdgeFlag_PRE; chromaEdgeFlag_FIR <= chromaEdgeFlag_PRE;
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DF_edge_counter_FIR <= DF_edge_counter_PRE; one_edge_counter_FIR <= one_edge_counter_PRE;
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DF_edge_counter_FIR <= DF_edge_counter_PRE; one_edge_counter_FIR <= one_edge_counter_PRE;
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p0_FIR <= p0_PRE; p1_FIR <= p1_PRE; p2_FIR <= p2_PRE; p3_FIR <= p3_PRE;
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p0_FIR <= p0_PRE; p1_FIR <= p1_PRE; p2_FIR <= p2_PRE; p3_FIR <= p3_PRE;
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q0_FIR <= q0_PRE; q1_FIR <= q1_PRE; q2_FIR <= q2_PRE; q3_FIR <= q3_PRE;
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q0_FIR <= q0_PRE; q1_FIR <= q1_PRE; q2_FIR <= q2_PRE; q3_FIR <= q3_PRE;
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end
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end
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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//4.FIR: filtering
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//4.FIR: filtering
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//---------------------------------------------------------------------
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//---------------------------------------------------------------------
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reg [7:0] bs4_strong_FIR_p0,bs4_strong_FIR_p1,bs4_strong_FIR_p2,bs4_strong_FIR_p3;
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reg [7:0] bs4_strong_FIR_p0,bs4_strong_FIR_p1,bs4_strong_FIR_p2,bs4_strong_FIR_p3;
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reg [7:0] bs4_strong_FIR_q0,bs4_strong_FIR_q1,bs4_strong_FIR_q2,bs4_strong_FIR_q3;
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reg [7:0] bs4_strong_FIR_q0,bs4_strong_FIR_q1,bs4_strong_FIR_q2,bs4_strong_FIR_q3;
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wire [7:0] bs4_strong_FIR_p0_out,bs4_strong_FIR_p1_out,bs4_strong_FIR_p2_out;
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wire [7:0] bs4_strong_FIR_p0_out,bs4_strong_FIR_p1_out,bs4_strong_FIR_p2_out;
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wire [7:0] bs4_strong_FIR_q0_out,bs4_strong_FIR_q1_out,bs4_strong_FIR_q2_out;
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wire [7:0] bs4_strong_FIR_q0_out,bs4_strong_FIR_q1_out,bs4_strong_FIR_q2_out;
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bs4_strong_FIR bs4_strong_FIR (
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bs4_strong_FIR bs4_strong_FIR (
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.p0(bs4_strong_FIR_p0),.p1(bs4_strong_FIR_p1),.p2(bs4_strong_FIR_p2),.p3(bs4_strong_FIR_p3),
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.p0(bs4_strong_FIR_p0),.p1(bs4_strong_FIR_p1),.p2(bs4_strong_FIR_p2),.p3(bs4_strong_FIR_p3),
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.q0(bs4_strong_FIR_q0),.q1(bs4_strong_FIR_q1),.q2(bs4_strong_FIR_q2),.q3(bs4_strong_FIR_q3),
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.q0(bs4_strong_FIR_q0),.q1(bs4_strong_FIR_q1),.q2(bs4_strong_FIR_q2),.q3(bs4_strong_FIR_q3),
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.p0_out(bs4_strong_FIR_p0_out),.p1_out(bs4_strong_FIR_p1_out),.p2_out(bs4_strong_FIR_p2_out),
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.p0_out(bs4_strong_FIR_p0_out),.p1_out(bs4_strong_FIR_p1_out),.p2_out(bs4_strong_FIR_p2_out),
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.q0_out(bs4_strong_FIR_q0_out),.q1_out(bs4_strong_FIR_q1_out),.q2_out(bs4_strong_FIR_q2_out)
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.q0_out(bs4_strong_FIR_q0_out),.q1_out(bs4_strong_FIR_q1_out),.q2_out(bs4_strong_FIR_q2_out)
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);
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);
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reg [7:0] bs4_weak_FIR0_a,bs4_weak_FIR0_b,bs4_weak_FIR0_c;
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reg [7:0] bs4_weak_FIR0_a,bs4_weak_FIR0_b,bs4_weak_FIR0_c;
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reg [7:0] bs4_weak_FIR1_a,bs4_weak_FIR1_b,bs4_weak_FIR1_c;
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reg [7:0] bs4_weak_FIR1_a,bs4_weak_FIR1_b,bs4_weak_FIR1_c;
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wire [7:0] bs4_weak_FIR0_out,bs4_weak_FIR1_out;
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wire [7:0] bs4_weak_FIR0_out,bs4_weak_FIR1_out;
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bs4_weak_FIR bs4_weak_FIR0 (.a(bs4_weak_FIR0_a),.b(bs4_weak_FIR0_b),.c(bs4_weak_FIR0_c),.out(bs4_weak_FIR0_out));
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bs4_weak_FIR bs4_weak_FIR0 (.a(bs4_weak_FIR0_a),.b(bs4_weak_FIR0_b),.c(bs4_weak_FIR0_c),.out(bs4_weak_FIR0_out));
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bs4_weak_FIR bs4_weak_FIR1 (.a(bs4_weak_FIR1_a),.b(bs4_weak_FIR1_b),.c(bs4_weak_FIR1_c),.out(bs4_weak_FIR1_out));
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bs4_weak_FIR bs4_weak_FIR1 (.a(bs4_weak_FIR1_a),.b(bs4_weak_FIR1_b),.c(bs4_weak_FIR1_c),.out(bs4_weak_FIR1_out));
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// bs = 4
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// bs = 4
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always @ (bs_curr_FIR or lumaEdgeFlag_FIR or p0_m_q0_less_alpha_shift_FIR
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always @ (bs_curr_FIR or lumaEdgeFlag_FIR or p0_m_q0_less_alpha_shift_FIR
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or p2_m_p0_less_beta_FIR or q2_m_q0_less_beta_FIR
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or p2_m_p0_less_beta_FIR or q2_m_q0_less_beta_FIR
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or p0_FIR or p1_FIR or p2_FIR or p3_FIR or q0_FIR or q1_FIR or q2_FIR or q3_FIR)
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or p0_FIR or p1_FIR or p2_FIR or p3_FIR or q0_FIR or q1_FIR or q2_FIR or q3_FIR)
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if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1 && p0_m_q0_less_alpha_shift_FIR
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if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1 && p0_m_q0_less_alpha_shift_FIR
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&& (p2_m_p0_less_beta_FIR || q2_m_q0_less_beta_FIR))
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&& (p2_m_p0_less_beta_FIR || q2_m_q0_less_beta_FIR))
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begin
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begin
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bs4_strong_FIR_p0 <= p0_FIR; bs4_strong_FIR_p1 <= p1_FIR;
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bs4_strong_FIR_p0 <= p0_FIR; bs4_strong_FIR_p1 <= p1_FIR;
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bs4_strong_FIR_p2 <= p2_FIR; bs4_strong_FIR_p3 <= p3_FIR;
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bs4_strong_FIR_p2 <= p2_FIR; bs4_strong_FIR_p3 <= p3_FIR;
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bs4_strong_FIR_q0 <= q0_FIR; bs4_strong_FIR_q1 <= q1_FIR;
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bs4_strong_FIR_q0 <= q0_FIR; bs4_strong_FIR_q1 <= q1_FIR;
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bs4_strong_FIR_q2 <= q2_FIR; bs4_strong_FIR_q3 <= q3_FIR;
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bs4_strong_FIR_q2 <= q2_FIR; bs4_strong_FIR_q3 <= q3_FIR;
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end
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end
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else
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else
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begin
|
begin
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bs4_strong_FIR_p0 <= 0; bs4_strong_FIR_p1 <= 0; bs4_strong_FIR_p2 <= 0; bs4_strong_FIR_p3 <= 0;
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bs4_strong_FIR_p0 <= 0; bs4_strong_FIR_p1 <= 0; bs4_strong_FIR_p2 <= 0; bs4_strong_FIR_p3 <= 0;
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bs4_strong_FIR_q0 <= 0; bs4_strong_FIR_q1 <= 0; bs4_strong_FIR_q2 <= 0; bs4_strong_FIR_q3 <= 0;
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bs4_strong_FIR_q0 <= 0; bs4_strong_FIR_q1 <= 0; bs4_strong_FIR_q2 <= 0; bs4_strong_FIR_q3 <= 0;
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end
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end
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always @ (bs_curr_FIR or lumaEdgeFlag_FIR or chromaEdgeFlag_FIR
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always @ (bs_curr_FIR or lumaEdgeFlag_FIR or chromaEdgeFlag_FIR
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or p2_m_p0_less_beta_FIR or p0_m_q0_less_alpha_shift_FIR
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or p2_m_p0_less_beta_FIR or p0_m_q0_less_alpha_shift_FIR
|
or p1_FIR or p0_FIR or q1_FIR)
|
or p1_FIR or p0_FIR or q1_FIR)
|
if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1)
|
if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1)
|
begin
|
begin
|
if (!p2_m_p0_less_beta_FIR || !p0_m_q0_less_alpha_shift_FIR)
|
if (!p2_m_p0_less_beta_FIR || !p0_m_q0_less_alpha_shift_FIR)
|
begin
|
begin
|
bs4_weak_FIR0_a <= p1_FIR; bs4_weak_FIR0_b <= p0_FIR; bs4_weak_FIR0_c <= q1_FIR;
|
bs4_weak_FIR0_a <= p1_FIR; bs4_weak_FIR0_b <= p0_FIR; bs4_weak_FIR0_c <= q1_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
bs4_weak_FIR0_a <= 0; bs4_weak_FIR0_b <= 0; bs4_weak_FIR0_c <= 0;
|
bs4_weak_FIR0_a <= 0; bs4_weak_FIR0_b <= 0; bs4_weak_FIR0_c <= 0;
|
end
|
end
|
end
|
end
|
else if (bs_curr_FIR == 3'd4 && chromaEdgeFlag_FIR == 1'b1)
|
else if (bs_curr_FIR == 3'd4 && chromaEdgeFlag_FIR == 1'b1)
|
begin
|
begin
|
bs4_weak_FIR0_a <= p1_FIR; bs4_weak_FIR0_b <= p0_FIR; bs4_weak_FIR0_c <= q1_FIR;
|
bs4_weak_FIR0_a <= p1_FIR; bs4_weak_FIR0_b <= p0_FIR; bs4_weak_FIR0_c <= q1_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
bs4_weak_FIR0_a <= 0; bs4_weak_FIR0_b <= 0; bs4_weak_FIR0_c <= 0;
|
bs4_weak_FIR0_a <= 0; bs4_weak_FIR0_b <= 0; bs4_weak_FIR0_c <= 0;
|
end
|
end
|
always @ (bs_curr_FIR or lumaEdgeFlag_FIR or chromaEdgeFlag_FIR
|
always @ (bs_curr_FIR or lumaEdgeFlag_FIR or chromaEdgeFlag_FIR
|
or q2_m_q0_less_beta_FIR or p0_m_q0_less_alpha_shift_FIR
|
or q2_m_q0_less_beta_FIR or p0_m_q0_less_alpha_shift_FIR
|
or q1_FIR or q0_FIR or p1_FIR)
|
or q1_FIR or q0_FIR or p1_FIR)
|
if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1)
|
if (bs_curr_FIR == 3'd4 && lumaEdgeFlag_FIR == 1'b1)
|
begin
|
begin
|
if (!q2_m_q0_less_beta_FIR || !p0_m_q0_less_alpha_shift_FIR)
|
if (!q2_m_q0_less_beta_FIR || !p0_m_q0_less_alpha_shift_FIR)
|
begin
|
begin
|
bs4_weak_FIR1_a <= q1_FIR; bs4_weak_FIR1_b <= q0_FIR; bs4_weak_FIR1_c <= p1_FIR;
|
bs4_weak_FIR1_a <= q1_FIR; bs4_weak_FIR1_b <= q0_FIR; bs4_weak_FIR1_c <= p1_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
bs4_weak_FIR1_a <= 0; bs4_weak_FIR1_b <= 0; bs4_weak_FIR1_c <= 0;
|
bs4_weak_FIR1_a <= 0; bs4_weak_FIR1_b <= 0; bs4_weak_FIR1_c <= 0;
|
end
|
end
|
end
|
end
|
else if (bs_curr_FIR == 3'd4 && chromaEdgeFlag_FIR == 1'b1)
|
else if (bs_curr_FIR == 3'd4 && chromaEdgeFlag_FIR == 1'b1)
|
begin
|
begin
|
bs4_weak_FIR1_a <= q1_FIR; bs4_weak_FIR1_b <= q0_FIR; bs4_weak_FIR1_c <= p1_FIR;
|
bs4_weak_FIR1_a <= q1_FIR; bs4_weak_FIR1_b <= q0_FIR; bs4_weak_FIR1_c <= p1_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
bs4_weak_FIR1_a <= 0; bs4_weak_FIR1_b <= 0; bs4_weak_FIR1_c <= 0;
|
bs4_weak_FIR1_a <= 0; bs4_weak_FIR1_b <= 0; bs4_weak_FIR1_c <= 0;
|
end
|
end
|
//bs = 1 ~ 3,for p0 and q0 filtering
|
//bs = 1 ~ 3,for p0 and q0 filtering
|
wire [9:0] p0_MW_tmp,q0_MW_tmp;
|
wire [9:0] p0_MW_tmp,q0_MW_tmp;
|
wire [7:0] p0_MW_clipped,q0_MW_clipped;
|
wire [7:0] p0_MW_clipped,q0_MW_clipped;
|
assign p0_MW_tmp = (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)? ({2'b0,p0_FIR} + {{4{delta_0[5]}},delta_0}):0;
|
assign p0_MW_tmp = (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)? ({2'b0,p0_FIR} + {{4{delta_0[5]}},delta_0}):0;
|
assign q0_MW_tmp = (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)? ({2'b0,q0_FIR} +
|
assign q0_MW_tmp = (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)? ({2'b0,q0_FIR} +
|
{~delta_0[5],~delta_0[5],~delta_0[5],~delta_0[5],~delta_0} + 1):0;
|
{~delta_0[5],~delta_0[5],~delta_0[5],~delta_0[5],~delta_0} + 1):0;
|
assign p0_MW_clipped = (p0_MW_tmp[9] == 1'b1)? 0:((p0_MW_tmp[8] == 1'b1)? 8'd255:p0_MW_tmp[7:0]);
|
assign p0_MW_clipped = (p0_MW_tmp[9] == 1'b1)? 0:((p0_MW_tmp[8] == 1'b1)? 8'd255:p0_MW_tmp[7:0]);
|
assign q0_MW_clipped = (q0_MW_tmp[9] == 1'b1)? 0:((q0_MW_tmp[8] == 1'b1)? 8'd255:q0_MW_tmp[7:0]);
|
assign q0_MW_clipped = (q0_MW_tmp[9] == 1'b1)? 0:((q0_MW_tmp[8] == 1'b1)? 8'd255:q0_MW_tmp[7:0]);
|
|
|
// Pipelined parameters
|
// Pipelined parameters
|
reg [7:0] p0_MW,p1_MW,p2_MW,p3_MW;
|
reg [7:0] p0_MW,p1_MW,p2_MW,p3_MW;
|
reg [7:0] q0_MW,q1_MW,q2_MW,q3_MW;
|
reg [7:0] q0_MW,q1_MW,q2_MW,q3_MW;
|
always @ (posedge gclk_DF or negedge reset_n)
|
always @ (posedge gclk_DF or negedge reset_n)
|
if (reset_n == 1'b0)
|
if (reset_n == 1'b0)
|
begin
|
begin
|
p0_MW <= 0; p1_MW <= 0; p2_MW <= 0;
|
p0_MW <= 0; p1_MW <= 0; p2_MW <= 0;
|
q0_MW <= 0; q1_MW <= 0; q2_MW <= 0;
|
q0_MW <= 0; q1_MW <= 0; q2_MW <= 0;
|
end
|
end
|
else if (bs_curr_FIR == 3'd4)
|
else if (bs_curr_FIR == 3'd4)
|
begin
|
begin
|
if (lumaEdgeFlag_FIR)
|
if (lumaEdgeFlag_FIR)
|
begin
|
begin
|
p0_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
p0_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
bs4_strong_FIR_p0_out:bs4_weak_FIR0_out;
|
bs4_strong_FIR_p0_out:bs4_weak_FIR0_out;
|
q0_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
q0_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
bs4_strong_FIR_q0_out:bs4_weak_FIR1_out;
|
bs4_strong_FIR_q0_out:bs4_weak_FIR1_out;
|
p1_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
p1_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
bs4_strong_FIR_p1_out:p1_FIR;
|
bs4_strong_FIR_p1_out:p1_FIR;
|
q1_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
q1_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
bs4_strong_FIR_q1_out:q1_FIR;
|
bs4_strong_FIR_q1_out:q1_FIR;
|
p2_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
p2_MW <= (p0_m_q0_less_alpha_shift_FIR && p2_m_p0_less_beta_FIR)?
|
bs4_strong_FIR_p2_out:p2_FIR;
|
bs4_strong_FIR_p2_out:p2_FIR;
|
q2_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
q2_MW <= (p0_m_q0_less_alpha_shift_FIR && q2_m_q0_less_beta_FIR)?
|
bs4_strong_FIR_q2_out:q2_FIR;
|
bs4_strong_FIR_q2_out:q2_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
p0_MW <= bs4_weak_FIR0_out; q0_MW <= bs4_weak_FIR1_out;
|
p0_MW <= bs4_weak_FIR0_out; q0_MW <= bs4_weak_FIR1_out;
|
p1_MW <= p1_FIR; q1_MW <= q1_FIR;
|
p1_MW <= p1_FIR; q1_MW <= q1_FIR;
|
p2_MW <= p2_FIR; q2_MW <= q2_FIR;
|
p2_MW <= p2_FIR; q2_MW <= q2_FIR;
|
end
|
end
|
end
|
end
|
else if (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)
|
else if (bs_curr_FIR != 0 && bs_curr_FIR != 3'd4)
|
begin
|
begin
|
p0_MW <= p0_MW_clipped;
|
p0_MW <= p0_MW_clipped;
|
q0_MW <= q0_MW_clipped;
|
q0_MW <= q0_MW_clipped;
|
p1_MW <= (lumaEdgeFlag_FIR)? ((p2_m_p0_less_beta_FIR)? (p1_FIR + {delta_p1[5],delta_p1[5],delta_p1}):p1_FIR):p1_FIR;
|
p1_MW <= (lumaEdgeFlag_FIR)? ((p2_m_p0_less_beta_FIR)? (p1_FIR + {delta_p1[5],delta_p1[5],delta_p1}):p1_FIR):p1_FIR;
|
q1_MW <= (lumaEdgeFlag_FIR)? ((q2_m_q0_less_beta_FIR)? (q1_FIR + {delta_q1[5],delta_q1[5],delta_q1}):q1_FIR):q1_FIR;
|
q1_MW <= (lumaEdgeFlag_FIR)? ((q2_m_q0_less_beta_FIR)? (q1_FIR + {delta_q1[5],delta_q1[5],delta_q1}):q1_FIR):q1_FIR;
|
p2_MW <= p2_FIR;
|
p2_MW <= p2_FIR;
|
q2_MW <= q2_FIR;
|
q2_MW <= q2_FIR;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
p0_MW <= p0_FIR; p1_MW <= p1_FIR; p2_MW <= p2_FIR;
|
p0_MW <= p0_FIR; p1_MW <= p1_FIR; p2_MW <= p2_FIR;
|
q0_MW <= q0_FIR; q1_MW <= q1_FIR; q2_MW <= q2_FIR;
|
q0_MW <= q0_FIR; q1_MW <= q1_FIR; q2_MW <= q2_FIR;
|
end
|
end
|
|
|
reg [2:0] bs_curr_MW;
|
reg [2:0] bs_curr_MW;
|
reg [5:0] DF_edge_counter_MW;
|
reg [5:0] DF_edge_counter_MW;
|
reg [1:0] one_edge_counter_MW;
|
reg [1:0] one_edge_counter_MW;
|
always @ (posedge gclk_DF or negedge reset_n)
|
always @ (posedge gclk_DF or negedge reset_n)
|
if (reset_n == 1'b0)
|
if (reset_n == 1'b0)
|
begin
|
begin
|
DF_edge_counter_MW <= 6'd48; one_edge_counter_MW <= 2'd3;
|
DF_edge_counter_MW <= 6'd48; one_edge_counter_MW <= 2'd3;
|
p3_MW <= 0; q3_MW <= 0;
|
p3_MW <= 0; q3_MW <= 0;
|
bs_curr_MW <= 0;
|
bs_curr_MW <= 0;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
DF_edge_counter_MW <= DF_edge_counter_FIR; p3_MW <= p3_FIR;
|
DF_edge_counter_MW <= DF_edge_counter_FIR; p3_MW <= p3_FIR;
|
one_edge_counter_MW <= one_edge_counter_FIR; q3_MW <= q3_FIR;
|
one_edge_counter_MW <= one_edge_counter_FIR; q3_MW <= q3_FIR;
|
bs_curr_MW <= bs_curr_FIR;
|
bs_curr_MW <= bs_curr_FIR;
|
end
|
end
|
endmodule
|
endmodule
|
|
|
module absolute (a,b,out);
|
module absolute (a,b,out);
|
input [7:0] a,b;
|
input [7:0] a,b;
|
output [7:0] out;
|
output [7:0] out;
|
|
|
assign out = (a > b)? (a - b):(b - a);
|
assign out = (a > b)? (a - b):(b - a);
|
endmodule
|
endmodule
|
|
|
module clip_to_c (delta,c,out);
|
module clip_to_c (delta,c,out);
|
input [8:0] delta;
|
input [8:0] delta;
|
input [4:0] c; // 0 ~ 25, [4:0]
|
input [4:0] c; // 0 ~ 25, [4:0]
|
output [5:0] out; // -25 ~ 25, [5:0]
|
output [5:0] out; // -25 ~ 25, [5:0]
|
reg [5:0] out;
|
reg [5:0] out;
|
|
|
wire [5:0] neg_c; //-25 ~ 25,[5:0]
|
wire [5:0] neg_c; //-25 ~ 25,[5:0]
|
assign neg_c = {1'b1,~c} + 1;
|
assign neg_c = {1'b1,~c} + 1;
|
|
|
always @ (delta or c or neg_c)
|
always @ (delta or c or neg_c)
|
if (delta[8] == 1'b0) //delta is positive
|
if (delta[8] == 1'b0) //delta is positive
|
out <= (delta[7:0] > {3'b0,c})? {1'b0,c}:delta[5:0];
|
out <= (delta[7:0] > {3'b0,c})? {1'b0,c}:delta[5:0];
|
else //delta is negtive
|
else //delta is negtive
|
out <= (delta[7:0] < {2'b11,neg_c})? {1'b1,neg_c}:delta[5:0];
|
out <= (delta[7:0] < {2'b11,neg_c})? {1'b1,neg_c}:delta[5:0];
|
endmodule
|
endmodule
|
|
|
module bs4_strong_FIR (p0,p1,p2,p3,q0,q1,q2,q3,p0_out,p1_out,p2_out,q0_out,q1_out,q2_out);
|
module bs4_strong_FIR (p0,p1,p2,p3,q0,q1,q2,q3,p0_out,p1_out,p2_out,q0_out,q1_out,q2_out);
|
input [7:0] p0,p1,p2,p3,q0,q1,q2,q3;
|
input [7:0] p0,p1,p2,p3,q0,q1,q2,q3;
|
output [7:0] p0_out,p1_out,p2_out,q0_out,q1_out,q2_out;
|
output [7:0] p0_out,p1_out,p2_out,q0_out,q1_out,q2_out;
|
|
|
wire [8:0] sum_p2p3,sum_p1p2,sum_p0q0,sum_p1q1,sum_q1q2,sum_q2q3;
|
wire [8:0] sum_p2p3,sum_p1p2,sum_p0q0,sum_p1q1,sum_q1q2,sum_q2q3;
|
assign sum_p2p3 = p2 + p3;
|
assign sum_p2p3 = p2 + p3;
|
assign sum_p1p2 = p1 + p2;
|
assign sum_p1p2 = p1 + p2;
|
assign sum_p0q0 = p0 + q0;
|
assign sum_p0q0 = p0 + q0;
|
assign sum_p1q1 = p1 + q1;
|
assign sum_p1q1 = p1 + q1;
|
assign sum_q1q2 = q1 + q2;
|
assign sum_q1q2 = q1 + q2;
|
assign sum_q2q3 = q2 + q3;
|
assign sum_q2q3 = q2 + q3;
|
|
|
wire [9:0] sum_p2p3_x2,sum_q2q3_x2;
|
wire [9:0] sum_p2p3_x2,sum_q2q3_x2;
|
assign sum_p2p3_x2 = {sum_p2p3,1'b0};
|
assign sum_p2p3_x2 = {sum_p2p3,1'b0};
|
assign sum_q2q3_x2 = {sum_q2q3,1'b0};
|
assign sum_q2q3_x2 = {sum_q2q3,1'b0};
|
|
|
wire [9:0] sum_0,sum_1,sum_2;
|
wire [9:0] sum_0,sum_1,sum_2;
|
assign sum_0 = sum_p0q0 + sum_p1p2;
|
assign sum_0 = sum_p0q0 + sum_p1p2;
|
assign sum_1 = sum_p0q0 + sum_p1q1;
|
assign sum_1 = sum_p0q0 + sum_p1q1;
|
assign sum_2 = sum_p0q0 + sum_q1q2;
|
assign sum_2 = sum_p0q0 + sum_q1q2;
|
|
|
wire [10:0] p0_tmp,p2_tmp,q0_tmp,q2_tmp;
|
wire [10:0] p0_tmp,p2_tmp,q0_tmp,q2_tmp;
|
assign p0_tmp = sum_0 + sum_1;
|
assign p0_tmp = sum_0 + sum_1;
|
assign p2_tmp = sum_p2p3_x2 + sum_0;
|
assign p2_tmp = sum_p2p3_x2 + sum_0;
|
assign q0_tmp = sum_1 + sum_2;
|
assign q0_tmp = sum_1 + sum_2;
|
assign q2_tmp = sum_q2q3_x2 + sum_2;
|
assign q2_tmp = sum_q2q3_x2 + sum_2;
|
|
|
assign p0_out = (p0_tmp + 4) >> 3;
|
assign p0_out = (p0_tmp + 4) >> 3;
|
assign p1_out = (sum_0 + 2) >> 2;
|
assign p1_out = (sum_0 + 2) >> 2;
|
assign p2_out = (p2_tmp + 4) >> 3;
|
assign p2_out = (p2_tmp + 4) >> 3;
|
assign q0_out = (q0_tmp + 4) >> 3;
|
assign q0_out = (q0_tmp + 4) >> 3;
|
assign q1_out = (sum_2 + 2) >> 2;
|
assign q1_out = (sum_2 + 2) >> 2;
|
assign q2_out = (q2_tmp + 4) >> 3;
|
assign q2_out = (q2_tmp + 4) >> 3;
|
endmodule
|
endmodule
|
|
|
module bs4_weak_FIR (a,b,c,out);
|
module bs4_weak_FIR (a,b,c,out);
|
input [7:0] a,b,c;
|
input [7:0] a,b,c;
|
output [7:0] out;
|
output [7:0] out;
|
|
|
wire [8:0] a_x2;
|
wire [8:0] a_x2;
|
assign a_x2 = {a,1'b0};
|
assign a_x2 = {a,1'b0};
|
|
|
wire [8:0] sum_bc;
|
wire [8:0] sum_bc;
|
assign sum_bc = b + c;
|
assign sum_bc = b + c;
|
|
|
wire [9:0] out_tmp;
|
wire [9:0] out_tmp;
|
assign out_tmp = (a_x2 + sum_bc) + 2;
|
assign out_tmp = (a_x2 + sum_bc) + 2;
|
assign out = out_tmp[9:2];
|
assign out = out_tmp[9:2];
|
endmodule
|
endmodule
|
|
|