tc_tilemem.v
17.5 KB
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/**************************************************************************
* *
* Copyright (C) 1994, Silicon Graphics, Inc. *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Silicon Graphics, Inc., and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Silicon Graphics, Inc. *
* *
*************************************************************************/
// $Id: tc_tilemem.v,v 1.1 2002/03/28 00:26:13 berndt Exp $
////////////////////////////////////////////////////////////////////////
//
// Project Reality
//
// module: tc_tilemem
// description: Tile Memory module. 8 words x 95 bits
//
// designer: Tony DeLaurier
// date: 7/22/94
//
////////////////////////////////////////////////////////////////////////
module tc_tilemem (gclk, tile_adrs, tile_data, we_tile_size, we_tile_attr,
l_tile, tex_type_2d, tex_size_2d, line_2d, tmem_adrs_2d,
palette_4d, clamp_t_1d, mir_t_1d, mask_t_1d, shift_t,
clamp_s_1d, mir_s_1d, mask_s_1d, shift_s, sl, sh, tl, th);
input gclk; // RDP gated clock
input [2:0] tile_adrs; // tile write address
input [47:0] tile_data; // tile input data
input we_tile_size; // write enable for tile size data
input we_tile_attr; // write enable for tile attribute data
input [2:0] l_tile; // tile index into tile memory
output [2:0] tex_type_2d; // tile texel type
output [1:0] tex_size_2d; // tile texel size
output [8:0] line_2d; // line width in 64-bit words
output [8:0] tmem_adrs_2d; // tmem start address
output [3:0] palette_4d; // palette for 4-bit color index
output clamp_t_1d; // coord. clamp enabled
output mir_t_1d; // enable mirror
output [3:0] mask_t_1d; // coord. mask
output [3:0] shift_t; // right shift
output clamp_s_1d; // coord. clamp enabled
output mir_s_1d; // enable mirror
output [3:0] mask_s_1d; // coord. mask
output [3:0] shift_s; // right shift
output [11:0] sl; // tile offset in image space
output [11:0] sh; // tile end in image space
output [11:0] tl; // tile offset in image space
output [11:0] th; // tile end in image space
reg [2:0] tex_type, // tile texel type
tex_type_1d,
tex_type_2d;
reg [1:0] tex_size, // tile texel size
tex_size_1d,
tex_size_2d;
reg [8:0] line, // line width in 64-bit words
line_1d,
line_2d;
reg [8:0] tmem_adrs, // tmem start address
tmem_adrs_1d,
tmem_adrs_2d;
reg [3:0] palette, // palette for 4-bit color index
palette_1d,
palette_2d,
palette_3d,
palette_4d;
reg clamp_t, clamp_t_1d; // coord. clamp enabled
reg mir_t, mir_t_1d; // enable mirror
reg [3:0] mask_t, mask_t_1d; // coord. mask
reg [3:0] shift_t; // right shift
reg clamp_s, clamp_s_1d; // coord. clamp enabled
reg mir_s, mir_s_1d; // enable mirror
reg [3:0] mask_s, mask_s_1d; // coord. mask
reg [3:0] shift_s; // right shift
reg [11:0] sl; // tile offset in image space
reg [11:0] sh; // tile end in image space
reg [11:0] tl; // tile offset in image space
reg [11:0] th; // tile end in image space
reg [22:0] memory_attr_msb0; // attribute memory msb's
reg [22:0] memory_attr_msb1;
reg [22:0] memory_attr_msb2;
reg [22:0] memory_attr_msb3;
reg [22:0] memory_attr_msb4;
reg [22:0] memory_attr_msb5;
reg [22:0] memory_attr_msb6;
reg [22:0] memory_attr_msb7;
reg [23:0] memory_attr_lsb0; // attribute memory lsb's
reg [23:0] memory_attr_lsb1;
reg [23:0] memory_attr_lsb2;
reg [23:0] memory_attr_lsb3;
reg [23:0] memory_attr_lsb4;
reg [23:0] memory_attr_lsb5;
reg [23:0] memory_attr_lsb6;
reg [23:0] memory_attr_lsb7;
reg [23:0] memory_size_msb0; // size memory msb's
reg [23:0] memory_size_msb1;
reg [23:0] memory_size_msb2;
reg [23:0] memory_size_msb3;
reg [23:0] memory_size_msb4;
reg [23:0] memory_size_msb5;
reg [23:0] memory_size_msb6;
reg [23:0] memory_size_msb7;
reg [23:0] memory_size_lsb0; // size memory lsb's
reg [23:0] memory_size_lsb1;
reg [23:0] memory_size_lsb2;
reg [23:0] memory_size_lsb3;
reg [23:0] memory_size_lsb4;
reg [23:0] memory_size_lsb5;
reg [23:0] memory_size_lsb6;
reg [23:0] memory_size_lsb7;
// tilemem array internal variables (MR)
reg [2:0] tile_adrs_l1; // tile write address latches
reg [47:0] tile_data_ireg; // tile input data registers
reg we_tile_attr_l1, we_tile_size_l1; // we latches
wire [22:0] tile_data_ireg_msb_at; // tile input data (23-bit)
wire [23:0] tile_data_ireg_msb_sz; // tile input data (24-bit)
wire [23:0] tile_data_ireg_lsb; // tile input data (24-bit)
reg [7:0] decode; // address decode
wire [7:0] ta_wrd; // word select tile attribute mem
wire [7:0] ta_en; // after gating with gclk
wire [7:0] ts_wrd; // word select tile size mem
wire [7:0] ts_en; // after gating with gclk
reg [22:0] rd_data_attr_msb; // attribute msb's read data
reg [23:0] rd_data_attr_lsb; // attribute lsb's read data
reg [23:0] rd_data_size_msb; // size msb's read data
reg [23:0] rd_data_size_lsb; // size lsb's read data
// memory data input register
always @(posedge gclk)
begin
tile_data_ireg <= tile_data;
end // always
assign tile_data_ireg_msb_at = tile_data_ireg[46:24];
assign tile_data_ireg_msb_sz = tile_data_ireg[47:24];
assign tile_data_ireg_lsb = tile_data_ireg[23:0];
// we and address input latches
always @(gclk or we_tile_attr or we_tile_size or tile_adrs)
begin
if (!gclk) begin
tile_adrs_l1 = tile_adrs;
we_tile_attr_l1 = we_tile_attr;
we_tile_size_l1 = we_tile_size;
end
end // always
// decode the tile address
always @(tile_adrs_l1)
begin
case (tile_adrs_l1[2:0])
3'h0: decode[7:0] = 8'h01;
3'h1: decode[7:0] = 8'h02;
3'h2: decode[7:0] = 8'h04;
3'h3: decode[7:0] = 8'h08;
3'h4: decode[7:0] = 8'h10;
3'h5: decode[7:0] = 8'h20;
3'h6: decode[7:0] = 8'h40;
3'h7: decode[7:0] = 8'h80;
default: decode[7:0] = 8'hx;
endcase
end
assign ta_wrd[7:0] = {8{we_tile_attr_l1}} & decode[7:0];
nd02d2 ta_nd7 (.a1(gclk), .a2(ta_wrd[7]), .zn(ta_en[7]));
nd02d2 ta_nd6 (.a1(gclk), .a2(ta_wrd[6]), .zn(ta_en[6]));
nd02d2 ta_nd5 (.a1(gclk), .a2(ta_wrd[5]), .zn(ta_en[5]));
nd02d2 ta_nd4 (.a1(gclk), .a2(ta_wrd[4]), .zn(ta_en[4]));
nd02d2 ta_nd3 (.a1(gclk), .a2(ta_wrd[3]), .zn(ta_en[3]));
nd02d2 ta_nd2 (.a1(gclk), .a2(ta_wrd[2]), .zn(ta_en[2]));
nd02d2 ta_nd1 (.a1(gclk), .a2(ta_wrd[1]), .zn(ta_en[1]));
nd02d2 ta_nd0 (.a1(gclk), .a2(ta_wrd[0]), .zn(ta_en[0]));
in01d5 ta_msb_in7 (.i(ta_en[7]), .zn(ta_en_msb7));
in01d5 ta_msb_in6 (.i(ta_en[6]), .zn(ta_en_msb6));
in01d5 ta_msb_in5 (.i(ta_en[5]), .zn(ta_en_msb5));
in01d5 ta_msb_in4 (.i(ta_en[4]), .zn(ta_en_msb4));
in01d5 ta_msb_in3 (.i(ta_en[3]), .zn(ta_en_msb3));
in01d5 ta_msb_in2 (.i(ta_en[2]), .zn(ta_en_msb2));
in01d5 ta_msb_in1 (.i(ta_en[1]), .zn(ta_en_msb1));
in01d5 ta_msb_in0 (.i(ta_en[0]), .zn(ta_en_msb0));
in01d5 ta_lsb_in7 (.i(ta_en[7]), .zn(ta_en_lsb7));
in01d5 ta_lsb_in6 (.i(ta_en[6]), .zn(ta_en_lsb6));
in01d5 ta_lsb_in5 (.i(ta_en[5]), .zn(ta_en_lsb5));
in01d5 ta_lsb_in4 (.i(ta_en[4]), .zn(ta_en_lsb4));
in01d5 ta_lsb_in3 (.i(ta_en[3]), .zn(ta_en_lsb3));
in01d5 ta_lsb_in2 (.i(ta_en[2]), .zn(ta_en_lsb2));
in01d5 ta_lsb_in1 (.i(ta_en[1]), .zn(ta_en_lsb1));
in01d5 ta_lsb_in0 (.i(ta_en[0]), .zn(ta_en_lsb0));
// define the tile_attr memory
// msb
always @(ta_en_msb0 or tile_data_ireg_msb_at)
begin
if (ta_en_msb0)
memory_attr_msb0 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb1 or tile_data_ireg_msb_at)
begin
if (ta_en_msb1)
memory_attr_msb1 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb2 or tile_data_ireg_msb_at)
begin
if (ta_en_msb2)
memory_attr_msb2 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb3 or tile_data_ireg_msb_at)
begin
if (ta_en_msb3)
memory_attr_msb3 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb4 or tile_data_ireg_msb_at)
begin
if (ta_en_msb4)
memory_attr_msb4 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb5 or tile_data_ireg_msb_at)
begin
if (ta_en_msb5)
memory_attr_msb5 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb6 or tile_data_ireg_msb_at)
begin
if (ta_en_msb6)
memory_attr_msb6 = tile_data_ireg_msb_at;
end // always
always @(ta_en_msb7 or tile_data_ireg_msb_at)
begin
if (ta_en_msb7)
memory_attr_msb7 = tile_data_ireg_msb_at;
end // always
// lsb
always @(ta_en_lsb0 or tile_data_ireg_lsb)
begin
if (ta_en_lsb0)
memory_attr_lsb0 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb1 or tile_data_ireg_lsb)
begin
if (ta_en_lsb1)
memory_attr_lsb1 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb2 or tile_data_ireg_lsb)
begin
if (ta_en_lsb2)
memory_attr_lsb2 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb3 or tile_data_ireg_lsb)
begin
if (ta_en_lsb3)
memory_attr_lsb3 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb4 or tile_data_ireg_lsb)
begin
if (ta_en_lsb4)
memory_attr_lsb4 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb5 or tile_data_ireg_lsb)
begin
if (ta_en_lsb5)
memory_attr_lsb5 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb6 or tile_data_ireg_lsb)
begin
if (ta_en_lsb6)
memory_attr_lsb6 = tile_data_ireg_lsb;
end // always
always @(ta_en_lsb7 or tile_data_ireg_lsb)
begin
if (ta_en_lsb7)
memory_attr_lsb7 = tile_data_ireg_lsb;
end // always
assign ts_wrd[7:0] = {8{we_tile_size_l1}} & decode[7:0];
nd02d2 ts_nd7 (.a1(gclk), .a2(ts_wrd[7]), .zn(ts_en[7]));
nd02d2 ts_nd6 (.a1(gclk), .a2(ts_wrd[6]), .zn(ts_en[6]));
nd02d2 ts_nd5 (.a1(gclk), .a2(ts_wrd[5]), .zn(ts_en[5]));
nd02d2 ts_nd4 (.a1(gclk), .a2(ts_wrd[4]), .zn(ts_en[4]));
nd02d2 ts_nd3 (.a1(gclk), .a2(ts_wrd[3]), .zn(ts_en[3]));
nd02d2 ts_nd2 (.a1(gclk), .a2(ts_wrd[2]), .zn(ts_en[2]));
nd02d2 ts_nd1 (.a1(gclk), .a2(ts_wrd[1]), .zn(ts_en[1]));
nd02d2 ts_nd0 (.a1(gclk), .a2(ts_wrd[0]), .zn(ts_en[0]));
in01d5 ts_msb_in7 (.i(ts_en[7]), .zn(ts_en_msb7));
in01d5 ts_msb_in6 (.i(ts_en[6]), .zn(ts_en_msb6));
in01d5 ts_msb_in5 (.i(ts_en[5]), .zn(ts_en_msb5));
in01d5 ts_msb_in4 (.i(ts_en[4]), .zn(ts_en_msb4));
in01d5 ts_msb_in3 (.i(ts_en[3]), .zn(ts_en_msb3));
in01d5 ts_msb_in2 (.i(ts_en[2]), .zn(ts_en_msb2));
in01d5 ts_msb_in1 (.i(ts_en[1]), .zn(ts_en_msb1));
in01d5 ts_msb_in0 (.i(ts_en[0]), .zn(ts_en_msb0));
in01d5 ts_lsb_in7 (.i(ts_en[7]), .zn(ts_en_lsb7));
in01d5 ts_lsb_in6 (.i(ts_en[6]), .zn(ts_en_lsb6));
in01d5 ts_lsb_in5 (.i(ts_en[5]), .zn(ts_en_lsb5));
in01d5 ts_lsb_in4 (.i(ts_en[4]), .zn(ts_en_lsb4));
in01d5 ts_lsb_in3 (.i(ts_en[3]), .zn(ts_en_lsb3));
in01d5 ts_lsb_in2 (.i(ts_en[2]), .zn(ts_en_lsb2));
in01d5 ts_lsb_in1 (.i(ts_en[1]), .zn(ts_en_lsb1));
in01d5 ts_lsb_in0 (.i(ts_en[0]), .zn(ts_en_lsb0));
// define the tile_size memory
// msb
always @(ts_en_msb0 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb0)
memory_size_msb0 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb1 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb1)
memory_size_msb1 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb2 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb2)
memory_size_msb2 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb3 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb3)
memory_size_msb3 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb4 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb4)
memory_size_msb4 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb5 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb5)
memory_size_msb5 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb6 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb6)
memory_size_msb6 = tile_data_ireg_msb_sz;
end // always
always @(ts_en_msb7 or tile_data_ireg_msb_sz)
begin
if (ts_en_msb7)
memory_size_msb7 = tile_data_ireg_msb_sz;
end // always
// lsb
always @(ts_en_lsb0 or tile_data_ireg_lsb)
begin
if (ts_en_lsb0)
memory_size_lsb0 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb1 or tile_data_ireg_lsb)
begin
if (ts_en_lsb1)
memory_size_lsb1 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb2 or tile_data_ireg_lsb)
begin
if (ts_en_lsb2)
memory_size_lsb2 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb3 or tile_data_ireg_lsb)
begin
if (ts_en_lsb3)
memory_size_lsb3 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb4 or tile_data_ireg_lsb)
begin
if (ts_en_lsb4)
memory_size_lsb4 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb5 or tile_data_ireg_lsb)
begin
if (ts_en_lsb5)
memory_size_lsb5 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb6 or tile_data_ireg_lsb)
begin
if (ts_en_lsb6)
memory_size_lsb6 = tile_data_ireg_lsb;
end // always
always @(ts_en_lsb7 or tile_data_ireg_lsb)
begin
if (ts_en_lsb7)
memory_size_lsb7 = tile_data_ireg_lsb;
end // always
// decode the read address
always @(l_tile or memory_attr_msb0 or memory_attr_msb1 or
memory_attr_msb2 or memory_attr_msb3 or memory_attr_msb4 or
memory_attr_msb5 or memory_attr_msb6 or memory_attr_msb7)
begin
case (l_tile[2:0])
3'h0: rd_data_attr_msb[22:0] = memory_attr_msb0;
3'h1: rd_data_attr_msb[22:0] = memory_attr_msb1;
3'h2: rd_data_attr_msb[22:0] = memory_attr_msb2;
3'h3: rd_data_attr_msb[22:0] = memory_attr_msb3;
3'h4: rd_data_attr_msb[22:0] = memory_attr_msb4;
3'h5: rd_data_attr_msb[22:0] = memory_attr_msb5;
3'h6: rd_data_attr_msb[22:0] = memory_attr_msb6;
3'h7: rd_data_attr_msb[22:0] = memory_attr_msb7;
default: rd_data_attr_msb[22:0] = 8'hx;
endcase
end
always @(l_tile or memory_attr_lsb0 or memory_attr_lsb1 or
memory_attr_lsb2 or memory_attr_lsb3 or memory_attr_lsb4 or
memory_attr_lsb5 or memory_attr_lsb6 or memory_attr_lsb7)
begin
case (l_tile[2:0])
3'h0: rd_data_attr_lsb[23:0] = memory_attr_lsb0;
3'h1: rd_data_attr_lsb[23:0] = memory_attr_lsb1;
3'h2: rd_data_attr_lsb[23:0] = memory_attr_lsb2;
3'h3: rd_data_attr_lsb[23:0] = memory_attr_lsb3;
3'h4: rd_data_attr_lsb[23:0] = memory_attr_lsb4;
3'h5: rd_data_attr_lsb[23:0] = memory_attr_lsb5;
3'h6: rd_data_attr_lsb[23:0] = memory_attr_lsb6;
3'h7: rd_data_attr_lsb[23:0] = memory_attr_lsb7;
default: rd_data_attr_lsb[23:0] = 8'hx;
endcase
end
always @(l_tile or memory_size_msb0 or memory_size_msb1 or
memory_size_msb2 or memory_size_msb3 or memory_size_msb4 or
memory_size_msb5 or memory_size_msb6 or memory_size_msb7)
begin
case (l_tile[2:0])
3'h0: rd_data_size_msb[23:0] = memory_size_msb0;
3'h1: rd_data_size_msb[23:0] = memory_size_msb1;
3'h2: rd_data_size_msb[23:0] = memory_size_msb2;
3'h3: rd_data_size_msb[23:0] = memory_size_msb3;
3'h4: rd_data_size_msb[23:0] = memory_size_msb4;
3'h5: rd_data_size_msb[23:0] = memory_size_msb5;
3'h6: rd_data_size_msb[23:0] = memory_size_msb6;
3'h7: rd_data_size_msb[23:0] = memory_size_msb7;
default: rd_data_size_msb[23:0] = 8'hx;
endcase
end
always @(l_tile or memory_size_lsb0 or memory_size_lsb1 or
memory_size_lsb2 or memory_size_lsb3 or memory_size_lsb4 or
memory_size_lsb5 or memory_size_lsb6 or memory_size_lsb7)
begin
case (l_tile[2:0])
3'h0: rd_data_size_lsb[23:0] = memory_size_lsb0;
3'h1: rd_data_size_lsb[23:0] = memory_size_lsb1;
3'h2: rd_data_size_lsb[23:0] = memory_size_lsb2;
3'h3: rd_data_size_lsb[23:0] = memory_size_lsb3;
3'h4: rd_data_size_lsb[23:0] = memory_size_lsb4;
3'h5: rd_data_size_lsb[23:0] = memory_size_lsb5;
3'h6: rd_data_size_lsb[23:0] = memory_size_lsb6;
3'h7: rd_data_size_lsb[23:0] = memory_size_lsb7;
default: rd_data_size_lsb[23:0] = 8'hx;
endcase
end
// memory output registers
always @(posedge gclk)
begin
{tex_type, tex_size, line, tmem_adrs, palette, clamp_t, mir_t, mask_t,
shift_t, clamp_s, mir_s, mask_s, shift_s} <=
{rd_data_attr_msb, rd_data_attr_lsb};
{sl, sh, tl, th} <= {rd_data_size_msb, rd_data_size_lsb};
end // always
always @(posedge gclk)
begin
// delay outputs of tile memory
tex_type_1d <= tex_type;
tex_type_2d <= tex_type_1d;
tex_size_1d <= tex_size;
tex_size_2d <= tex_size_1d;
line_1d <= line;
line_2d <= line_1d;
tmem_adrs_1d <= tmem_adrs;
tmem_adrs_2d <= tmem_adrs_1d;
palette_1d <= palette;
palette_2d <= palette_1d;
palette_3d <= palette_2d;
palette_4d <= palette_3d;
clamp_t_1d <= clamp_t;
mir_t_1d <= mir_t;
mask_t_1d <= mask_t;
clamp_s_1d <= clamp_s;
mir_s_1d <= mir_s;
mask_s_1d <= mask_s;
end // always
endmodule // tc_tilemem