`ifndef BASE
|
`ifndef BASE
|
`define BASE vl_
|
`define BASE vl_
|
`endif
|
`endif
|
|
|
// default SYN_KEEP definition
|
// default SYN_KEEP definition
|
`define SYN_KEEP /*synthesis syn_keep = 1*/
|
`define SYN_KEEP /*synthesis syn_keep = 1*/
|
|
|
`ifdef ACTEL
|
`ifdef ACTEL
|
`undef SYN_KEEP
|
`undef SYN_KEEP
|
`define SYN_KEEP /*synthesis syn_keep = 1*/
|
`define SYN_KEEP /*synthesis syn_keep = 1*/
|
`endif
|
`endif
|
|
|
`ifdef ALL
|
`ifdef ALL
|
|
|
`define GBUF
|
`define GBUF
|
`define SYNC_RST
|
`define SYNC_RST
|
`define PLL
|
`define PLL
|
|
|
`define MULTS
|
`define MULTS
|
`define MULTS18X18
|
`define MULTS18X18
|
`define MULT
|
`define MULT
|
`define SHIFT_UNIT_32
|
`define SHIFT_UNIT_32
|
`define LOGIC_UNIT
|
`define LOGIC_UNIT
|
|
|
`define CNT_SHREG_WRAP
|
`define CNT_SHREG_WRAP
|
`define CNT_SHREG_CE_WRAP
|
`define CNT_SHREG_CE_WRAP
|
`define CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR_WRAP
|
`define CNT_SHREG_CE_CLEAR_WRAP
|
|
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX2_ANDOR
|
`define MUX2_ANDOR
|
`define MUX3_ANDOR
|
`define MUX3_ANDOR
|
`define MUX4_ANDOR
|
`define MUX4_ANDOR
|
`define MUX5_ANDOR
|
`define MUX5_ANDOR
|
`define MUX6_ANDOR
|
`define MUX6_ANDOR
|
`define PARITY
|
`define PARITY
|
|
|
`define ROM_INIT
|
`define ROM_INIT
|
`define RAM
|
`define RAM
|
`define RAM_BE
|
`define RAM_BE
|
`define DPRAM_1R1W
|
`define DPRAM_1R1W
|
`define DPRAM_2R1W
|
`define DPRAM_2R1W
|
`define DPRAM_2R2W
|
`define DPRAM_2R2W
|
`define DPRAM_BE_2R2W
|
`define DPRAM_BE_2R2W
|
`define FIFO_1R1W_FILL_LEVEL_SYNC
|
`define FIFO_1R1W_FILL_LEVEL_SYNC
|
`define FIFO_2R2W_SYNC_SIMPLEX
|
`define FIFO_2R2W_SYNC_SIMPLEX
|
`define FIFO_CMP_ASYNC
|
`define FIFO_CMP_ASYNC
|
`define FIFO_1R1W_ASYNC
|
`define FIFO_1R1W_ASYNC
|
`define FIFO_2R2W_ASYNC
|
`define FIFO_2R2W_ASYNC
|
`define FIFO_2R2W_ASYNC_SIMPLEX
|
`define FIFO_2R2W_ASYNC_SIMPLEX
|
`define REG_FILE
|
`define REG_FILE
|
|
|
`define DFF
|
`define DFF
|
`define DFF_ARRAY
|
`define DFF_ARRAY
|
`define DFF_CE
|
`define DFF_CE
|
`define DFF_CE_CLEAR
|
`define DFF_CE_CLEAR
|
`define DF_CE_SET
|
`define DF_CE_SET
|
`define SPR
|
`define SPR
|
`define SRP
|
`define SRP
|
`define DFF_SR
|
`define DFF_SR
|
`define LATCH
|
`define LATCH
|
`define SHREG
|
`define SHREG
|
`define SHREG_CE
|
`define SHREG_CE
|
`define DELAY
|
`define DELAY
|
`define DELAY_EMPTYFLAG
|
`define DELAY_EMPTYFLAG
|
|
|
`define WB3AVALON_BRIDGE
|
`define WB3AVALON_BRIDGE
|
`define WB3WB3_BRIDGE
|
`define WB3WB3_BRIDGE
|
`define WB3_ARBITER_TYPE1
|
`define WB3_ARBITER_TYPE1
|
|
`define WB_ADR_INC
|
`define WB_B3_RAM_BE
|
`define WB_B3_RAM_BE
|
`define WB_B4_RAM_BE
|
`define WB_B4_RAM_BE
|
`define WB_B4_ROM
|
`define WB_B4_ROM
|
`define WB_BOOT_ROM
|
`define WB_BOOT_ROM
|
`define WB_DPRAM
|
`define WB_DPRAM
|
|
|
`define IO_DFF_OE
|
`define IO_DFF_OE
|
`define O_DFF
|
`define O_DFF
|
|
|
`endif
|
`endif
|
|
|
`ifdef PLL
|
`ifdef PLL
|
`ifndef SYNC_RST
|
`ifndef SYNC_RST
|
`define SYNC_RST
|
`define SYNC_RST
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef SYNC_RST
|
`ifdef SYNC_RST
|
`ifndef GBUF
|
`ifndef GBUF
|
`define GBUF
|
`define GBUF
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef WB_DPRAM
|
`ifdef WB_DPRAM
|
`ifndef DPRAM_2R2W
|
`ifndef DPRAM_2R2W
|
`define DPRAM_2R2W
|
`define DPRAM_2R2W
|
`endif
|
`endif
|
`ifndef SPR
|
`ifndef SPR
|
`define SPR
|
`define SPR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef WB_B3_RAM_BE
|
`ifdef WB_B3_RAM_BE
|
`ifndef WB3_ARBITER_TYPE1
|
`ifndef WB_ADR_INC
|
`define WB3_ARBITER_TYPE1
|
`define WB_ADR_INC
|
`endif
|
`endif
|
`ifndef RAM_BE
|
`ifndef RAM_BE
|
`define RAM_BE
|
`define RAM_BE
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef WB3_ARBITER_TYPE1
|
`ifdef WB3_ARBITER_TYPE1
|
`ifndef SPR
|
`ifndef SPR
|
`define SPR
|
`define SPR
|
`endif
|
`endif
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef WB3AVALON_BRIDGE
|
`ifdef WB3AVALON_BRIDGE
|
`ifndef WB3WB3_BRIDGE
|
`ifndef WB3WB3_BRIDGE
|
`define WB3WB3_BRIDGE
|
`define WB3WB3_BRIDGE
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef WB3WB3_BRIDGE
|
`ifdef WB3WB3_BRIDGE
|
`ifndef CNT_SHREG_CE_CLEAR
|
`ifndef CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR
|
`endif
|
`endif
|
`ifndef DFF
|
`ifndef DFF
|
`define DFF
|
`define DFF
|
`endif
|
`endif
|
`ifndef DFF_CE
|
`ifndef DFF_CE
|
`define DFF_CE
|
`define DFF_CE
|
`endif
|
`endif
|
`ifndef CNT_SHREG_CE_CLEAR
|
`ifndef CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR
|
`define CNT_SHREG_CE_CLEAR
|
`endif
|
`endif
|
`ifndef FIFO_2R2W_ASYNC_SIMPLEX
|
`ifndef FIFO_2R2W_ASYNC_SIMPLEX
|
`define FIFO_2R2W_ASYNC_SIMPLEX
|
`define FIFO_2R2W_ASYNC_SIMPLEX
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MULTS18X18
|
`ifdef MULTS18X18
|
`ifndef MULTS
|
`ifndef MULTS
|
`define MULTS
|
`define MULTS
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef SHIFT_UNIT_32
|
`ifdef SHIFT_UNIT_32
|
`ifndef MULTS
|
`ifndef MULTS
|
`define MULTS
|
`define MULTS
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MUX2_ANDOR
|
`ifdef MUX2_ANDOR
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MUX3_ANDOR
|
`ifdef MUX3_ANDOR
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MUX4_ANDOR
|
`ifdef MUX4_ANDOR
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MUX5_ANDOR
|
`ifdef MUX5_ANDOR
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef MUX6_ANDOR
|
`ifdef MUX6_ANDOR
|
`ifndef MUX_ANDOR
|
`ifndef MUX_ANDOR
|
`define MUX_ANDOR
|
`define MUX_ANDOR
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
`ifndef CNT_BIN_CE
|
`ifndef CNT_BIN_CE
|
`define CNT_BIN_CE
|
`define CNT_BIN_CE
|
`endif
|
`endif
|
`ifndef DPRAM_1R1W
|
`ifndef DPRAM_1R1W
|
`define DPRAM_1R1W
|
`define DPRAM_1R1W
|
`endif
|
`endif
|
`ifndef CNT_BIN_CE_REW_Q_ZQ_L1
|
`ifndef CNT_BIN_CE_REW_Q_ZQ_L1
|
`define CNT_BIN_CE_REW_Q_ZQ_L1
|
`define CNT_BIN_CE_REW_Q_ZQ_L1
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
`ifndef CNT_LFSR_CE
|
`ifndef CNT_LFSR_CE
|
`define CNT_LFSR_CE
|
`define CNT_LFSR_CE
|
`endif
|
`endif
|
`ifndef DPRAM_2R2W
|
`ifndef DPRAM_2R2W
|
`define DPRAM_2R2W
|
`define DPRAM_2R2W
|
`endif
|
`endif
|
`ifndef CNT_BIN_CE_REW_ZQ_L1
|
`ifndef CNT_BIN_CE_REW_ZQ_L1
|
`define CNT_BIN_CE_REW_ZQ_L1
|
`define CNT_BIN_CE_REW_ZQ_L1
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_2R2W_ASYNC_SIMPLEX
|
`ifdef FIFO_2R2W_ASYNC_SIMPLEX
|
`ifndef CNT_GRAY_CE_BIN
|
`ifndef CNT_GRAY_CE_BIN
|
`define CNT_GRAY_CE_BIN
|
`define CNT_GRAY_CE_BIN
|
`endif
|
`endif
|
`ifndef DPRAM_2R2W
|
`ifndef DPRAM_2R2W
|
`define DPRAM_2R2W
|
`define DPRAM_2R2W
|
`endif
|
`endif
|
`ifndef FIFO_CMP_ASYNC
|
`ifndef FIFO_CMP_ASYNC
|
`define FIFO_CMP_ASYNC
|
`define FIFO_CMP_ASYNC
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_2R2W_ASYNC
|
`ifdef FIFO_2R2W_ASYNC
|
`ifndef FIFO_1R1W_ASYNC
|
`ifndef FIFO_1R1W_ASYNC
|
`define FIFO_1R1W_ASYNC
|
`define FIFO_1R1W_ASYNC
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_1R1W_ASYNC
|
`ifdef FIFO_1R1W_ASYNC
|
`ifndef CNT_GRAY_CE_BIN
|
`ifndef CNT_GRAY_CE_BIN
|
`define CNT_GRAY_CE_BIN
|
`define CNT_GRAY_CE_BIN
|
`endif
|
`endif
|
`ifndef DPRAM_1R1W
|
`ifndef DPRAM_1R1W
|
`define DPRAM_1R1W
|
`define DPRAM_1R1W
|
`endif
|
`endif
|
`ifndef FIFO_CMP_ASYNC
|
`ifndef FIFO_CMP_ASYNC
|
`define FIFO_CMP_ASYNC
|
`define FIFO_CMP_ASYNC
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef FIFO_CMP_ASYNC
|
`ifdef FIFO_CMP_ASYNC
|
`ifndef DFF_SR
|
`ifndef DFF_SR
|
`define DFF_SR
|
`define DFF_SR
|
`endif
|
`endif
|
`ifndef DFF
|
`ifndef DFF
|
`define DFF
|
`define DFF
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef REG_FILE
|
`ifdef REG_FILE
|
`ifndef DPRAM_1R1W
|
`ifndef DPRAM_1R1W
|
`define DPRAM_1R1W
|
`define DPRAM_1R1W
|
`endif
|
`endif
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile library, clock and reset ////
|
//// Versatile library, clock and reset ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Logic related to clock and reset ////
|
//// Logic related to clock and reset ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add more different registers ////
|
//// - add more different registers ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef ACTEL
|
`ifdef ACTEL
|
`ifdef GBUF
|
`ifdef GBUF
|
`timescale 1 ns/100 ps
|
`timescale 1 ns/100 ps
|
// Global buffer
|
// Global buffer
|
// usage:
|
// usage:
|
// use to enable global buffers for high fan out signals such as clock and reset
|
// use to enable global buffers for high fan out signals such as clock and reset
|
// Version: 8.4 8.4.0.33
|
// Version: 8.4 8.4.0.33
|
module gbuf(GL,CLK);
|
module gbuf(GL,CLK);
|
output GL;
|
output GL;
|
input CLK;
|
input CLK;
|
|
|
wire GND;
|
wire GND;
|
|
|
GND GND_1_net(.Y(GND));
|
GND GND_1_net(.Y(GND));
|
CLKDLY Inst1(.CLK(CLK), .GL(GL), .DLYGL0(GND), .DLYGL1(GND),
|
CLKDLY Inst1(.CLK(CLK), .GL(GL), .DLYGL0(GND), .DLYGL1(GND),
|
.DLYGL2(GND), .DLYGL3(GND), .DLYGL4(GND)) /* synthesis black_box */;
|
.DLYGL2(GND), .DLYGL3(GND), .DLYGL4(GND)) /* synthesis black_box */;
|
|
|
endmodule
|
endmodule
|
`timescale 1 ns/1 ns
|
`timescale 1 ns/1 ns
|
`define MODULE gbuf
|
`define MODULE gbuf
|
module `BASE`MODULE ( i, o);
|
module `BASE`MODULE ( i, o);
|
`undef MODULE
|
`undef MODULE
|
input i;
|
input i;
|
output o;
|
output o;
|
`ifdef SIM_GBUF
|
`ifdef SIM_GBUF
|
assign o=i;
|
assign o=i;
|
`else
|
`else
|
gbuf gbuf_i0 ( .CLK(i), .GL(o));
|
gbuf gbuf_i0 ( .CLK(i), .GL(o));
|
`endif
|
`endif
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`else
|
`else
|
|
|
`ifdef ALTERA
|
`ifdef ALTERA
|
`ifdef GBUF
|
`ifdef GBUF
|
//altera
|
//altera
|
`define MODULE gbuf
|
`define MODULE gbuf
|
module `BASE`MODULE ( i, o);
|
module `BASE`MODULE ( i, o);
|
`undef MODULE
|
`undef MODULE
|
input i;
|
input i;
|
output o;
|
output o;
|
assign o = i;
|
assign o = i;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`else
|
`else
|
|
|
`ifdef GBUF
|
`ifdef GBUF
|
`timescale 1 ns/100 ps
|
`timescale 1 ns/100 ps
|
`define MODULE
|
`define MODULE
|
module `BASE`MODULE ( i, o);
|
module `BASE`MODULE ( i, o);
|
`undef MODULE
|
`undef MODULE
|
input i;
|
input i;
|
output o;
|
output o;
|
assign o = i;
|
assign o = i;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`endif // ALTERA
|
`endif // ALTERA
|
`endif //ACTEL
|
`endif //ACTEL
|
|
|
`ifdef SYNC_RST
|
`ifdef SYNC_RST
|
// sync reset
|
// sync reset
|
// input active lo async reset, normally from external reset generator and/or switch
|
// input active lo async reset, normally from external reset generator and/or switch
|
// output active high global reset sync with two DFFs
|
// output active high global reset sync with two DFFs
|
`timescale 1 ns/100 ps
|
`timescale 1 ns/100 ps
|
`define MODULE sync_rst
|
`define MODULE sync_rst
|
module `BASE`MODULE ( rst_n_i, rst_o, clk);
|
module `BASE`MODULE ( rst_n_i, rst_o, clk);
|
`undef MODULE
|
`undef MODULE
|
input rst_n_i, clk;
|
input rst_n_i, clk;
|
output rst_o;
|
output rst_o;
|
reg [1:0] tmp;
|
reg [1:0] tmp;
|
always @ (posedge clk or negedge rst_n_i)
|
always @ (posedge clk or negedge rst_n_i)
|
if (!rst_n_i)
|
if (!rst_n_i)
|
tmp <= 2'b11;
|
tmp <= 2'b11;
|
else
|
else
|
tmp <= {1'b0,tmp[1]};
|
tmp <= {1'b0,tmp[1]};
|
`define MODULE gbuf
|
`define MODULE gbuf
|
`BASE`MODULE buf_i0( .i(tmp[0]), .o(rst_o));
|
`BASE`MODULE buf_i0( .i(tmp[0]), .o(rst_o));
|
`undef MODULE
|
`undef MODULE
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef PLL
|
`ifdef PLL
|
// vl_pll
|
// vl_pll
|
`ifdef ACTEL
|
`ifdef ACTEL
|
///////////////////////////////////////////////////////////////////////////////
|
///////////////////////////////////////////////////////////////////////////////
|
`timescale 1 ps/1 ps
|
`timescale 1 ps/1 ps
|
`define MODULE pll
|
`define MODULE pll
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
`undef MODULE
|
`undef MODULE
|
parameter index = 0;
|
parameter index = 0;
|
parameter number_of_clk = 1;
|
parameter number_of_clk = 1;
|
parameter period_time_0 = 20000;
|
parameter period_time_0 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_2 = 20000;
|
parameter period_time_2 = 20000;
|
parameter lock_delay = 2000000;
|
parameter lock_delay = 2000000;
|
input clk_i, rst_n_i;
|
input clk_i, rst_n_i;
|
output lock;
|
output lock;
|
output reg [0:number_of_clk-1] clk_o;
|
output reg [0:number_of_clk-1] clk_o;
|
output [0:number_of_clk-1] rst_o;
|
output [0:number_of_clk-1] rst_o;
|
|
|
`ifdef SIM_PLL
|
`ifdef SIM_PLL
|
|
|
always
|
always
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
|
|
generate if (number_of_clk > 1)
|
generate if (number_of_clk > 1)
|
always
|
always
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
endgenerate
|
endgenerate
|
|
|
generate if (number_of_clk > 2)
|
generate if (number_of_clk > 2)
|
always
|
always
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
endgenerate
|
endgenerate
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
assign #lock_delay lock = rst_n_i;
|
assign #lock_delay lock = rst_n_i;
|
|
|
endmodule
|
endmodule
|
`else
|
`else
|
generate if (number_of_clk==1 & index==0) begin
|
generate if (number_of_clk==1 & index==0) begin
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
generate if (number_of_clk==1 & index==1) begin
|
generate if (number_of_clk==1 & index==1) begin
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
end
|
end
|
endgenerate // index==1
|
endgenerate // index==1
|
generate if (number_of_clk==1 & index==2) begin
|
generate if (number_of_clk==1 & index==2) begin
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
end
|
end
|
endgenerate // index==2
|
endgenerate // index==2
|
generate if (number_of_clk==1 & index==3) begin
|
generate if (number_of_clk==1 & index==3) begin
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
|
|
generate if (number_of_clk==2 & index==0) begin
|
generate if (number_of_clk==2 & index==0) begin
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
generate if (number_of_clk==2 & index==1) begin
|
generate if (number_of_clk==2 & index==1) begin
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
end
|
end
|
endgenerate // index==1
|
endgenerate // index==1
|
generate if (number_of_clk==2 & index==2) begin
|
generate if (number_of_clk==2 & index==2) begin
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
end
|
end
|
endgenerate // index==2
|
endgenerate // index==2
|
generate if (number_of_clk==2 & index==3) begin
|
generate if (number_of_clk==2 & index==3) begin
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
|
|
generate if (number_of_clk==3 & index==0) begin
|
generate if (number_of_clk==3 & index==0) begin
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
generate if (number_of_clk==3 & index==1) begin
|
generate if (number_of_clk==3 & index==1) begin
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
end
|
end
|
endgenerate // index==1
|
endgenerate // index==1
|
generate if (number_of_clk==3 & index==2) begin
|
generate if (number_of_clk==3 & index==2) begin
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
end
|
end
|
endgenerate // index==2
|
endgenerate // index==2
|
generate if (number_of_clk==3 & index==3) begin
|
generate if (number_of_clk==3 & index==3) begin
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
|
end
|
end
|
endgenerate // index==0
|
endgenerate // index==0
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
`define MODULE sync_rst
|
`define MODULE sync_rst
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o), .clk(clk_o[i]));
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o), .clk(clk_o[i]));
|
`undef MODULE
|
`undef MODULE
|
end
|
end
|
endgenerate
|
endgenerate
|
endmodule
|
endmodule
|
`endif
|
`endif
|
///////////////////////////////////////////////////////////////////////////////
|
///////////////////////////////////////////////////////////////////////////////
|
|
|
`else
|
`else
|
|
|
///////////////////////////////////////////////////////////////////////////////
|
///////////////////////////////////////////////////////////////////////////////
|
`ifdef ALTERA
|
`ifdef ALTERA
|
|
|
`timescale 1 ps/1 ps
|
`timescale 1 ps/1 ps
|
`define MODULE pll
|
`define MODULE pll
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
`undef MODULE
|
`undef MODULE
|
parameter index = 0;
|
parameter index = 0;
|
parameter number_of_clk = 1;
|
parameter number_of_clk = 1;
|
parameter period_time_0 = 20000;
|
parameter period_time_0 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_2 = 20000;
|
parameter period_time_2 = 20000;
|
parameter period_time_3 = 20000;
|
parameter period_time_3 = 20000;
|
parameter period_time_4 = 20000;
|
parameter period_time_4 = 20000;
|
parameter lock_delay = 2000000;
|
parameter lock_delay = 2000000;
|
input clk_i, rst_n_i;
|
input clk_i, rst_n_i;
|
output lock;
|
output lock;
|
output reg [0:number_of_clk-1] clk_o;
|
output reg [0:number_of_clk-1] clk_o;
|
output [0:number_of_clk-1] rst_o;
|
output [0:number_of_clk-1] rst_o;
|
|
|
`ifdef SIM_PLL
|
`ifdef SIM_PLL
|
|
|
always
|
always
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
|
|
generate if (number_of_clk > 1)
|
generate if (number_of_clk > 1)
|
always
|
always
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
endgenerate
|
endgenerate
|
|
|
generate if (number_of_clk > 2)
|
generate if (number_of_clk > 2)
|
always
|
always
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
endgenerate
|
endgenerate
|
|
|
generate if (number_of_clk > 3)
|
generate if (number_of_clk > 3)
|
always
|
always
|
#((period_time_3)/2) clk_o[3] <= (!rst_n_i) ? 0 : ~clk_o[3];
|
#((period_time_3)/2) clk_o[3] <= (!rst_n_i) ? 0 : ~clk_o[3];
|
endgenerate
|
endgenerate
|
|
|
generate if (number_of_clk > 4)
|
generate if (number_of_clk > 4)
|
always
|
always
|
#((period_time_4)/2) clk_o[4] <= (!rst_n_i) ? 0 : ~clk_o[4];
|
#((period_time_4)/2) clk_o[4] <= (!rst_n_i) ? 0 : ~clk_o[4];
|
endgenerate
|
endgenerate
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
//assign #lock_delay lock = rst_n_i;
|
//assign #lock_delay lock = rst_n_i;
|
assign lock = rst_n_i;
|
assign lock = rst_n_i;
|
|
|
endmodule
|
endmodule
|
`else
|
`else
|
|
|
`ifdef VL_PLL0
|
`ifdef VL_PLL0
|
`ifdef VL_PLL0_CLK1
|
`ifdef VL_PLL0_CLK1
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
`endif
|
`endif
|
`ifdef VL_PLL0_CLK2
|
`ifdef VL_PLL0_CLK2
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
`endif
|
`endif
|
`ifdef VL_PLL0_CLK3
|
`ifdef VL_PLL0_CLK3
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
`endif
|
`endif
|
`ifdef VL_PLL0_CLK4
|
`ifdef VL_PLL0_CLK4
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
`endif
|
`endif
|
`ifdef VL_PLL0_CLK5
|
`ifdef VL_PLL0_CLK5
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
pll0 pll0_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef VL_PLL1
|
`ifdef VL_PLL1
|
`ifdef VL_PLL1_CLK1
|
`ifdef VL_PLL1_CLK1
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
`endif
|
`endif
|
`ifdef VL_PLL1_CLK2
|
`ifdef VL_PLL1_CLK2
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
`endif
|
`endif
|
`ifdef VL_PLL1_CLK3
|
`ifdef VL_PLL1_CLK3
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
`endif
|
`endif
|
`ifdef VL_PLL1_CLK4
|
`ifdef VL_PLL1_CLK4
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
`endif
|
`endif
|
`ifdef VL_PLL1_CLK5
|
`ifdef VL_PLL1_CLK5
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
pll1 pll1_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef VL_PLL2
|
`ifdef VL_PLL2
|
`ifdef VL_PLL2_CLK1
|
`ifdef VL_PLL2_CLK1
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
`endif
|
`endif
|
`ifdef VL_PLL2_CLK2
|
`ifdef VL_PLL2_CLK2
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
`endif
|
`endif
|
`ifdef VL_PLL2_CLK3
|
`ifdef VL_PLL2_CLK3
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
`endif
|
`endif
|
`ifdef VL_PLL2_CLK4
|
`ifdef VL_PLL2_CLK4
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
`endif
|
`endif
|
`ifdef VL_PLL2_CLK5
|
`ifdef VL_PLL2_CLK5
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
pll2 pll2_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
`ifdef VL_PLL3
|
`ifdef VL_PLL3
|
`ifdef VL_PLL3_CLK1
|
`ifdef VL_PLL3_CLK1
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]));
|
`endif
|
`endif
|
`ifdef VL_PLL3_CLK2
|
`ifdef VL_PLL3_CLK2
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]));
|
`endif
|
`endif
|
`ifdef VL_PLL3_CLK3
|
`ifdef VL_PLL3_CLK3
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]));
|
`endif
|
`endif
|
`ifdef VL_PLL3_CLK4
|
`ifdef VL_PLL3_CLK4
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]));
|
`endif
|
`endif
|
`ifdef VL_PLL3_CLK5
|
`ifdef VL_PLL3_CLK5
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
pll3 pll3_i0 (.areset(rst_n_i), .inclk0(clk_i), .locked(lock), .c0(clk_o[0]), .c1(clk_o[1]), .c2(clk_o[2]), .c3(clk_o[3]), .c4(clk_o[4]));
|
`endif
|
`endif
|
`endif
|
`endif
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
`define MODULE sync_rst
|
`define MODULE sync_rst
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
`undef MODULE
|
`undef MODULE
|
end
|
end
|
endgenerate
|
endgenerate
|
endmodule
|
endmodule
|
`endif
|
`endif
|
///////////////////////////////////////////////////////////////////////////////
|
///////////////////////////////////////////////////////////////////////////////
|
|
|
`else
|
`else
|
|
|
// generic PLL
|
// generic PLL
|
`timescale 1 ps/1 ps
|
`timescale 1 ps/1 ps
|
`define MODULE pll
|
`define MODULE pll
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
module `BASE`MODULE ( clk_i, rst_n_i, lock, clk_o, rst_o);
|
`undef MODULE
|
`undef MODULE
|
parameter index = 0;
|
parameter index = 0;
|
parameter number_of_clk = 1;
|
parameter number_of_clk = 1;
|
parameter period_time_0 = 20000;
|
parameter period_time_0 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_1 = 20000;
|
parameter period_time_2 = 20000;
|
parameter period_time_2 = 20000;
|
parameter lock_delay = 2000;
|
parameter lock_delay = 2000;
|
input clk_i, rst_n_i;
|
input clk_i, rst_n_i;
|
output lock;
|
output lock;
|
output reg [0:number_of_clk-1] clk_o;
|
output reg [0:number_of_clk-1] clk_o;
|
output [0:number_of_clk-1] rst_o;
|
output [0:number_of_clk-1] rst_o;
|
|
|
always
|
always
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];
|
|
|
generate if (number_of_clk > 1)
|
generate if (number_of_clk > 1)
|
always
|
always
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];
|
endgenerate
|
endgenerate
|
|
|
generate if (number_of_clk > 2)
|
generate if (number_of_clk > 2)
|
always
|
always
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];
|
endgenerate
|
endgenerate
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
|
`define MODULE sync_rst
|
`define MODULE sync_rst
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
`BASE`MODULE rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
|
`undef MODULE
|
`undef MODULE
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
assign #lock_delay lock = rst_n_i;
|
assign #lock_delay lock = rst_n_i;
|
|
|
endmodule
|
endmodule
|
|
|
`endif //altera
|
`endif //altera
|
`endif //actel
|
`endif //actel
|
`undef MODULE
|
`undef MODULE
|
`endif//////////////////////////////////////////////////////////////////////
|
`endif//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile library, registers ////
|
//// Versatile library, registers ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Different type of registers ////
|
//// Different type of registers ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add more different registers ////
|
//// - add more different registers ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef DFF
|
`ifdef DFF
|
`define MODULE dff
|
`define MODULE dff
|
module `BASE`MODULE ( d, q, clk, rst);
|
module `BASE`MODULE ( d, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = 0;
|
parameter reset_value = 0;
|
|
|
input [width-1:0] d;
|
input [width-1:0] d;
|
input clk, rst;
|
input clk, rst;
|
output reg [width-1:0] q;
|
output reg [width-1:0] q;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
q <= d;
|
q <= d;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DFF_ARRAY
|
`ifdef DFF_ARRAY
|
`define MODULE dff_array
|
`define MODULE dff_array
|
module `BASE`MODULE ( d, q, clk, rst);
|
module `BASE`MODULE ( d, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 1;
|
parameter width = 1;
|
parameter depth = 2;
|
parameter depth = 2;
|
parameter reset_value = 1'b0;
|
parameter reset_value = 1'b0;
|
|
|
input [width-1:0] d;
|
input [width-1:0] d;
|
input clk, rst;
|
input clk, rst;
|
output [width-1:0] q;
|
output [width-1:0] q;
|
reg [0:depth-1] q_tmp [width-1:0];
|
reg [0:depth-1] q_tmp [width-1:0];
|
integer i;
|
integer i;
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst) begin
|
if (rst) begin
|
for (i=0;i<depth;i=i+1)
|
for (i=0;i<depth;i=i+1)
|
q_tmp[i] <= {width{reset_value}};
|
q_tmp[i] <= {width{reset_value}};
|
end else begin
|
end else begin
|
q_tmp[0] <= d;
|
q_tmp[0] <= d;
|
for (i=1;i<depth;i=i+1)
|
for (i=1;i<depth;i=i+1)
|
q_tmp[i] <= q_tmp[i-1];
|
q_tmp[i] <= q_tmp[i-1];
|
end
|
end
|
|
|
assign q = q_tmp[depth-1];
|
assign q = q_tmp[depth-1];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DFF_CE
|
`ifdef DFF_CE
|
`define MODULE dff_ce
|
`define MODULE dff_ce
|
module `BASE`MODULE ( d, ce, q, clk, rst);
|
module `BASE`MODULE ( d, ce, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = 0;
|
parameter reset_value = 0;
|
|
|
input [width-1:0] d;
|
input [width-1:0] d;
|
input ce, clk, rst;
|
input ce, clk, rst;
|
output reg [width-1:0] q;
|
output reg [width-1:0] q;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
if (ce)
|
if (ce)
|
q <= d;
|
q <= d;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DFF_CE_CLEAR
|
`ifdef DFF_CE_CLEAR
|
`define MODULE dff_ce_clear
|
`define MODULE dff_ce_clear
|
module `BASE`MODULE ( d, ce, clear, q, clk, rst);
|
module `BASE`MODULE ( d, ce, clear, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = 0;
|
parameter reset_value = 0;
|
|
|
input [width-1:0] d;
|
input [width-1:0] d;
|
input ce, clear, clk, rst;
|
input ce, clear, clk, rst;
|
output reg [width-1:0] q;
|
output reg [width-1:0] q;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
if (ce)
|
if (ce)
|
if (clear)
|
if (clear)
|
q <= {width{1'b0}};
|
q <= {width{1'b0}};
|
else
|
else
|
q <= d;
|
q <= d;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DF_CE_SET
|
`ifdef DF_CE_SET
|
`define MODULE dff_ce_set
|
`define MODULE dff_ce_set
|
module `BASE`MODULE ( d, ce, set, q, clk, rst);
|
module `BASE`MODULE ( d, ce, set, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = 0;
|
parameter reset_value = 0;
|
|
|
input [width-1:0] d;
|
input [width-1:0] d;
|
input ce, set, clk, rst;
|
input ce, set, clk, rst;
|
output reg [width-1:0] q;
|
output reg [width-1:0] q;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
if (ce)
|
if (ce)
|
if (set)
|
if (set)
|
q <= {width{1'b1}};
|
q <= {width{1'b1}};
|
else
|
else
|
q <= d;
|
q <= d;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef SPR
|
`ifdef SPR
|
`define MODULE spr
|
`define MODULE spr
|
module `BASE`MODULE ( sp, r, q, clk, rst);
|
module `BASE`MODULE ( sp, r, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
//parameter width = 1;
|
//parameter width = 1;
|
parameter reset_value = 1'b0;
|
parameter reset_value = 1'b0;
|
|
|
input sp, r;
|
input sp, r;
|
output reg q;
|
output reg q;
|
input clk, rst;
|
input clk, rst;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
if (sp)
|
if (sp)
|
q <= 1'b1;
|
q <= 1'b1;
|
else if (r)
|
else if (r)
|
q <= 1'b0;
|
q <= 1'b0;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef SRP
|
`ifdef SRP
|
`define MODULE srp
|
`define MODULE srp
|
module `BASE`MODULE ( s, rp, q, clk, rst);
|
module `BASE`MODULE ( s, rp, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = 0;
|
parameter reset_value = 0;
|
|
|
input s, rp;
|
input s, rp;
|
output reg q;
|
output reg q;
|
input clk, rst;
|
input clk, rst;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= reset_value;
|
q <= reset_value;
|
else
|
else
|
if (rp)
|
if (rp)
|
q <= 1'b0;
|
q <= 1'b0;
|
else if (s)
|
else if (s)
|
q <= 1'b1;
|
q <= 1'b1;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef ALTERA
|
`ifdef ALTERA
|
|
|
`ifdef DFF_SR
|
`ifdef DFF_SR
|
// megafunction wizard: %LPM_FF%
|
// megafunction wizard: %LPM_FF%
|
// GENERATION: STANDARD
|
// GENERATION: STANDARD
|
// VERSION: WM1.0
|
// VERSION: WM1.0
|
// MODULE: lpm_ff
|
// MODULE: lpm_ff
|
|
|
// ============================================================
|
// ============================================================
|
// File Name: dff_sr.v
|
// File Name: dff_sr.v
|
// Megafunction Name(s):
|
// Megafunction Name(s):
|
// lpm_ff
|
// lpm_ff
|
//
|
//
|
// Simulation Library Files(s):
|
// Simulation Library Files(s):
|
// lpm
|
// lpm
|
// ============================================================
|
// ============================================================
|
// ************************************************************
|
// ************************************************************
|
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
|
// THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
|
//
|
//
|
// 9.1 Build 304 01/25/2010 SP 1 SJ Full Version
|
// 9.1 Build 304 01/25/2010 SP 1 SJ Full Version
|
// ************************************************************
|
// ************************************************************
|
|
|
|
|
//Copyright (C) 1991-2010 Altera Corporation
|
//Copyright (C) 1991-2010 Altera Corporation
|
//Your use of Altera Corporation's design tools, logic functions
|
//Your use of Altera Corporation's design tools, logic functions
|
//and other software and tools, and its AMPP partner logic
|
//and other software and tools, and its AMPP partner logic
|
//functions, and any output files from any of the foregoing
|
//functions, and any output files from any of the foregoing
|
//(including device programming or simulation files), and any
|
//(including device programming or simulation files), and any
|
//associated documentation or information are expressly subject
|
//associated documentation or information are expressly subject
|
//to the terms and conditions of the Altera Program License
|
//to the terms and conditions of the Altera Program License
|
//Subscription Agreement, Altera MegaCore Function License
|
//Subscription Agreement, Altera MegaCore Function License
|
//Agreement, or other applicable license agreement, including,
|
//Agreement, or other applicable license agreement, including,
|
//without limitation, that your use is for the sole purpose of
|
//without limitation, that your use is for the sole purpose of
|
//programming logic devices manufactured by Altera and sold by
|
//programming logic devices manufactured by Altera and sold by
|
//Altera or its authorized distributors. Please refer to the
|
//Altera or its authorized distributors. Please refer to the
|
//applicable agreement for further details.
|
//applicable agreement for further details.
|
|
|
|
|
// synopsys translate_off
|
// synopsys translate_off
|
`timescale 1 ps / 1 ps
|
`timescale 1 ps / 1 ps
|
// synopsys translate_on
|
// synopsys translate_on
|
`define MODULE dff_sr
|
`define MODULE dff_sr
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
|
|
aclr,
|
aclr,
|
aset,
|
aset,
|
clock,
|
clock,
|
data,
|
data,
|
q);
|
q);
|
|
|
input aclr;
|
input aclr;
|
input aset;
|
input aset;
|
input clock;
|
input clock;
|
input data;
|
input data;
|
output q;
|
output q;
|
|
|
wire [0:0] sub_wire0;
|
wire [0:0] sub_wire0;
|
wire [0:0] sub_wire1 = sub_wire0[0:0];
|
wire [0:0] sub_wire1 = sub_wire0[0:0];
|
wire q = sub_wire1;
|
wire q = sub_wire1;
|
wire sub_wire2 = data;
|
wire sub_wire2 = data;
|
wire sub_wire3 = sub_wire2;
|
wire sub_wire3 = sub_wire2;
|
|
|
lpm_ff lpm_ff_component (
|
lpm_ff lpm_ff_component (
|
.aclr (aclr),
|
.aclr (aclr),
|
.clock (clock),
|
.clock (clock),
|
.data (sub_wire3),
|
.data (sub_wire3),
|
.aset (aset),
|
.aset (aset),
|
.q (sub_wire0)
|
.q (sub_wire0)
|
// synopsys translate_off
|
// synopsys translate_off
|
,
|
,
|
.aload (),
|
.aload (),
|
.enable (),
|
.enable (),
|
.sclr (),
|
.sclr (),
|
.sload (),
|
.sload (),
|
.sset ()
|
.sset ()
|
// synopsys translate_on
|
// synopsys translate_on
|
);
|
);
|
defparam
|
defparam
|
lpm_ff_component.lpm_fftype = "DFF",
|
lpm_ff_component.lpm_fftype = "DFF",
|
lpm_ff_component.lpm_type = "LPM_FF",
|
lpm_ff_component.lpm_type = "LPM_FF",
|
lpm_ff_component.lpm_width = 1;
|
lpm_ff_component.lpm_width = 1;
|
|
|
|
|
endmodule
|
endmodule
|
|
|
// ============================================================
|
// ============================================================
|
// CNX file retrieval info
|
// CNX file retrieval info
|
// ============================================================
|
// ============================================================
|
// Retrieval info: PRIVATE: ACLR NUMERIC "1"
|
// Retrieval info: PRIVATE: ACLR NUMERIC "1"
|
// Retrieval info: PRIVATE: ALOAD NUMERIC "0"
|
// Retrieval info: PRIVATE: ALOAD NUMERIC "0"
|
// Retrieval info: PRIVATE: ASET NUMERIC "1"
|
// Retrieval info: PRIVATE: ASET NUMERIC "1"
|
// Retrieval info: PRIVATE: ASET_ALL1 NUMERIC "1"
|
// Retrieval info: PRIVATE: ASET_ALL1 NUMERIC "1"
|
// Retrieval info: PRIVATE: CLK_EN NUMERIC "0"
|
// Retrieval info: PRIVATE: CLK_EN NUMERIC "0"
|
// Retrieval info: PRIVATE: DFF NUMERIC "1"
|
// Retrieval info: PRIVATE: DFF NUMERIC "1"
|
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone IV E"
|
// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone IV E"
|
// Retrieval info: PRIVATE: SCLR NUMERIC "0"
|
// Retrieval info: PRIVATE: SCLR NUMERIC "0"
|
// Retrieval info: PRIVATE: SLOAD NUMERIC "0"
|
// Retrieval info: PRIVATE: SLOAD NUMERIC "0"
|
// Retrieval info: PRIVATE: SSET NUMERIC "0"
|
// Retrieval info: PRIVATE: SSET NUMERIC "0"
|
// Retrieval info: PRIVATE: SSET_ALL1 NUMERIC "1"
|
// Retrieval info: PRIVATE: SSET_ALL1 NUMERIC "1"
|
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
|
// Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
|
// Retrieval info: PRIVATE: UseTFFdataPort NUMERIC "0"
|
// Retrieval info: PRIVATE: UseTFFdataPort NUMERIC "0"
|
// Retrieval info: PRIVATE: nBit NUMERIC "1"
|
// Retrieval info: PRIVATE: nBit NUMERIC "1"
|
// Retrieval info: CONSTANT: LPM_FFTYPE STRING "DFF"
|
// Retrieval info: CONSTANT: LPM_FFTYPE STRING "DFF"
|
// Retrieval info: CONSTANT: LPM_TYPE STRING "LPM_FF"
|
// Retrieval info: CONSTANT: LPM_TYPE STRING "LPM_FF"
|
// Retrieval info: CONSTANT: LPM_WIDTH NUMERIC "1"
|
// Retrieval info: CONSTANT: LPM_WIDTH NUMERIC "1"
|
// Retrieval info: USED_PORT: aclr 0 0 0 0 INPUT NODEFVAL aclr
|
// Retrieval info: USED_PORT: aclr 0 0 0 0 INPUT NODEFVAL aclr
|
// Retrieval info: USED_PORT: aset 0 0 0 0 INPUT NODEFVAL aset
|
// Retrieval info: USED_PORT: aset 0 0 0 0 INPUT NODEFVAL aset
|
// Retrieval info: USED_PORT: clock 0 0 0 0 INPUT NODEFVAL clock
|
// Retrieval info: USED_PORT: clock 0 0 0 0 INPUT NODEFVAL clock
|
// Retrieval info: USED_PORT: data 0 0 0 0 INPUT NODEFVAL data
|
// Retrieval info: USED_PORT: data 0 0 0 0 INPUT NODEFVAL data
|
// Retrieval info: USED_PORT: q 0 0 0 0 OUTPUT NODEFVAL q
|
// Retrieval info: USED_PORT: q 0 0 0 0 OUTPUT NODEFVAL q
|
// Retrieval info: CONNECT: @clock 0 0 0 0 clock 0 0 0 0
|
// Retrieval info: CONNECT: @clock 0 0 0 0 clock 0 0 0 0
|
// Retrieval info: CONNECT: q 0 0 0 0 @q 0 0 1 0
|
// Retrieval info: CONNECT: q 0 0 0 0 @q 0 0 1 0
|
// Retrieval info: CONNECT: @aclr 0 0 0 0 aclr 0 0 0 0
|
// Retrieval info: CONNECT: @aclr 0 0 0 0 aclr 0 0 0 0
|
// Retrieval info: CONNECT: @aset 0 0 0 0 aset 0 0 0 0
|
// Retrieval info: CONNECT: @aset 0 0 0 0 aset 0 0 0 0
|
// Retrieval info: CONNECT: @data 0 0 1 0 data 0 0 0 0
|
// Retrieval info: CONNECT: @data 0 0 1 0 data 0 0 0 0
|
// Retrieval info: LIBRARY: lpm lpm.lpm_components.all
|
// Retrieval info: LIBRARY: lpm lpm.lpm_components.all
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.v TRUE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.v TRUE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.inc FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.inc FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.cmp FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.cmp FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.bsf FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr.bsf FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr_inst.v FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr_inst.v FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr_bb.v FALSE
|
// Retrieval info: GEN_FILE: TYPE_NORMAL dff_sr_bb.v FALSE
|
// Retrieval info: LIB_FILE: lpm
|
// Retrieval info: LIB_FILE: lpm
|
`endif
|
`endif
|
|
|
`else
|
`else
|
|
|
`ifdef DFF_SR
|
`ifdef DFF_SR
|
`define MODULE dff_sr
|
`define MODULE dff_sr
|
module `BASE`MODULE ( aclr, aset, clock, data, q);
|
module `BASE`MODULE ( aclr, aset, clock, data, q);
|
`undef MODULE
|
`undef MODULE
|
|
|
input aclr;
|
input aclr;
|
input aset;
|
input aset;
|
input clock;
|
input clock;
|
input data;
|
input data;
|
output reg q;
|
output reg q;
|
|
|
always @ (posedge clock or posedge aclr or posedge aset)
|
always @ (posedge clock or posedge aclr or posedge aset)
|
if (aclr)
|
if (aclr)
|
q <= 1'b0;
|
q <= 1'b0;
|
else if (aset)
|
else if (aset)
|
q <= 1'b1;
|
q <= 1'b1;
|
else
|
else
|
q <= data;
|
q <= data;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`endif
|
`endif
|
|
|
// LATCH
|
// LATCH
|
// For targtes not supporting LATCH use dff_sr with clk=1 and data=1
|
// For targtes not supporting LATCH use dff_sr with clk=1 and data=1
|
`ifdef ALTERA
|
`ifdef ALTERA
|
|
|
`ifdef LATCH
|
`ifdef LATCH
|
`define MODULE latch
|
`define MODULE latch
|
module `BASE`MODULE ( d, le, q, clk);
|
module `BASE`MODULE ( d, le, q, clk);
|
`undef MODULE
|
`undef MODULE
|
input d, le;
|
input d, le;
|
output q;
|
output q;
|
input clk;
|
input clk;
|
dff_sr i0 (.aclr(), .aset(), .clock(1'b1), .data(1'b1), .q(q));
|
dff_sr i0 (.aclr(), .aset(), .clock(1'b1), .data(1'b1), .q(q));
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`else
|
`else
|
|
|
`ifdef LATCH
|
`ifdef LATCH
|
`define MODULE latch
|
`define MODULE latch
|
module `BASE`MODULE ( d, le, q, clk);
|
module `BASE`MODULE ( d, le, q, clk);
|
`undef MODULE
|
`undef MODULE
|
input d, le;
|
input d, le;
|
input clk;
|
input clk;
|
always @ (le or d)
|
always @ (le or d)
|
if (le)
|
if (le)
|
d <= q;
|
d <= q;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`endif
|
`endif
|
|
|
`ifdef SHREG
|
`ifdef SHREG
|
`define MODULE shreg
|
`define MODULE shreg
|
module `BASE`MODULE ( d, q, clk, rst);
|
module `BASE`MODULE ( d, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter depth = 10;
|
parameter depth = 10;
|
input d;
|
input d;
|
output q;
|
output q;
|
input clk, rst;
|
input clk, rst;
|
|
|
reg [1:depth] dffs;
|
reg [1:depth] dffs;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
dffs <= {depth{1'b0}};
|
dffs <= {depth{1'b0}};
|
else
|
else
|
dffs <= {d,dffs[1:depth-1]};
|
dffs <= {d,dffs[1:depth-1]};
|
assign q = dffs[depth];
|
assign q = dffs[depth];
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef SHREG_CE
|
`ifdef SHREG_CE
|
`define MODULE shreg_ce
|
`define MODULE shreg_ce
|
module `BASE`MODULE ( d, ce, q, clk, rst);
|
module `BASE`MODULE ( d, ce, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter depth = 10;
|
parameter depth = 10;
|
input d, ce;
|
input d, ce;
|
output q;
|
output q;
|
input clk, rst;
|
input clk, rst;
|
|
|
reg [1:depth] dffs;
|
reg [1:depth] dffs;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
dffs <= {depth{1'b0}};
|
dffs <= {depth{1'b0}};
|
else
|
else
|
if (ce)
|
if (ce)
|
dffs <= {d,dffs[1:depth-1]};
|
dffs <= {d,dffs[1:depth-1]};
|
assign q = dffs[depth];
|
assign q = dffs[depth];
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DELAY
|
`ifdef DELAY
|
`define MODULE delay
|
`define MODULE delay
|
module `BASE`MODULE ( d, q, clk, rst);
|
module `BASE`MODULE ( d, q, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter depth = 10;
|
parameter depth = 10;
|
input d;
|
input d;
|
output q;
|
output q;
|
input clk, rst;
|
input clk, rst;
|
|
|
reg [1:depth] dffs;
|
reg [1:depth] dffs;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
dffs <= {depth{1'b0}};
|
dffs <= {depth{1'b0}};
|
else
|
else
|
dffs <= {d,dffs[1:depth-1]};
|
dffs <= {d,dffs[1:depth-1]};
|
assign q = dffs[depth];
|
assign q = dffs[depth];
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DELAY_EMPTYFLAG
|
`ifdef DELAY_EMPTYFLAG
|
`define MODULE delay_emptyflag
|
`define MODULE delay_emptyflag
|
module `BASE`MODULE ( d, q, emptyflag, clk, rst);
|
module `BASE`MODULE ( d, q, emptyflag, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter depth = 10;
|
parameter depth = 10;
|
input d;
|
input d;
|
output q, emptyflag;
|
output q, emptyflag;
|
input clk, rst;
|
input clk, rst;
|
|
|
reg [1:depth] dffs;
|
reg [1:depth] dffs;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
dffs <= {depth{1'b0}};
|
dffs <= {depth{1'b0}};
|
else
|
else
|
dffs <= {d,dffs[1:depth-1]};
|
dffs <= {d,dffs[1:depth-1]};
|
assign q = dffs[depth];
|
assign q = dffs[depth];
|
assign emptyflag = !(|dffs);
|
assign emptyflag = !(|dffs);
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef ASYNC_REG_REQ_ACK
|
`ifdef ASYNC_REG_REQ_ACK
|
`define MODULE async_reg_req_ack
|
`define MODULE async_reg_req_ack
|
module `BASE`MODULE ( d, q, req_i, req_o, ack_i, ack_o, clk_a, rst_a, clk_b, rst_b);
|
module `BASE`MODULE ( d, q, req_i, req_o, ack_i, ack_o, clk_a, rst_a, clk_b, rst_b);
|
`undef MODULE
|
`undef MODULE
|
parameter data_width = 8;
|
parameter data_width = 8;
|
input [data_width-1:0] d;
|
input [data_width-1:0] d;
|
output [data_width-1:0] q;
|
output [data_width-1:0] q;
|
input req_i;
|
input req_i;
|
output req_o;
|
output req_o;
|
input ack_i;
|
input ack_i;
|
output ack_o;
|
output ack_o;
|
input clk_a, rst_a, clk_b, rst_b;
|
input clk_a, rst_a, clk_b, rst_b;
|
|
|
reg [3:0] reqi; // 3: last req in clk_a, 2: input dff, 1-0: sync
|
reg [3:0] reqi; // 3: last req in clk_a, 2: input dff, 1-0: sync
|
wire rst;
|
wire rst;
|
|
|
always @ (posedge clk_a or rst_a)
|
always @ (posedge clk_a or rst_a)
|
if (rst_a)
|
if (rst_a)
|
q <= {data_width{1'b0}};
|
q <= {data_width{1'b0}};
|
else
|
else
|
if (req_i)
|
if (req_i)
|
q <= d;
|
q <= d;
|
|
|
assign rst = ack_i | rst_a;
|
assign rst = ack_i | rst_a;
|
always @ (posedge clk_a or posedge rst)
|
always @ (posedge clk_a or posedge rst)
|
if (rst)
|
if (rst)
|
req[2] <= 1'b0;
|
req[2] <= 1'b0;
|
else
|
else
|
req[2] <= req_i & !ack_o;
|
req[2] <= req_i & !ack_o;
|
|
|
always @ (posedge clk_a or posedge rst_a)
|
always @ (posedge clk_a or posedge rst_a)
|
if (rst_a)
|
if (rst_a)
|
req[3] <= 1'b0;
|
req[3] <= 1'b0;
|
else
|
else
|
req[3] <= req[2];
|
req[3] <= req[2];
|
|
|
always @ (posedge clk_b or posedge rst_b)
|
always @ (posedge clk_b or posedge rst_b)
|
if (rst_b)
|
if (rst_b)
|
req[1:0] <= 2'b00;
|
req[1:0] <= 2'b00;
|
else
|
else
|
if (ack_i)
|
if (ack_i)
|
req[1:0] <= 2'b00;
|
req[1:0] <= 2'b00;
|
else
|
else
|
req[1:0] <= req[2:1];
|
req[1:0] <= req[2:1];
|
assign req_o = req[0];
|
assign req_o = req[0];
|
|
|
always @ (posedge clk_a or posedge rst_a)
|
always @ (posedge clk_a or posedge rst_a)
|
if (rst_a)
|
if (rst_a)
|
ack_o <= 1'b0;
|
ack_o <= 1'b0;
|
else
|
else
|
ack_o <= req[3] & req[2];
|
ack_o <= req[3] & req[2];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Logic functions ////
|
//// Logic functions ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Logic functions such as multiplexers ////
|
//// Logic functions such as multiplexers ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - ////
|
//// - ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
`ifdef MUX_ANDOR
|
`ifdef MUX_ANDOR
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
module `BASE`MODULE ( a, sel, dout);
|
module `BASE`MODULE ( a, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
parameter nr_of_ports = 4;
|
parameter nr_of_ports = 4;
|
|
|
input [nr_of_ports*width-1:0] a;
|
input [nr_of_ports*width-1:0] a;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output reg [width-1:0] dout;
|
output reg [width-1:0] dout;
|
|
|
integer i,j;
|
integer i,j;
|
|
|
always @ (a, sel)
|
always @ (a, sel)
|
begin
|
begin
|
dout = a[width-1:0] & {width{sel[0]}};
|
dout = a[width-1:0] & {width{sel[0]}};
|
for (i=1;i<nr_of_ports;i=i+1)
|
for (i=1;i<nr_of_ports;i=i+1)
|
for (j=0;j<width;j=j+1)
|
for (j=0;j<width;j=j+1)
|
dout[j] = (a[i*width + j] & sel[i]) | dout[j];
|
dout[j] = (a[i*width + j] & sel[i]) | dout[j];
|
end
|
end
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MUX2_ANDOR
|
`ifdef MUX2_ANDOR
|
`define MODULE mux2_andor
|
`define MODULE mux2_andor
|
module `BASE`MODULE ( a1, a0, sel, dout);
|
module `BASE`MODULE ( a1, a0, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
localparam nr_of_ports = 2;
|
localparam nr_of_ports = 2;
|
input [width-1:0] a1, a0;
|
input [width-1:0] a1, a0;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
mux0( .a({a1,a0}), .sel(sel), .dout(dout));
|
mux0( .a({a1,a0}), .sel(sel), .dout(dout));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MUX3_ANDOR
|
`ifdef MUX3_ANDOR
|
`define MODULE mux3_andor
|
`define MODULE mux3_andor
|
module `BASE`MODULE ( a2, a1, a0, sel, dout);
|
module `BASE`MODULE ( a2, a1, a0, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
localparam nr_of_ports = 3;
|
localparam nr_of_ports = 3;
|
input [width-1:0] a2, a1, a0;
|
input [width-1:0] a2, a1, a0;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
mux0( .a({a2,a1,a0}), .sel(sel), .dout(dout));
|
mux0( .a({a2,a1,a0}), .sel(sel), .dout(dout));
|
`undef MODULE
|
`undef MODULE
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MUX4_ANDOR
|
`ifdef MUX4_ANDOR
|
`define MODULE mux4_andor
|
`define MODULE mux4_andor
|
module `BASE`MODULE ( a3, a2, a1, a0, sel, dout);
|
module `BASE`MODULE ( a3, a2, a1, a0, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
localparam nr_of_ports = 4;
|
localparam nr_of_ports = 4;
|
input [width-1:0] a3, a2, a1, a0;
|
input [width-1:0] a3, a2, a1, a0;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
mux0( .a({a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
mux0( .a({a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MUX5_ANDOR
|
`ifdef MUX5_ANDOR
|
`define MODULE mux5_andor
|
`define MODULE mux5_andor
|
module `BASE`MODULE ( a4, a3, a2, a1, a0, sel, dout);
|
module `BASE`MODULE ( a4, a3, a2, a1, a0, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
localparam nr_of_ports = 5;
|
localparam nr_of_ports = 5;
|
input [width-1:0] a4, a3, a2, a1, a0;
|
input [width-1:0] a4, a3, a2, a1, a0;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
mux0( .a({a4,a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
mux0( .a({a4,a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MUX6_ANDOR
|
`ifdef MUX6_ANDOR
|
`define MODULE mux6_andor
|
`define MODULE mux6_andor
|
module `BASE`MODULE ( a5, a4, a3, a2, a1, a0, sel, dout);
|
module `BASE`MODULE ( a5, a4, a3, a2, a1, a0, sel, dout);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter width = 32;
|
parameter width = 32;
|
localparam nr_of_ports = 6;
|
localparam nr_of_ports = 6;
|
input [width-1:0] a5, a4, a3, a2, a1, a0;
|
input [width-1:0] a5, a4, a3, a2, a1, a0;
|
input [nr_of_ports-1:0] sel;
|
input [nr_of_ports-1:0] sel;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
# ( .width(width), .nr_of_ports(nr_of_ports))
|
mux0( .a({a5,a4,a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
mux0( .a({a5,a4,a3,a2,a1,a0}), .sel(sel), .dout(dout));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef PARITY
|
`ifdef PARITY
|
|
|
`define MODULE parity_generate
|
`define MODULE parity_generate
|
module `BASE`MODULE (data, parity);
|
module `BASE`MODULE (data, parity);
|
`undef MODULE
|
`undef MODULE
|
parameter word_size = 32;
|
parameter word_size = 32;
|
parameter chunk_size = 8;
|
parameter chunk_size = 8;
|
parameter parity_type = 1'b0; // 0 - even, 1 - odd parity
|
parameter parity_type = 1'b0; // 0 - even, 1 - odd parity
|
input [word_size-1:0] data;
|
input [word_size-1:0] data;
|
output reg [word_size/chunk_size-1:0] parity;
|
output reg [word_size/chunk_size-1:0] parity;
|
integer i,j;
|
integer i,j;
|
always @ (data)
|
always @ (data)
|
for (i=0;i<word_size/chunk_size;i=i+1) begin
|
for (i=0;i<word_size/chunk_size;i=i+1) begin
|
parity[i] = parity_type;
|
parity[i] = parity_type;
|
for (j=0;j<chunk_size;j=j+1) begin
|
for (j=0;j<chunk_size;j=j+1) begin
|
parity[i] = data[i*chunk_size+j] ^ parity[i];
|
parity[i] = data[i*chunk_size+j] ^ parity[i];
|
end
|
end
|
end
|
end
|
endmodule
|
endmodule
|
|
|
`define MODULE parity_check
|
`define MODULE parity_check
|
module `BASE`MODULE( data, parity, parity_error);
|
module `BASE`MODULE( data, parity, parity_error);
|
`undef MODULE
|
`undef MODULE
|
parameter word_size = 32;
|
parameter word_size = 32;
|
parameter chunk_size = 8;
|
parameter chunk_size = 8;
|
parameter parity_type = 1'b0; // 0 - even, 1 - odd parity
|
parameter parity_type = 1'b0; // 0 - even, 1 - odd parity
|
input [word_size-1:0] data;
|
input [word_size-1:0] data;
|
input [word_size/chunk_size-1:0] parity;
|
input [word_size/chunk_size-1:0] parity;
|
output parity_error;
|
output parity_error;
|
reg [word_size/chunk_size-1:0] error_flag;
|
reg [word_size/chunk_size-1:0] error_flag;
|
integer i,j;
|
integer i,j;
|
always @ (data or parity)
|
always @ (data or parity)
|
for (i=0;i<word_size/chunk_size;i=i+1) begin
|
for (i=0;i<word_size/chunk_size;i=i+1) begin
|
error_flag[i] = parity[i] ^ parity_type;
|
error_flag[i] = parity[i] ^ parity_type;
|
for (j=0;j<chunk_size;j=j+1) begin
|
for (j=0;j<chunk_size;j=j+1) begin
|
error_flag[i] = data[i*chunk_size+j] ^ error_flag[i];
|
error_flag[i] = data[i*chunk_size+j] ^ error_flag[i];
|
end
|
end
|
end
|
end
|
assign parity_error = |error_flag;
|
assign parity_error = |error_flag;
|
endmodule
|
endmodule
|
|
|
`endif//////////////////////////////////////////////////////////////////////
|
`endif//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// IO functions ////
|
//// IO functions ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// IO functions such as IOB flip-flops ////
|
//// IO functions such as IOB flip-flops ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - ////
|
//// - ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
`timescale 1ns/1ns
|
`timescale 1ns/1ns
|
`ifdef O_DFF
|
`ifdef O_DFF
|
`define MODULE o_dff
|
`define MODULE o_dff
|
module `BASE`MODULE (d_i, o_pad, clk, rst);
|
module `BASE`MODULE (d_i, o_pad, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 1;
|
parameter width = 1;
|
parameter reset_value = {width{1'b0}};
|
parameter reset_value = {width{1'b0}};
|
input [width-1:0] d_i;
|
input [width-1:0] d_i;
|
output [width-1:0] o_pad;
|
output [width-1:0] o_pad;
|
input clk, rst;
|
input clk, rst;
|
wire [width-1:0] d_i_int `SYN_KEEP;
|
wire [width-1:0] d_i_int `SYN_KEEP;
|
reg [width-1:0] o_pad_int;
|
reg [width-1:0] o_pad_int;
|
assign d_i_int = d_i;
|
assign d_i_int = d_i;
|
genvar i;
|
genvar i;
|
generate
|
generate
|
for (i=0;i<width;i=i+1) begin
|
for (i=0;i<width;i=i+1) begin
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
o_pad_int[i] <= reset_value[i];
|
o_pad_int[i] <= reset_value[i];
|
else
|
else
|
o_pad_int[i] <= d_i_int[i];
|
o_pad_int[i] <= d_i_int[i];
|
assign #1 o_pad[i] = o_pad_int[i];
|
assign #1 o_pad[i] = o_pad_int[i];
|
end
|
end
|
endgenerate
|
endgenerate
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`timescale 1ns/1ns
|
`timescale 1ns/1ns
|
`ifdef IO_DFF_OE
|
`ifdef IO_DFF_OE
|
`define MODULE io_dff_oe
|
`define MODULE io_dff_oe
|
module `BASE`MODULE ( d_i, d_o, oe, io_pad, clk, rst);
|
module `BASE`MODULE ( d_i, d_o, oe, io_pad, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 1;
|
parameter width = 1;
|
input [width-1:0] d_o;
|
input [width-1:0] d_o;
|
output reg [width-1:0] d_i;
|
output reg [width-1:0] d_i;
|
input oe;
|
input oe;
|
inout [width-1:0] io_pad;
|
inout [width-1:0] io_pad;
|
input clk, rst;
|
input clk, rst;
|
wire [width-1:0] oe_d `SYN_KEEP;
|
wire [width-1:0] oe_d `SYN_KEEP;
|
reg [width-1:0] oe_q;
|
reg [width-1:0] oe_q;
|
reg [width-1:0] d_o_q;
|
reg [width-1:0] d_o_q;
|
assign oe_d = {width{oe}};
|
assign oe_d = {width{oe}};
|
genvar i;
|
genvar i;
|
generate
|
generate
|
for (i=0;i<width;i=i+1) begin
|
for (i=0;i<width;i=i+1) begin
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
oe_q[i] <= 1'b0;
|
oe_q[i] <= 1'b0;
|
else
|
else
|
oe_q[i] <= oe_d[i];
|
oe_q[i] <= oe_d[i];
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
d_o_q[i] <= 1'b0;
|
d_o_q[i] <= 1'b0;
|
else
|
else
|
d_o_q[i] <= d_o[i];
|
d_o_q[i] <= d_o[i];
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
d_i[i] <= 1'b0;
|
d_i[i] <= 1'b0;
|
else
|
else
|
d_i[i] <= io_pad[i];
|
d_i[i] <= io_pad[i];
|
assign #1 io_pad[i] = (oe_q[i]) ? d_o_q[i] : 1'bz;
|
assign #1 io_pad[i] = (oe_q[i]) ? d_o_q[i] : 1'bz;
|
end
|
end
|
endgenerate
|
endgenerate
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN
|
`ifdef CNT_BIN
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin
|
`define MODULE cnt_bin
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
q, rst, clk);
|
q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CLEAR
|
`ifdef CNT_BIN_CLEAR
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_clear
|
`define MODULE cnt_bin_clear
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
clear, q, rst, clk);
|
clear, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input clear;
|
input clear;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE
|
`ifdef CNT_BIN_CE
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce
|
`define MODULE cnt_bin_ce
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, q, rst, clk);
|
cke, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_CLEAR
|
`ifdef CNT_BIN_CE_CLEAR
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_clear
|
`define MODULE cnt_bin_ce_clear
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
clear, cke, q, rst, clk);
|
clear, cke, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input clear;
|
input clear;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_CLEAR_L1_L2
|
`ifdef CNT_BIN_CE_CLEAR_L1_L2
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_clear_l1_l2
|
`define MODULE cnt_bin_ce_clear_l1_l2
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
clear, cke, q, level1, level2, rst, clk);
|
clear, cke, q, level1, level2, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input clear;
|
input clear;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
output reg level1;
|
output reg level1;
|
output reg level2;
|
output reg level2;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 15;
|
parameter wrap_value = 15;
|
parameter level1_value = 8;
|
parameter level1_value = 8;
|
parameter level2_value = 15;
|
parameter level2_value = 15;
|
|
|
wire rew;
|
wire rew;
|
assign rew = 1'b0;
|
assign rew = 1'b0;
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
assign q_next = clear ? {length{1'b0}} :qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else if (q_next == level1_value)
|
else if (q_next == level1_value)
|
level1 <= 1'b1;
|
level1 <= 1'b1;
|
else if (qi == level1_value & rew)
|
else if (qi == level1_value & rew)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level2 <= 1'b0;
|
level2 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level2 <= 1'b0;
|
level2 <= 1'b0;
|
else if (q_next == level2_value)
|
else if (q_next == level2_value)
|
level2 <= 1'b1;
|
level2 <= 1'b1;
|
else if (qi == level2_value & rew)
|
else if (qi == level2_value & rew)
|
level2 <= 1'b0;
|
level2 <= 1'b0;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_CLEAR_SET_REW
|
`ifdef CNT_BIN_CE_CLEAR_SET_REW
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_clear_set_rew
|
`define MODULE cnt_bin_ce_clear_set_rew
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
clear, set, cke, rew, q, rst, clk);
|
clear, set, cke, rew, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input clear;
|
input clear;
|
input set;
|
input set;
|
input cke;
|
input cke;
|
input rew;
|
input rew;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
assign q_next_fw = clear ? {length{1'b0}} : set ? set_value :qi + {{length-1{1'b0}},1'b1};
|
assign q_next_fw = clear ? {length{1'b0}} : set ? set_value :qi + {{length-1{1'b0}},1'b1};
|
assign q_next_rew = clear ? clear_value : set ? set_value :qi - {{length-1{1'b0}},1'b1};
|
assign q_next_rew = clear ? clear_value : set ? set_value :qi - {{length-1{1'b0}},1'b1};
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_REW_L1
|
`ifdef CNT_BIN_CE_REW_L1
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_rew_l1
|
`define MODULE cnt_bin_ce_rew_l1
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, rew, level1, rst, clk);
|
cke, rew, level1, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
input rew;
|
input rew;
|
output reg level1;
|
output reg level1;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 1;
|
parameter wrap_value = 1;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
wire clear;
|
wire clear;
|
assign clear = 1'b0;
|
assign clear = 1'b0;
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else if (q_next == level1_value)
|
else if (q_next == level1_value)
|
level1 <= 1'b1;
|
level1 <= 1'b1;
|
else if (qi == level1_value & rew)
|
else if (qi == level1_value & rew)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_REW_ZQ_L1
|
`ifdef CNT_BIN_CE_REW_ZQ_L1
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_rew_zq_l1
|
`define MODULE cnt_bin_ce_rew_zq_l1
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, rew, zq, level1, rst, clk);
|
cke, rew, zq, level1, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
input rew;
|
input rew;
|
output reg zq;
|
output reg zq;
|
output reg level1;
|
output reg level1;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 1;
|
parameter wrap_value = 1;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
wire clear;
|
wire clear;
|
assign clear = 1'b0;
|
assign clear = 1'b0;
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
if (cke)
|
if (cke)
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else if (q_next == level1_value)
|
else if (q_next == level1_value)
|
level1 <= 1'b1;
|
level1 <= 1'b1;
|
else if (qi == level1_value & rew)
|
else if (qi == level1_value & rew)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_BIN_CE_REW_Q_ZQ_L1
|
`ifdef CNT_BIN_CE_REW_Q_ZQ_L1
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// binary counter
|
// binary counter
|
|
|
`define MODULE cnt_bin_ce_rew_q_zq_l1
|
`define MODULE cnt_bin_ce_rew_q_zq_l1
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, rew, q, zq, level1, rst, clk);
|
cke, rew, q, zq, level1, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
input rew;
|
input rew;
|
output [length:1] q;
|
output [length:1] q;
|
output reg zq;
|
output reg zq;
|
output reg level1;
|
output reg level1;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 1;
|
parameter wrap_value = 1;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
wire clear;
|
wire clear;
|
assign clear = 1'b0;
|
assign clear = 1'b0;
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_fw = qi + {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next_rew = qi - {{length-1{1'b0}},1'b1};
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
if (cke)
|
if (cke)
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else if (q_next == level1_value)
|
else if (q_next == level1_value)
|
level1 <= 1'b1;
|
level1 <= 1'b1;
|
else if (qi == level1_value & rew)
|
else if (qi == level1_value & rew)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_ZQ
|
`ifdef CNT_LFSR_ZQ
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_zq
|
`define MODULE cnt_lfsr_zq
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
zq, rst, clk);
|
zq, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
output reg zq;
|
output reg zq;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE
|
`ifdef CNT_LFSR_CE
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce
|
`define MODULE cnt_lfsr_ce
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, zq, rst, clk);
|
cke, zq, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output reg zq;
|
output reg zq;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 0;
|
parameter wrap_value = 0;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
if (cke)
|
if (cke)
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE_ZQ
|
`ifdef CNT_LFSR_CE_ZQ
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce_zq
|
`define MODULE cnt_lfsr_ce_zq
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, zq, rst, clk);
|
cke, zq, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output reg zq;
|
output reg zq;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
if (cke)
|
if (cke)
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE_Q
|
`ifdef CNT_LFSR_CE_Q
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce_q
|
`define MODULE cnt_lfsr_ce_q
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, q, rst, clk);
|
cke, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE_CLEAR_Q
|
`ifdef CNT_LFSR_CE_CLEAR_Q
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce_clear_q
|
`define MODULE cnt_lfsr_ce_clear_q
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
clear, cke, q, rst, clk);
|
clear, cke, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input clear;
|
input clear;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = clear ? {length{1'b0}} :(qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = clear ? {length{1'b0}} :(qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE_Q_ZQ
|
`ifdef CNT_LFSR_CE_Q_ZQ
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce_q_zq
|
`define MODULE cnt_lfsr_ce_q_zq
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, q, zq, rst, clk);
|
cke, q, zq, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output [length:1] q;
|
output [length:1] q;
|
output reg zq;
|
output reg zq;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb;
|
reg lfsr_fb;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
assign q = qi;
|
assign q = qi;
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
zq <= 1'b1;
|
zq <= 1'b1;
|
else
|
else
|
if (cke)
|
if (cke)
|
zq <= q_next == {length{1'b0}};
|
zq <= q_next == {length{1'b0}};
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_LFSR_CE_REW_L1
|
`ifdef CNT_LFSR_CE_REW_L1
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// LFSR counter
|
// LFSR counter
|
|
|
`define MODULE cnt_lfsr_ce_rew_l1
|
`define MODULE cnt_lfsr_ce_rew_l1
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, rew, level1, rst, clk);
|
cke, rew, level1, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
input rew;
|
input rew;
|
output reg level1;
|
output reg level1;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
wire clear;
|
wire clear;
|
assign clear = 1'b0;
|
assign clear = 1'b0;
|
reg [length:1] qi;
|
reg [length:1] qi;
|
reg lfsr_fb, lfsr_fb_rew;
|
reg lfsr_fb, lfsr_fb_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
wire [length:1] q_next, q_next_fw, q_next_rew;
|
reg [32:1] polynom_rew;
|
reg [32:1] polynom_rew;
|
integer j;
|
integer j;
|
reg [32:1] polynom;
|
reg [32:1] polynom;
|
integer i;
|
integer i;
|
|
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom = 32'b11; // 0x3
|
2: polynom = 32'b11; // 0x3
|
3: polynom = 32'b110; // 0x6
|
3: polynom = 32'b110; // 0x6
|
4: polynom = 32'b1100; // 0xC
|
4: polynom = 32'b1100; // 0xC
|
5: polynom = 32'b10100; // 0x14
|
5: polynom = 32'b10100; // 0x14
|
6: polynom = 32'b110000; // 0x30
|
6: polynom = 32'b110000; // 0x30
|
7: polynom = 32'b1100000; // 0x60
|
7: polynom = 32'b1100000; // 0x60
|
8: polynom = 32'b10111000; // 0xb8
|
8: polynom = 32'b10111000; // 0xb8
|
9: polynom = 32'b100010000; // 0x110
|
9: polynom = 32'b100010000; // 0x110
|
10: polynom = 32'b1001000000; // 0x240
|
10: polynom = 32'b1001000000; // 0x240
|
11: polynom = 32'b10100000000; // 0x500
|
11: polynom = 32'b10100000000; // 0x500
|
12: polynom = 32'b100000101001; // 0x829
|
12: polynom = 32'b100000101001; // 0x829
|
13: polynom = 32'b1000000001100; // 0x100C
|
13: polynom = 32'b1000000001100; // 0x100C
|
14: polynom = 32'b10000000010101; // 0x2015
|
14: polynom = 32'b10000000010101; // 0x2015
|
15: polynom = 32'b110000000000000; // 0x6000
|
15: polynom = 32'b110000000000000; // 0x6000
|
16: polynom = 32'b1101000000001000; // 0xD008
|
16: polynom = 32'b1101000000001000; // 0xD008
|
17: polynom = 32'b10010000000000000; // 0x12000
|
17: polynom = 32'b10010000000000000; // 0x12000
|
18: polynom = 32'b100000010000000000; // 0x20400
|
18: polynom = 32'b100000010000000000; // 0x20400
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
19: polynom = 32'b1000000000000100011; // 0x40023
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
20: polynom = 32'b10010000000000000000; // 0x90000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
21: polynom = 32'b101000000000000000000; // 0x140000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
22: polynom = 32'b1100000000000000000000; // 0x300000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
23: polynom = 32'b10000100000000000000000; // 0x420000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
24: polynom = 32'b111000010000000000000000; // 0xE10000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
25: polynom = 32'b1001000000000000000000000; // 0x1200000
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
26: polynom = 32'b10000000000000000000100011; // 0x2000023
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
27: polynom = 32'b100000000000000000000010011; // 0x4000013
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
28: polynom = 32'b1100100000000000000000000000; // 0xC800000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
29: polynom = 32'b10100000000000000000000000000; // 0x14000000
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
30: polynom = 32'b100000000000000000000000101001; // 0x20000029
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
31: polynom = 32'b1001000000000000000000000000000; // 0x48000000
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
32: polynom = 32'b10000000001000000000000000000011; // 0x80200003
|
default: polynom = 32'b0;
|
default: polynom = 32'b0;
|
endcase
|
endcase
|
lfsr_fb = qi[length];
|
lfsr_fb = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom[i])
|
if (polynom[i])
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
lfsr_fb = lfsr_fb ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next_fw = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
assign q_next_fw = (qi == wrap_value) ? {length{1'b0}} :{qi[length-1:1],lfsr_fb};
|
always @ (qi)
|
always @ (qi)
|
begin
|
begin
|
case (length)
|
case (length)
|
2: polynom_rew = 32'b11;
|
2: polynom_rew = 32'b11;
|
3: polynom_rew = 32'b110;
|
3: polynom_rew = 32'b110;
|
4: polynom_rew = 32'b1100;
|
4: polynom_rew = 32'b1100;
|
5: polynom_rew = 32'b10100;
|
5: polynom_rew = 32'b10100;
|
6: polynom_rew = 32'b110000;
|
6: polynom_rew = 32'b110000;
|
7: polynom_rew = 32'b1100000;
|
7: polynom_rew = 32'b1100000;
|
8: polynom_rew = 32'b10111000;
|
8: polynom_rew = 32'b10111000;
|
9: polynom_rew = 32'b100010000;
|
9: polynom_rew = 32'b100010000;
|
10: polynom_rew = 32'b1001000000;
|
10: polynom_rew = 32'b1001000000;
|
11: polynom_rew = 32'b10100000000;
|
11: polynom_rew = 32'b10100000000;
|
12: polynom_rew = 32'b100000101001;
|
12: polynom_rew = 32'b100000101001;
|
13: polynom_rew = 32'b1000000001100;
|
13: polynom_rew = 32'b1000000001100;
|
14: polynom_rew = 32'b10000000010101;
|
14: polynom_rew = 32'b10000000010101;
|
15: polynom_rew = 32'b110000000000000;
|
15: polynom_rew = 32'b110000000000000;
|
16: polynom_rew = 32'b1101000000001000;
|
16: polynom_rew = 32'b1101000000001000;
|
17: polynom_rew = 32'b10010000000000000;
|
17: polynom_rew = 32'b10010000000000000;
|
18: polynom_rew = 32'b100000010000000000;
|
18: polynom_rew = 32'b100000010000000000;
|
19: polynom_rew = 32'b1000000000000100011;
|
19: polynom_rew = 32'b1000000000000100011;
|
20: polynom_rew = 32'b10000010000000000000;
|
20: polynom_rew = 32'b10000010000000000000;
|
21: polynom_rew = 32'b101000000000000000000;
|
21: polynom_rew = 32'b101000000000000000000;
|
22: polynom_rew = 32'b1100000000000000000000;
|
22: polynom_rew = 32'b1100000000000000000000;
|
23: polynom_rew = 32'b10000100000000000000000;
|
23: polynom_rew = 32'b10000100000000000000000;
|
24: polynom_rew = 32'b111000010000000000000000;
|
24: polynom_rew = 32'b111000010000000000000000;
|
25: polynom_rew = 32'b1001000000000000000000000;
|
25: polynom_rew = 32'b1001000000000000000000000;
|
26: polynom_rew = 32'b10000000000000000000100011;
|
26: polynom_rew = 32'b10000000000000000000100011;
|
27: polynom_rew = 32'b100000000000000000000010011;
|
27: polynom_rew = 32'b100000000000000000000010011;
|
28: polynom_rew = 32'b1100100000000000000000000000;
|
28: polynom_rew = 32'b1100100000000000000000000000;
|
29: polynom_rew = 32'b10100000000000000000000000000;
|
29: polynom_rew = 32'b10100000000000000000000000000;
|
30: polynom_rew = 32'b100000000000000000000000101001;
|
30: polynom_rew = 32'b100000000000000000000000101001;
|
31: polynom_rew = 32'b1001000000000000000000000000000;
|
31: polynom_rew = 32'b1001000000000000000000000000000;
|
32: polynom_rew = 32'b10000000001000000000000000000011;
|
32: polynom_rew = 32'b10000000001000000000000000000011;
|
default: polynom_rew = 32'b0;
|
default: polynom_rew = 32'b0;
|
endcase
|
endcase
|
// rotate left
|
// rotate left
|
polynom_rew[length:1] = { polynom_rew[length-2:1],polynom_rew[length] };
|
polynom_rew[length:1] = { polynom_rew[length-2:1],polynom_rew[length] };
|
lfsr_fb_rew = qi[length];
|
lfsr_fb_rew = qi[length];
|
for (i=length-1; i>=1; i=i-1) begin
|
for (i=length-1; i>=1; i=i-1) begin
|
if (polynom_rew[i])
|
if (polynom_rew[i])
|
lfsr_fb_rew = lfsr_fb_rew ~^ qi[i];
|
lfsr_fb_rew = lfsr_fb_rew ~^ qi[i];
|
end
|
end
|
end
|
end
|
assign q_next_rew = (qi == wrap_value) ? {length{1'b0}} :{lfsr_fb_rew,qi[length:2]};
|
assign q_next_rew = (qi == wrap_value) ? {length{1'b0}} :{lfsr_fb_rew,qi[length:2]};
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
assign q_next = rew ? q_next_rew : q_next_fw;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
|
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
else if (q_next == level1_value)
|
else if (q_next == level1_value)
|
level1 <= 1'b1;
|
level1 <= 1'b1;
|
else if (qi == level1_value & rew)
|
else if (qi == level1_value & rew)
|
level1 <= 1'b0;
|
level1 <= 1'b0;
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_GRAY
|
`ifdef CNT_GRAY
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// GRAY counter
|
// GRAY counter
|
|
|
`define MODULE cnt_gray
|
`define MODULE cnt_gray
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
q, rst, clk);
|
q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
output reg [length:1] q;
|
output reg [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
qi <= q_next;
|
qi <= q_next;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {length{1'b0}};
|
q <= {length{1'b0}};
|
else
|
else
|
q <= (q_next>>1) ^ q_next;
|
q <= (q_next>>1) ^ q_next;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_GRAY_CE
|
`ifdef CNT_GRAY_CE
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// GRAY counter
|
// GRAY counter
|
|
|
`define MODULE cnt_gray_ce
|
`define MODULE cnt_gray_ce
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, q, rst, clk);
|
cke, q, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output reg [length:1] q;
|
output reg [length:1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {length{1'b0}};
|
q <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
q <= (q_next>>1) ^ q_next;
|
q <= (q_next>>1) ^ q_next;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef CNT_GRAY_CE_BIN
|
`ifdef CNT_GRAY_CE_BIN
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile counter ////
|
//// Versatile counter ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// Versatile counter, a reconfigurable binary, gray or LFSR ////
|
//// counter ////
|
//// counter ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add LFSR with more taps ////
|
//// - add LFSR with more taps ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2009 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
// GRAY counter
|
// GRAY counter
|
|
|
`define MODULE cnt_gray_ce_bin
|
`define MODULE cnt_gray_ce_bin
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
cke, q, q_bin, rst, clk);
|
cke, q, q_bin, rst, clk);
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output reg [length:1] q;
|
output reg [length:1] q;
|
output [length:1] q_bin;
|
output [length:1] q_bin;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
parameter clear_value = 0;
|
parameter clear_value = 0;
|
parameter set_value = 1;
|
parameter set_value = 1;
|
parameter wrap_value = 8;
|
parameter wrap_value = 8;
|
parameter level1_value = 15;
|
parameter level1_value = 15;
|
|
|
reg [length:1] qi;
|
reg [length:1] qi;
|
wire [length:1] q_next;
|
wire [length:1] q_next;
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
assign q_next = qi + {{length-1{1'b0}},1'b1};
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
qi <= {length{1'b0}};
|
qi <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
qi <= q_next;
|
qi <= q_next;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {length{1'b0}};
|
q <= {length{1'b0}};
|
else
|
else
|
if (cke)
|
if (cke)
|
q <= (q_next>>1) ^ q_next;
|
q <= (q_next>>1) ^ q_next;
|
|
|
assign q_bin = qi;
|
assign q_bin = qi;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile library, counters ////
|
//// Versatile library, counters ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// counters ////
|
//// counters ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add more counters ////
|
//// - add more counters ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef CNT_SHREG_WRAP
|
`ifdef CNT_SHREG_WRAP
|
`define MODULE cnt_shreg_wrap
|
`define MODULE cnt_shreg_wrap
|
module `BASE`MODULE ( q, rst, clk);
|
module `BASE`MODULE ( q, rst, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter length = 4;
|
parameter length = 4;
|
output reg [0:length-1] q;
|
output reg [0:length-1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
q <= {q[length-1],q[0:length-2]};
|
q <= {q[length-1],q[0:length-2]};
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef CNT_SHREG_CE_WRAP
|
`ifdef CNT_SHREG_CE_WRAP
|
`define MODULE cnt_shreg_ce_wrap
|
`define MODULE cnt_shreg_ce_wrap
|
module `BASE`MODULE ( cke, q, rst, clk);
|
module `BASE`MODULE ( cke, q, rst, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke;
|
input cke;
|
output reg [0:length-1] q;
|
output reg [0:length-1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
if (cke)
|
if (cke)
|
q <= {q[length-1],q[0:length-2]};
|
q <= {q[length-1],q[0:length-2]};
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef CNT_SHREG_CE_CLEAR
|
`ifdef CNT_SHREG_CE_CLEAR
|
`define MODULE cnt_shreg_ce_clear
|
`define MODULE cnt_shreg_ce_clear
|
module `BASE`MODULE ( cke, clear, q, rst, clk);
|
module `BASE`MODULE ( cke, clear, q, rst, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke, clear;
|
input cke, clear;
|
output reg [0:length-1] q;
|
output reg [0:length-1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
q <= q >> 1;
|
q <= q >> 1;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef CNT_SHREG_CE_CLEAR_WRAP
|
`ifdef CNT_SHREG_CE_CLEAR_WRAP
|
`define MODULE cnt_shreg_ce_clear_wrap
|
`define MODULE cnt_shreg_ce_clear_wrap
|
module `BASE`MODULE ( cke, clear, q, rst, clk);
|
module `BASE`MODULE ( cke, clear, q, rst, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter length = 4;
|
parameter length = 4;
|
input cke, clear;
|
input cke, clear;
|
output reg [0:length-1] q;
|
output reg [0:length-1] q;
|
input rst;
|
input rst;
|
input clk;
|
input clk;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
if (cke)
|
if (cke)
|
if (clear)
|
if (clear)
|
q <= {1'b1,{length-1{1'b0}}};
|
q <= {1'b1,{length-1{1'b0}}};
|
else
|
else
|
q <= {q[length-1],q[0:length-2]};
|
q <= {q[length-1],q[0:length-2]};
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile library, memories ////
|
//// Versatile library, memories ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// memories ////
|
//// memories ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - add more memory types ////
|
//// - add more memory types ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef ROM_INIT
|
`ifdef ROM_INIT
|
/// ROM
|
/// ROM
|
`define MODULE rom_init
|
`define MODULE rom_init
|
module `BASE`MODULE ( adr, q, clk);
|
module `BASE`MODULE ( adr, q, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(addr_width-1):0] adr;
|
input [(addr_width-1):0] adr;
|
output reg [(data_width-1):0] q;
|
output reg [(data_width-1):0] q;
|
input clk;
|
input clk;
|
reg [data_width-1:0] rom [mem_size-1:0];
|
reg [data_width-1:0] rom [mem_size-1:0];
|
parameter memory_file = "vl_rom.vmem";
|
parameter memory_file = "vl_rom.vmem";
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, rom);
|
$readmemh(memory_file, rom);
|
end
|
end
|
|
|
always @ (posedge clk)
|
always @ (posedge clk)
|
q <= rom[adr];
|
q <= rom[adr];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef RAM
|
`ifdef RAM
|
`define MODULE ram
|
`define MODULE ram
|
// Single port RAM
|
// Single port RAM
|
module `BASE`MODULE ( d, adr, we, q, clk);
|
module `BASE`MODULE ( d, adr, we, q, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(data_width-1):0] d;
|
input [(data_width-1):0] d;
|
input [(addr_width-1):0] adr;
|
input [(addr_width-1):0] adr;
|
input we;
|
input we;
|
output reg [(data_width-1):0] q;
|
output reg [(data_width-1):0] q;
|
input clk;
|
input clk;
|
reg [data_width-1:0] ram [mem_szie-1:0];
|
reg [data_width-1:0] ram [mem_szie-1:0];
|
parameter init = 0;
|
parameter init = 0;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
generate if (init) begin : init_mem
|
generate if (init) begin : init_mem
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, ram);
|
$readmemh(memory_file, ram);
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk)
|
always @ (posedge clk)
|
begin
|
begin
|
if (we)
|
if (we)
|
ram[adr] <= d;
|
ram[adr] <= d;
|
q <= ram[adr];
|
q <= ram[adr];
|
end
|
end
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef RAM_BE
|
`ifdef RAM_BE
|
`define MODULE ram_be
|
`define MODULE ram_be
|
module `BASE`MODULE ( d, adr, be, we, q, clk);
|
module `BASE`MODULE ( d, adr, be, we, q, clk);
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 6;
|
parameter addr_width = 6;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(data_width-1):0] d;
|
input [(data_width-1):0] d;
|
input [(addr_width-1):0] adr;
|
input [(addr_width-1):0] adr;
|
input [(data_width/8)-1:0] be;
|
input [(data_width/8)-1:0] be;
|
input we;
|
input we;
|
output reg [(data_width-1):0] q;
|
output reg [(data_width-1):0] q;
|
input clk;
|
input clk;
|
|
|
`ifdef SYSTEMVERILOG
|
`ifdef SYSTEMVERILOG
|
logic [data_width/8-1:0][7:0] ram[0:mem_size-1];// # words = 1 << address width
|
logic [data_width/8-1:0][7:0] ram[0:mem_size-1];// # words = 1 << address width
|
`else
|
`else
|
reg [data_width-1:0] ram [mem_size-1:0];
|
reg [data_width-1:0] ram [mem_size-1:0];
|
`endif
|
`endif
|
|
|
parameter memory_init = 0;
|
parameter memory_init = 0;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
generate if (memory_init) begin : init_mem
|
generate if (memory_init) begin : init_mem
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, ram);
|
$readmemh(memory_file, ram);
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
`ifdef SYSTEMVERILOG
|
`ifdef SYSTEMVERILOG
|
// use a multi-dimensional packed array
|
// use a multi-dimensional packed array
|
//to model individual bytes within the word
|
//to model individual bytes within the word
|
|
|
always_ff@(posedge clk)
|
always_ff@(posedge clk)
|
begin
|
begin
|
if(we) begin // note: we should have a for statement to support any bus width
|
if(we) begin // note: we should have a for statement to support any bus width
|
if(be[3]) ram[adr[addr_width-2:0]][3] <= d[31:24];
|
if(be[3]) ram[adr[addr_width-2:0]][3] <= d[31:24];
|
if(be[2]) ram[adr[addr_width-2:0]][2] <= d[23:16];
|
if(be[2]) ram[adr[addr_width-2:0]][2] <= d[23:16];
|
if(be[1]) ram[adr[addr_width-2:0]][1] <= d[15:8];
|
if(be[1]) ram[adr[addr_width-2:0]][1] <= d[15:8];
|
if(be[0]) ram[adr[addr_width-2:0]][0] <= d[7:0];
|
if(be[0]) ram[adr[addr_width-2:0]][0] <= d[7:0];
|
end
|
end
|
q <= ram[adr];
|
q <= ram[adr];
|
end
|
end
|
|
|
`else
|
`else
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_ram
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_ram
|
always @ (posedge clk)
|
always @ (posedge clk)
|
if (we & be[i])
|
if (we & be[i])
|
ram[adr][(i+1)*8-1:i*8] <= d[(i+1)*8-1:i*8];
|
ram[adr][(i+1)*8-1:i*8] <= d[(i+1)*8-1:i*8];
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk)
|
always @ (posedge clk)
|
q <= ram[adr];
|
q <= ram[adr];
|
|
|
`endif
|
`endif
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef ACTEL
|
`ifdef ACTEL
|
// ACTEL FPGA should not use logic to handle rw collision
|
// ACTEL FPGA should not use logic to handle rw collision
|
`define SYN /*synthesis syn_ramstyle = "no_rw_check"*/
|
`define SYN /*synthesis syn_ramstyle = "no_rw_check"*/
|
`else
|
`else
|
`define SYN
|
`define SYN
|
`endif
|
`endif
|
|
|
`ifdef DPRAM_1R1W
|
`ifdef DPRAM_1R1W
|
`define MODULE dpram_1r1w
|
`define MODULE dpram_1r1w
|
module `BASE`MODULE ( d_a, adr_a, we_a, clk_a, q_b, adr_b, clk_b );
|
module `BASE`MODULE ( d_a, adr_a, we_a, clk_a, q_b, adr_b, clk_b );
|
`undef MODULE
|
`undef MODULE
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(data_width-1):0] d_a;
|
input [(data_width-1):0] d_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_b;
|
input [(addr_width-1):0] adr_b;
|
input we_a;
|
input we_a;
|
output [(data_width-1):0] q_b;
|
output [(data_width-1):0] q_b;
|
input clk_a, clk_b;
|
input clk_a, clk_b;
|
reg [(addr_width-1):0] adr_b_reg;
|
reg [(addr_width-1):0] adr_b_reg;
|
reg [data_width-1:0] ram [mem_szie-1:0] `SYN;
|
reg [data_width-1:0] ram [mem_szie-1:0] `SYN;
|
|
|
parameter init = 0;
|
parameter init = 0;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
generate if (init) begin : init_mem
|
generate if (init) begin : init_mem
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, ram);
|
$readmemh(memory_file, ram);
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
if (we_a)
|
if (we_a)
|
ram[adr_a] <= d_a;
|
ram[adr_a] <= d_a;
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
adr_b_reg <= adr_b;
|
adr_b_reg <= adr_b;
|
assign q_b = ram[adr_b_reg];
|
assign q_b = ram[adr_b_reg];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DPRAM_2R1W
|
`ifdef DPRAM_2R1W
|
`define MODULE dpram_2r1w
|
`define MODULE dpram_2r1w
|
module `BASE`MODULE ( d_a, q_a, adr_a, we_a, clk_a, q_b, adr_b, clk_b );
|
module `BASE`MODULE ( d_a, q_a, adr_a, we_a, clk_a, q_b, adr_b, clk_b );
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(data_width-1):0] d_a;
|
input [(data_width-1):0] d_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_b;
|
input [(addr_width-1):0] adr_b;
|
input we_a;
|
input we_a;
|
output [(data_width-1):0] q_b;
|
output [(data_width-1):0] q_b;
|
output reg [(data_width-1):0] q_a;
|
output reg [(data_width-1):0] q_a;
|
input clk_a, clk_b;
|
input clk_a, clk_b;
|
reg [(data_width-1):0] q_b;
|
reg [(data_width-1):0] q_b;
|
reg [data_width-1:0] ram [mem_szie-1:0] `SYN;
|
reg [data_width-1:0] ram [mem_szie-1:0] `SYN;
|
|
|
parameter init = 0;
|
parameter init = 0;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
generate if (init) begin : init_mem
|
generate if (init) begin : init_mem
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, ram);
|
$readmemh(memory_file, ram);
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
begin
|
begin
|
q_a <= ram[adr_a];
|
q_a <= ram[adr_a];
|
if (we_a)
|
if (we_a)
|
ram[adr_a] <= d_a;
|
ram[adr_a] <= d_a;
|
end
|
end
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
q_b <= ram[adr_b];
|
q_b <= ram[adr_b];
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef DPRAM_2R2W
|
`ifdef DPRAM_2R2W
|
`define MODULE dpram_2r2w
|
`define MODULE dpram_2r2w
|
module `BASE`MODULE ( d_a, q_a, adr_a, we_a, clk_a, d_b, q_b, adr_b, we_b, clk_b );
|
module `BASE`MODULE ( d_a, q_a, adr_a, we_a, clk_a, d_b, q_b, adr_b, we_b, clk_b );
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
parameter mem_size = 1<<addr_width;
|
parameter mem_size = 1<<addr_width;
|
input [(data_width-1):0] d_a;
|
input [(data_width-1):0] d_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_a;
|
input [(addr_width-1):0] adr_b;
|
input [(addr_width-1):0] adr_b;
|
input we_a;
|
input we_a;
|
output [(data_width-1):0] q_b;
|
output [(data_width-1):0] q_b;
|
input [(data_width-1):0] d_b;
|
input [(data_width-1):0] d_b;
|
output reg [(data_width-1):0] q_a;
|
output reg [(data_width-1):0] q_a;
|
input we_b;
|
input we_b;
|
input clk_a, clk_b;
|
input clk_a, clk_b;
|
reg [(data_width-1):0] q_b;
|
reg [(data_width-1):0] q_b;
|
reg [data_width-1:0] ram [mem_size-1:0] `SYN;
|
reg [data_width-1:0] ram [mem_size-1:0] `SYN;
|
|
|
parameter init = 0;
|
parameter init = 0;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
generate if (init) begin : init_mem
|
generate if (init) begin : init_mem
|
initial
|
initial
|
begin
|
begin
|
$readmemh(memory_file, ram);
|
$readmemh(memory_file, ram);
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
begin
|
begin
|
q_a <= ram[adr_a];
|
q_a <= ram[adr_a];
|
if (we_a)
|
if (we_a)
|
ram[adr_a] <= d_a;
|
ram[adr_a] <= d_a;
|
end
|
end
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
begin
|
begin
|
q_b <= ram[adr_b];
|
q_b <= ram[adr_b];
|
if (we_b)
|
if (we_b)
|
ram[adr_b] <= d_b;
|
ram[adr_b] <= d_b;
|
end
|
end
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
|
`ifdef DPRAM_MIXED_WIDTH_2R2W
|
|
`define MODULE dpram_mixed_width_2r2w
|
|
module `BASE`MODULE ( d_a, q_a, adr_a, be_a, we_a, clk_a, d_b, q_b, adr_b, be_b, we_b, clk_b );
|
|
`undef MODULE
|
|
parameter data_width = 32;
|
|
parameter addr_width = 8;
|
|
parameter data_width_ratio = 2;
|
|
parameter b_data_width = data_width * data_width_ratio;
|
|
parameter b_addr_width = addr_width ;
|
|
endmodule
|
|
`endif
|
|
|
`ifdef DPRAM_BE_2R2W
|
`ifdef DPRAM_BE_2R2W
|
`define MODULE dpram_be_2r2w
|
`define MODULE dpram_be_2r2w
|
module `BASE`MODULE ( d_a, q_a, adr_a, be_a, we_a, clk_a, d_b, q_b, adr_b, be_b, we_b, clk_b );
|
module `BASE`MODULE ( d_a, q_a, adr_a, be_a, we_a, clk_a, d_b, q_b, adr_b, be_b, we_b, clk_b );
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter a_data_width = 32;
|
parameter a_data_width = 32;
|
parameter a_addr_width = 8;
|
parameter a_addr_width = 8;
|
parameter b_data_width = 64;
|
parameter b_data_width = 64;
|
parameter b_addr_width = 7;
|
parameter b_addr_width = 7;
|
//parameter mem_size = (a_addr_width>b_addr_width) ? (1<<a_addr_width) : (1<<b_addr_width);
|
//parameter mem_size = (a_addr_width>b_addr_width) ? (1<<a_addr_width) : (1<<b_addr_width);
|
parameter mem_size = 1024;
|
parameter mem_size = 1024;
|
input [(a_data_width-1):0] d_a;
|
input [(a_data_width-1):0] d_a;
|
input [(a_addr_width-1):0] adr_a;
|
input [(a_addr_width-1):0] adr_a;
|
input [(b_addr_width-1):0] adr_b;
|
input [(b_addr_width-1):0] adr_b;
|
input [(a_data_width/4-1):0] be_a;
|
input [(a_data_width/4-1):0] be_a;
|
input we_a;
|
input we_a;
|
output [(b_data_width-1):0] q_b;
|
output [(b_data_width-1):0] q_b;
|
input [(b_data_width-1):0] d_b;
|
input [(b_data_width-1):0] d_b;
|
output reg [(a_data_width-1):0] q_a;
|
output reg [(a_data_width-1):0] q_a;
|
input [(b_data_width/4-1):0] be_b;
|
input [(b_data_width/4-1):0] be_b;
|
input we_b;
|
input we_b;
|
input clk_a, clk_b;
|
input clk_a, clk_b;
|
reg [(b_data_width-1):0] q_b;
|
reg [(b_data_width-1):0] q_b;
|
|
|
generate
|
generate
|
if (a_data_width==32 & b_data_width==64) begin : inst32to64
|
if (a_data_width==32 & b_data_width==64) begin : inst32to64
|
|
|
wire [63:0] tmp;
|
wire [63:0] tmp;
|
`define MODULE dpram_2r2w
|
`define MODULE dpram_2r2w
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram0 (
|
ram0 (
|
.d_a(d_a[7:0]),
|
.d_a(d_a[7:0]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a & be_a[0] & !adr_a[0]),
|
.we_a(we_a & be_a[0] & !adr_a[0]),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram1 (
|
ram1 (
|
.d_a(d_a[7:0]),
|
.d_a(d_a[7:0]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram2 (
|
ram2 (
|
.d_a(d_a[15:8]),
|
.d_a(d_a[15:8]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram3 (
|
ram3 (
|
.d_a(d_a[15:8]),
|
.d_a(d_a[15:8]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram4 (
|
ram4 (
|
.d_a(d_a[23:16]),
|
.d_a(d_a[23:16]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram5 (
|
ram5 (
|
.d_a(d_a[23:16]),
|
.d_a(d_a[23:16]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram6 (
|
ram6 (
|
.d_a(d_a[31:24]),
|
.d_a(d_a[31:24]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
# (.data_width(8), .addr_width(b_addr_width-3))
|
ram7 (
|
ram7 (
|
.d_a(d_a[31:24]),
|
.d_a(d_a[31:24]),
|
.q_a(tmp[7:0]),
|
.q_a(tmp[7:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.adr_a(adr_a[a_addr_width-3-1:0]),
|
.we_a(we_a),
|
.we_a(we_a),
|
.clk_a(clk_a),
|
.clk_a(clk_a),
|
.d_b(d_b[7:0]),
|
.d_b(d_b[7:0]),
|
.q_b(q_b[7:0]),
|
.q_b(q_b[7:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.adr_b(adr_b[b_addr_width-3-1:0]),
|
.we_b(we_b),
|
.we_b(we_b),
|
.clk_b(clk_b) );
|
.clk_b(clk_b) );
|
`undef MODULE
|
`undef MODULE
|
/*
|
/*
|
reg [7:0] ram0 [mem_size/8-1:0];
|
reg [7:0] ram0 [mem_size/8-1:0];
|
wire [7:0] wea, web;
|
wire [7:0] wea, web;
|
assign wea = we_a & be_a[0];
|
assign wea = we_a & be_a[0];
|
assign web = we_b & be_b[0];
|
assign web = we_b & be_b[0];
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
if (wea)
|
if (wea)
|
ram0[adr_a] <= d_a[7:0];
|
ram0[adr_a] <= d_a[7:0];
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
q_a[7:0] <= ram0[adr_a];
|
q_a[7:0] <= ram0[adr_a];
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
if (web)
|
if (web)
|
ram0[adr_b] <= d_b[7:0];
|
ram0[adr_b] <= d_b[7:0];
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
q_b[7:0] <= ram0[adr_b];
|
q_b[7:0] <= ram0[adr_b];
|
*/
|
*/
|
end
|
end
|
endgenerate
|
endgenerate
|
/*
|
/*
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_rama
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_rama
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
if (we_a & be_a[i])
|
if (we_a & be_a[i])
|
ram[adr_a][(i+1)*8-1:i*8] <= d_a[(i+1)*8-1:i*8];
|
ram[adr_a][(i+1)*8-1:i*8] <= d_a[(i+1)*8-1:i*8];
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
q_a <= ram[adr_a];
|
q_a <= ram[adr_a];
|
|
|
genvar i;
|
genvar i;
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_ramb
|
generate for (i=0;i<addr_width/4;i=i+1) begin : be_ramb
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
if (we_b & be_b[i])
|
if (we_b & be_b[i])
|
ram[adr_b][(i+1)*8-1:i*8] <= d_b[(i+1)*8-1:i*8];
|
ram[adr_b][(i+1)*8-1:i*8] <= d_b[(i+1)*8-1:i*8];
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
q_b <= ram[adr_b];
|
q_b <= ram[adr_b];
|
*/
|
*/
|
/*
|
/*
|
always @ (posedge clk_a)
|
always @ (posedge clk_a)
|
begin
|
begin
|
q_a <= ram[adr_a];
|
q_a <= ram[adr_a];
|
if (we_a)
|
if (we_a)
|
ram[adr_a] <= d_a;
|
ram[adr_a] <= d_a;
|
end
|
end
|
always @ (posedge clk_b)
|
always @ (posedge clk_b)
|
begin
|
begin
|
q_b <= ram[adr_b];
|
q_b <= ram[adr_b];
|
if (we_b)
|
if (we_b)
|
ram[adr_b] <= d_b;
|
ram[adr_b] <= d_b;
|
end
|
end
|
*/
|
*/
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
// Content addresable memory, CAM
|
// Content addresable memory, CAM
|
|
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
`ifdef FIFO_1R1W_FILL_LEVEL_SYNC
|
// FIFO
|
// FIFO
|
`define MODULE fifo_1r1w_fill_level_sync
|
`define MODULE fifo_1r1w_fill_level_sync
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
d, wr, fifo_full,
|
d, wr, fifo_full,
|
q, rd, fifo_empty,
|
q, rd, fifo_empty,
|
fill_level,
|
fill_level,
|
clk, rst
|
clk, rst
|
);
|
);
|
|
|
parameter data_width = 18;
|
parameter data_width = 18;
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
|
|
// write side
|
// write side
|
input [data_width-1:0] d;
|
input [data_width-1:0] d;
|
input wr;
|
input wr;
|
output fifo_full;
|
output fifo_full;
|
// read side
|
// read side
|
output [data_width-1:0] q;
|
output [data_width-1:0] q;
|
input rd;
|
input rd;
|
output fifo_empty;
|
output fifo_empty;
|
// common
|
// common
|
output [addr_width:0] fill_level;
|
output [addr_width:0] fill_level;
|
input rst, clk;
|
input rst, clk;
|
|
|
wire [addr_width:1] wadr, radr;
|
wire [addr_width:1] wadr, radr;
|
|
|
`define MODULE cnt_bin_ce
|
`define MODULE cnt_bin_ce
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_wr_adr( .cke(wr), .q(wadr), .rst(rst), .clk(clk));
|
fifo_wr_adr( .cke(wr), .q(wadr), .rst(rst), .clk(clk));
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_rd_adr( .cke(rd), .q(radr), .rst(rst), .clk(clk));
|
fifo_rd_adr( .cke(rd), .q(radr), .rst(rst), .clk(clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE dpram_1r1w
|
`define MODULE dpram_1r1w
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(data_width), .addr_width(addr_width))
|
# (.data_width(data_width), .addr_width(addr_width))
|
dpram ( .d_a(d), .adr_a(wadr), .we_a(wr), .clk_a(clk), .q_b(q), .adr_b(radr), .clk_b(clk));
|
dpram ( .d_a(d), .adr_a(wadr), .we_a(wr), .clk_a(clk), .q_b(q), .adr_b(radr), .clk_b(clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE cnt_bin_ce_rew_q_zq_l1
|
`define MODULE cnt_bin_ce_rew_q_zq_l1
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width+1), .level1_value(1<<addr_width))
|
# (.length(addr_width+1), .level1_value(1<<addr_width))
|
fill_level_cnt( .cke(rd ^ wr), .rew(rd), .q(fill_level), .zq(fifo_empty), .level1(fifo_full), .rst(rst), .clk(clk));
|
fill_level_cnt( .cke(rd ^ wr), .rew(rd), .q(fill_level), .zq(fifo_empty), .level1(fifo_full), .rst(rst), .clk(clk));
|
`undef MODULE
|
`undef MODULE
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef FIFO_2R2W_SYNC_SIMPLEX
|
`ifdef FIFO_2R2W_SYNC_SIMPLEX
|
// Intended use is two small FIFOs (RX and TX typically) in one FPGA RAM resource
|
// Intended use is two small FIFOs (RX and TX typically) in one FPGA RAM resource
|
// RAM is supposed to be larger than the two FIFOs
|
// RAM is supposed to be larger than the two FIFOs
|
// LFSR counters used adr pointers
|
// LFSR counters used adr pointers
|
`define MODULE fifo_2r2w_sync_simplex
|
`define MODULE fifo_2r2w_sync_simplex
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// a side
|
// a side
|
a_d, a_wr, a_fifo_full,
|
a_d, a_wr, a_fifo_full,
|
a_q, a_rd, a_fifo_empty,
|
a_q, a_rd, a_fifo_empty,
|
a_fill_level,
|
a_fill_level,
|
// b side
|
// b side
|
b_d, b_wr, b_fifo_full,
|
b_d, b_wr, b_fifo_full,
|
b_q, b_rd, b_fifo_empty,
|
b_q, b_rd, b_fifo_empty,
|
b_fill_level,
|
b_fill_level,
|
// common
|
// common
|
clk, rst
|
clk, rst
|
);
|
);
|
parameter data_width = 8;
|
parameter data_width = 8;
|
parameter addr_width = 5;
|
parameter addr_width = 5;
|
parameter fifo_full_level = (1<<addr_width)-1;
|
parameter fifo_full_level = (1<<addr_width)-1;
|
|
|
// a side
|
// a side
|
input [data_width-1:0] a_d;
|
input [data_width-1:0] a_d;
|
input a_wr;
|
input a_wr;
|
output a_fifo_full;
|
output a_fifo_full;
|
output [data_width-1:0] a_q;
|
output [data_width-1:0] a_q;
|
input a_rd;
|
input a_rd;
|
output a_fifo_empty;
|
output a_fifo_empty;
|
output [addr_width-1:0] a_fill_level;
|
output [addr_width-1:0] a_fill_level;
|
|
|
// b side
|
// b side
|
input [data_width-1:0] b_d;
|
input [data_width-1:0] b_d;
|
input b_wr;
|
input b_wr;
|
output b_fifo_full;
|
output b_fifo_full;
|
output [data_width-1:0] b_q;
|
output [data_width-1:0] b_q;
|
input b_rd;
|
input b_rd;
|
output b_fifo_empty;
|
output b_fifo_empty;
|
output [addr_width-1:0] b_fill_level;
|
output [addr_width-1:0] b_fill_level;
|
|
|
input clk;
|
input clk;
|
input rst;
|
input rst;
|
|
|
// adr_gen
|
// adr_gen
|
wire [addr_width:1] a_wadr, a_radr;
|
wire [addr_width:1] a_wadr, a_radr;
|
wire [addr_width:1] b_wadr, b_radr;
|
wire [addr_width:1] b_wadr, b_radr;
|
// dpram
|
// dpram
|
wire [addr_width:0] a_dpram_adr, b_dpram_adr;
|
wire [addr_width:0] a_dpram_adr, b_dpram_adr;
|
|
|
`define MODULE cnt_lfsr_ce
|
`define MODULE cnt_lfsr_ce
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_a_wr_adr( .cke(a_wr), .q(a_wadr), .rst(rst), .clk(clk));
|
fifo_a_wr_adr( .cke(a_wr), .q(a_wadr), .rst(rst), .clk(clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_a_rd_adr( .cke(a_rd), .q(a_radr), .rst(rst), .clk(clk));
|
fifo_a_rd_adr( .cke(a_rd), .q(a_radr), .rst(rst), .clk(clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_b_wr_adr( .cke(b_wr), .q(b_wadr), .rst(rst), .clk(clk));
|
fifo_b_wr_adr( .cke(b_wr), .q(b_wadr), .rst(rst), .clk(clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_b_rd_adr( .cke(b_rd), .q(b_radr), .rst(rst), .clk(clk));
|
fifo_b_rd_adr( .cke(b_rd), .q(b_radr), .rst(rst), .clk(clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
// mux read or write adr to DPRAM
|
// mux read or write adr to DPRAM
|
assign a_dpram_adr = (a_wr) ? {1'b0,a_wadr} : {1'b1,a_radr};
|
assign a_dpram_adr = (a_wr) ? {1'b0,a_wadr} : {1'b1,a_radr};
|
assign b_dpram_adr = (b_wr) ? {1'b1,b_wadr} : {1'b0,b_radr};
|
assign b_dpram_adr = (b_wr) ? {1'b1,b_wadr} : {1'b0,b_radr};
|
|
|
`define MODULE dpram_2r2w
|
`define MODULE dpram_2r2w
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(data_width), .addr_width(addr_width+1))
|
# (.data_width(data_width), .addr_width(addr_width+1))
|
dpram ( .d_a(a_d), .q_a(a_q), .adr_a(a_dpram_adr), .we_a(a_wr), .clk_a(a_clk),
|
dpram ( .d_a(a_d), .q_a(a_q), .adr_a(a_dpram_adr), .we_a(a_wr), .clk_a(a_clk),
|
.d_b(b_d), .q_b(b_q), .adr_b(b_dpram_adr), .we_b(b_wr), .clk_b(b_clk));
|
.d_b(b_d), .q_b(b_q), .adr_b(b_dpram_adr), .we_b(b_wr), .clk_b(b_clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE cnt_bin_ce_rew_zq_l1
|
`define MODULE cnt_bin_ce_rew_zq_l1
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width), .level1_value(fifo_full_level))
|
# (.length(addr_width), .level1_value(fifo_full_level))
|
a_fill_level_cnt( .cke(a_rd ^ a_wr), .rew(a_rd), .q(a_fill_level), .zq(a_fifo_empty), .level1(a_fifo_full), .rst(rst), .clk(clk));
|
a_fill_level_cnt( .cke(a_rd ^ a_wr), .rew(a_rd), .q(a_fill_level), .zq(a_fifo_empty), .level1(a_fifo_full), .rst(rst), .clk(clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width), .level1_value(fifo_full_level))
|
# (.length(addr_width), .level1_value(fifo_full_level))
|
b_fill_level_cnt( .cke(b_rd ^ b_wr), .rew(b_rd), .q(b_fill_level), .zq(b_fifo_empty), .level1(b_fifo_full), .rst(rst), .clk(clk));
|
b_fill_level_cnt( .cke(b_rd ^ b_wr), .rew(b_rd), .q(b_fill_level), .zq(b_fifo_empty), .level1(b_fifo_full), .rst(rst), .clk(clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef FIFO_CMP_ASYNC
|
`ifdef FIFO_CMP_ASYNC
|
`define MODULE fifo_cmp_async
|
`define MODULE fifo_cmp_async
|
module `BASE`MODULE ( wptr, rptr, fifo_empty, fifo_full, wclk, rclk, rst );
|
module `BASE`MODULE ( wptr, rptr, fifo_empty, fifo_full, wclk, rclk, rst );
|
`undef MODULE
|
`undef MODULE
|
|
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
parameter N = addr_width-1;
|
parameter N = addr_width-1;
|
|
|
parameter Q1 = 2'b00;
|
parameter Q1 = 2'b00;
|
parameter Q2 = 2'b01;
|
parameter Q2 = 2'b01;
|
parameter Q3 = 2'b11;
|
parameter Q3 = 2'b11;
|
parameter Q4 = 2'b10;
|
parameter Q4 = 2'b10;
|
|
|
parameter going_empty = 1'b0;
|
parameter going_empty = 1'b0;
|
parameter going_full = 1'b1;
|
parameter going_full = 1'b1;
|
|
|
input [N:0] wptr, rptr;
|
input [N:0] wptr, rptr;
|
output fifo_empty;
|
output fifo_empty;
|
output fifo_full;
|
output fifo_full;
|
input wclk, rclk, rst;
|
input wclk, rclk, rst;
|
|
|
`ifndef GENERATE_DIRECTION_AS_LATCH
|
`ifndef GENERATE_DIRECTION_AS_LATCH
|
wire direction;
|
wire direction;
|
`endif
|
`endif
|
`ifdef GENERATE_DIRECTION_AS_LATCH
|
`ifdef GENERATE_DIRECTION_AS_LATCH
|
reg direction;
|
reg direction;
|
`endif
|
`endif
|
reg direction_set, direction_clr;
|
reg direction_set, direction_clr;
|
|
|
wire async_empty, async_full;
|
wire async_empty, async_full;
|
wire fifo_full2;
|
wire fifo_full2;
|
wire fifo_empty2;
|
wire fifo_empty2;
|
|
|
// direction_set
|
// direction_set
|
always @ (wptr[N:N-1] or rptr[N:N-1])
|
always @ (wptr[N:N-1] or rptr[N:N-1])
|
case ({wptr[N:N-1],rptr[N:N-1]})
|
case ({wptr[N:N-1],rptr[N:N-1]})
|
{Q1,Q2} : direction_set <= 1'b1;
|
{Q1,Q2} : direction_set <= 1'b1;
|
{Q2,Q3} : direction_set <= 1'b1;
|
{Q2,Q3} : direction_set <= 1'b1;
|
{Q3,Q4} : direction_set <= 1'b1;
|
{Q3,Q4} : direction_set <= 1'b1;
|
{Q4,Q1} : direction_set <= 1'b1;
|
{Q4,Q1} : direction_set <= 1'b1;
|
default : direction_set <= 1'b0;
|
default : direction_set <= 1'b0;
|
endcase
|
endcase
|
|
|
// direction_clear
|
// direction_clear
|
always @ (wptr[N:N-1] or rptr[N:N-1] or rst)
|
always @ (wptr[N:N-1] or rptr[N:N-1] or rst)
|
if (rst)
|
if (rst)
|
direction_clr <= 1'b1;
|
direction_clr <= 1'b1;
|
else
|
else
|
case ({wptr[N:N-1],rptr[N:N-1]})
|
case ({wptr[N:N-1],rptr[N:N-1]})
|
{Q2,Q1} : direction_clr <= 1'b1;
|
{Q2,Q1} : direction_clr <= 1'b1;
|
{Q3,Q2} : direction_clr <= 1'b1;
|
{Q3,Q2} : direction_clr <= 1'b1;
|
{Q4,Q3} : direction_clr <= 1'b1;
|
{Q4,Q3} : direction_clr <= 1'b1;
|
{Q1,Q4} : direction_clr <= 1'b1;
|
{Q1,Q4} : direction_clr <= 1'b1;
|
default : direction_clr <= 1'b0;
|
default : direction_clr <= 1'b0;
|
endcase
|
endcase
|
|
|
`define MODULE dff_sr
|
`define MODULE dff_sr
|
`ifndef GENERATE_DIRECTION_AS_LATCH
|
`ifndef GENERATE_DIRECTION_AS_LATCH
|
`BASE`MODULE dff_sr_dir( .aclr(direction_clr), .aset(direction_set), .clock(1'b1), .data(1'b1), .q(direction));
|
`BASE`MODULE dff_sr_dir( .aclr(direction_clr), .aset(direction_set), .clock(1'b1), .data(1'b1), .q(direction));
|
`endif
|
`endif
|
|
|
`ifdef GENERATE_DIRECTION_AS_LATCH
|
`ifdef GENERATE_DIRECTION_AS_LATCH
|
always @ (posedge direction_set or posedge direction_clr)
|
always @ (posedge direction_set or posedge direction_clr)
|
if (direction_clr)
|
if (direction_clr)
|
direction <= going_empty;
|
direction <= going_empty;
|
else
|
else
|
direction <= going_full;
|
direction <= going_full;
|
`endif
|
`endif
|
|
|
assign async_empty = (wptr == rptr) && (direction==going_empty);
|
assign async_empty = (wptr == rptr) && (direction==going_empty);
|
assign async_full = (wptr == rptr) && (direction==going_full);
|
assign async_full = (wptr == rptr) && (direction==going_full);
|
|
|
`BASE`MODULE dff_sr_empty0( .aclr(rst), .aset(async_full), .clock(wclk), .data(async_full), .q(fifo_full2));
|
`BASE`MODULE dff_sr_empty0( .aclr(rst), .aset(async_full), .clock(wclk), .data(async_full), .q(fifo_full2));
|
`BASE`MODULE dff_sr_empty1( .aclr(rst), .aset(async_full), .clock(wclk), .data(fifo_full2), .q(fifo_full));
|
`BASE`MODULE dff_sr_empty1( .aclr(rst), .aset(async_full), .clock(wclk), .data(fifo_full2), .q(fifo_full));
|
`undef MODULE
|
`undef MODULE
|
|
|
/*
|
/*
|
always @ (posedge wclk or posedge rst or posedge async_full)
|
always @ (posedge wclk or posedge rst or posedge async_full)
|
if (rst)
|
if (rst)
|
{fifo_full, fifo_full2} <= 2'b00;
|
{fifo_full, fifo_full2} <= 2'b00;
|
else if (async_full)
|
else if (async_full)
|
{fifo_full, fifo_full2} <= 2'b11;
|
{fifo_full, fifo_full2} <= 2'b11;
|
else
|
else
|
{fifo_full, fifo_full2} <= {fifo_full2, async_full};
|
{fifo_full, fifo_full2} <= {fifo_full2, async_full};
|
*/
|
*/
|
/* always @ (posedge rclk or posedge async_empty)
|
/* always @ (posedge rclk or posedge async_empty)
|
if (async_empty)
|
if (async_empty)
|
{fifo_empty, fifo_empty2} <= 2'b11;
|
{fifo_empty, fifo_empty2} <= 2'b11;
|
else
|
else
|
{fifo_empty,fifo_empty2} <= {fifo_empty2,async_empty}; */
|
{fifo_empty,fifo_empty2} <= {fifo_empty2,async_empty}; */
|
`define MODULE dff
|
`define MODULE dff
|
`BASE`MODULE # ( .reset_value(1'b1)) dff0 ( .d(async_empty), .q(fifo_empty2), .clk(rclk), .rst(async_empty));
|
`BASE`MODULE # ( .reset_value(1'b1)) dff0 ( .d(async_empty), .q(fifo_empty2), .clk(rclk), .rst(async_empty));
|
`BASE`MODULE # ( .reset_value(1'b1)) dff1 ( .d(fifo_empty2), .q(fifo_empty), .clk(rclk), .rst(async_empty));
|
`BASE`MODULE # ( .reset_value(1'b1)) dff1 ( .d(fifo_empty2), .q(fifo_empty), .clk(rclk), .rst(async_empty));
|
`undef MODULE
|
`undef MODULE
|
endmodule // async_compb
|
endmodule // async_compb
|
`endif
|
`endif
|
|
|
`ifdef FIFO_1R1W_ASYNC
|
`ifdef FIFO_1R1W_ASYNC
|
`define MODULE fifo_1r1w_async
|
`define MODULE fifo_1r1w_async
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
d, wr, fifo_full, wr_clk, wr_rst,
|
d, wr, fifo_full, wr_clk, wr_rst,
|
q, rd, fifo_empty, rd_clk, rd_rst
|
q, rd, fifo_empty, rd_clk, rd_rst
|
);
|
);
|
|
|
parameter data_width = 18;
|
parameter data_width = 18;
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
|
|
// write side
|
// write side
|
input [data_width-1:0] d;
|
input [data_width-1:0] d;
|
input wr;
|
input wr;
|
output fifo_full;
|
output fifo_full;
|
input wr_clk;
|
input wr_clk;
|
input wr_rst;
|
input wr_rst;
|
// read side
|
// read side
|
output [data_width-1:0] q;
|
output [data_width-1:0] q;
|
input rd;
|
input rd;
|
output fifo_empty;
|
output fifo_empty;
|
input rd_clk;
|
input rd_clk;
|
input rd_rst;
|
input rd_rst;
|
|
|
wire [addr_width:1] wadr, wadr_bin, radr, radr_bin;
|
wire [addr_width:1] wadr, wadr_bin, radr, radr_bin;
|
|
|
`define MODULE cnt_gray_ce_bin
|
`define MODULE cnt_gray_ce_bin
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_wr_adr( .cke(wr), .q(wadr), .q_bin(wadr_bin), .rst(wr_rst), .clk(wr_clk));
|
fifo_wr_adr( .cke(wr), .q(wadr), .q_bin(wadr_bin), .rst(wr_rst), .clk(wr_clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_rd_adr( .cke(rd), .q(radr), .q_bin(radr_bin), .rst(rd_rst), .clk(rd_clk));
|
fifo_rd_adr( .cke(rd), .q(radr), .q_bin(radr_bin), .rst(rd_rst), .clk(rd_clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE dpram_1r1w
|
`define MODULE dpram_1r1w
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(data_width), .addr_width(addr_width))
|
# (.data_width(data_width), .addr_width(addr_width))
|
dpram ( .d_a(d), .adr_a(wadr_bin), .we_a(wr), .clk_a(wr_clk), .q_b(q), .adr_b(radr_bin), .clk_b(rd_clk));
|
dpram ( .d_a(d), .adr_a(wadr_bin), .we_a(wr), .clk_a(wr_clk), .q_b(q), .adr_b(radr_bin), .clk_b(rd_clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE fifo_cmp_async
|
`define MODULE fifo_cmp_async
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.addr_width(addr_width))
|
# (.addr_width(addr_width))
|
cmp ( .wptr(wadr), .rptr(radr), .fifo_empty(fifo_empty), .fifo_full(fifo_full), .wclk(wr_clk), .rclk(rd_clk), .rst(wr_rst) );
|
cmp ( .wptr(wadr), .rptr(radr), .fifo_empty(fifo_empty), .fifo_full(fifo_full), .wclk(wr_clk), .rclk(rd_clk), .rst(wr_rst) );
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef FIFO_2R2W_ASYNC
|
`ifdef FIFO_2R2W_ASYNC
|
`define MODULE fifo_2r2w_async
|
`define MODULE fifo_2r2w_async
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// a side
|
// a side
|
a_d, a_wr, a_fifo_full,
|
a_d, a_wr, a_fifo_full,
|
a_q, a_rd, a_fifo_empty,
|
a_q, a_rd, a_fifo_empty,
|
a_clk, a_rst,
|
a_clk, a_rst,
|
// b side
|
// b side
|
b_d, b_wr, b_fifo_full,
|
b_d, b_wr, b_fifo_full,
|
b_q, b_rd, b_fifo_empty,
|
b_q, b_rd, b_fifo_empty,
|
b_clk, b_rst
|
b_clk, b_rst
|
);
|
);
|
|
|
parameter data_width = 18;
|
parameter data_width = 18;
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
|
|
// a side
|
// a side
|
input [data_width-1:0] a_d;
|
input [data_width-1:0] a_d;
|
input a_wr;
|
input a_wr;
|
output a_fifo_full;
|
output a_fifo_full;
|
output [data_width-1:0] a_q;
|
output [data_width-1:0] a_q;
|
input a_rd;
|
input a_rd;
|
output a_fifo_empty;
|
output a_fifo_empty;
|
input a_clk;
|
input a_clk;
|
input a_rst;
|
input a_rst;
|
|
|
// b side
|
// b side
|
input [data_width-1:0] b_d;
|
input [data_width-1:0] b_d;
|
input b_wr;
|
input b_wr;
|
output b_fifo_full;
|
output b_fifo_full;
|
output [data_width-1:0] b_q;
|
output [data_width-1:0] b_q;
|
input b_rd;
|
input b_rd;
|
output b_fifo_empty;
|
output b_fifo_empty;
|
input b_clk;
|
input b_clk;
|
input b_rst;
|
input b_rst;
|
|
|
`define MODULE fifo_1r1w_async
|
`define MODULE fifo_1r1w_async
|
`BASE`MODULE # (.data_width(data_width), .addr_width(addr_width))
|
`BASE`MODULE # (.data_width(data_width), .addr_width(addr_width))
|
vl_fifo_1r1w_async_a (
|
vl_fifo_1r1w_async_a (
|
.d(a_d), .wr(a_wr), .fifo_full(a_fifo_full), .wr_clk(a_clk), .wr_rst(a_rst),
|
.d(a_d), .wr(a_wr), .fifo_full(a_fifo_full), .wr_clk(a_clk), .wr_rst(a_rst),
|
.q(b_q), .rd(b_rd), .fifo_empty(b_fifo_empty), .rd_clk(b_clk), .rd_rst(b_rst)
|
.q(b_q), .rd(b_rd), .fifo_empty(b_fifo_empty), .rd_clk(b_clk), .rd_rst(b_rst)
|
);
|
);
|
|
|
`BASE`MODULE # (.data_width(data_width), .addr_width(addr_width))
|
`BASE`MODULE # (.data_width(data_width), .addr_width(addr_width))
|
vl_fifo_1r1w_async_b (
|
vl_fifo_1r1w_async_b (
|
.d(b_d), .wr(b_wr), .fifo_full(b_fifo_full), .wr_clk(b_clk), .wr_rst(b_rst),
|
.d(b_d), .wr(b_wr), .fifo_full(b_fifo_full), .wr_clk(b_clk), .wr_rst(b_rst),
|
.q(a_q), .rd(a_rd), .fifo_empty(a_fifo_empty), .rd_clk(a_clk), .rd_rst(a_rst)
|
.q(a_q), .rd(a_rd), .fifo_empty(a_fifo_empty), .rd_clk(a_clk), .rd_rst(a_rst)
|
);
|
);
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef FIFO_2R2W_ASYNC_SIMPLEX
|
`ifdef FIFO_2R2W_ASYNC_SIMPLEX
|
`define MODULE fifo_2r2w_async_simplex
|
`define MODULE fifo_2r2w_async_simplex
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// a side
|
// a side
|
a_d, a_wr, a_fifo_full,
|
a_d, a_wr, a_fifo_full,
|
a_q, a_rd, a_fifo_empty,
|
a_q, a_rd, a_fifo_empty,
|
a_clk, a_rst,
|
a_clk, a_rst,
|
// b side
|
// b side
|
b_d, b_wr, b_fifo_full,
|
b_d, b_wr, b_fifo_full,
|
b_q, b_rd, b_fifo_empty,
|
b_q, b_rd, b_fifo_empty,
|
b_clk, b_rst
|
b_clk, b_rst
|
);
|
);
|
|
|
parameter data_width = 18;
|
parameter data_width = 18;
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
|
|
// a side
|
// a side
|
input [data_width-1:0] a_d;
|
input [data_width-1:0] a_d;
|
input a_wr;
|
input a_wr;
|
output a_fifo_full;
|
output a_fifo_full;
|
output [data_width-1:0] a_q;
|
output [data_width-1:0] a_q;
|
input a_rd;
|
input a_rd;
|
output a_fifo_empty;
|
output a_fifo_empty;
|
input a_clk;
|
input a_clk;
|
input a_rst;
|
input a_rst;
|
|
|
// b side
|
// b side
|
input [data_width-1:0] b_d;
|
input [data_width-1:0] b_d;
|
input b_wr;
|
input b_wr;
|
output b_fifo_full;
|
output b_fifo_full;
|
output [data_width-1:0] b_q;
|
output [data_width-1:0] b_q;
|
input b_rd;
|
input b_rd;
|
output b_fifo_empty;
|
output b_fifo_empty;
|
input b_clk;
|
input b_clk;
|
input b_rst;
|
input b_rst;
|
|
|
// adr_gen
|
// adr_gen
|
wire [addr_width:1] a_wadr, a_wadr_bin, a_radr, a_radr_bin;
|
wire [addr_width:1] a_wadr, a_wadr_bin, a_radr, a_radr_bin;
|
wire [addr_width:1] b_wadr, b_wadr_bin, b_radr, b_radr_bin;
|
wire [addr_width:1] b_wadr, b_wadr_bin, b_radr, b_radr_bin;
|
// dpram
|
// dpram
|
wire [addr_width:0] a_dpram_adr, b_dpram_adr;
|
wire [addr_width:0] a_dpram_adr, b_dpram_adr;
|
|
|
`define MODULE cnt_gray_ce_bin
|
`define MODULE cnt_gray_ce_bin
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_a_wr_adr( .cke(a_wr), .q(a_wadr), .q_bin(a_wadr_bin), .rst(a_rst), .clk(a_clk));
|
fifo_a_wr_adr( .cke(a_wr), .q(a_wadr), .q_bin(a_wadr_bin), .rst(a_rst), .clk(a_clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_a_rd_adr( .cke(a_rd), .q(a_radr), .q_bin(a_radr_bin), .rst(a_rst), .clk(a_clk));
|
fifo_a_rd_adr( .cke(a_rd), .q(a_radr), .q_bin(a_radr_bin), .rst(a_rst), .clk(a_clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .length(addr_width))
|
# ( .length(addr_width))
|
fifo_b_wr_adr( .cke(b_wr), .q(b_wadr), .q_bin(b_wadr_bin), .rst(b_rst), .clk(b_clk));
|
fifo_b_wr_adr( .cke(b_wr), .q(b_wadr), .q_bin(b_wadr_bin), .rst(b_rst), .clk(b_clk));
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.length(addr_width))
|
# (.length(addr_width))
|
fifo_b_rd_adr( .cke(b_rd), .q(b_radr), .q_bin(b_radr_bin), .rst(b_rst), .clk(b_clk));
|
fifo_b_rd_adr( .cke(b_rd), .q(b_radr), .q_bin(b_radr_bin), .rst(b_rst), .clk(b_clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
// mux read or write adr to DPRAM
|
// mux read or write adr to DPRAM
|
assign a_dpram_adr = (a_wr) ? {1'b0,a_wadr_bin} : {1'b1,a_radr_bin};
|
assign a_dpram_adr = (a_wr) ? {1'b0,a_wadr_bin} : {1'b1,a_radr_bin};
|
assign b_dpram_adr = (b_wr) ? {1'b1,b_wadr_bin} : {1'b0,b_radr_bin};
|
assign b_dpram_adr = (b_wr) ? {1'b1,b_wadr_bin} : {1'b0,b_radr_bin};
|
|
|
`define MODULE dpram_2r2w
|
`define MODULE dpram_2r2w
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.data_width(data_width), .addr_width(addr_width+1))
|
# (.data_width(data_width), .addr_width(addr_width+1))
|
dpram ( .d_a(a_d), .q_a(a_q), .adr_a(a_dpram_adr), .we_a(a_wr), .clk_a(a_clk),
|
dpram ( .d_a(a_d), .q_a(a_q), .adr_a(a_dpram_adr), .we_a(a_wr), .clk_a(a_clk),
|
.d_b(b_d), .q_b(b_q), .adr_b(b_dpram_adr), .we_b(b_wr), .clk_b(b_clk));
|
.d_b(b_d), .q_b(b_q), .adr_b(b_dpram_adr), .we_b(b_wr), .clk_b(b_clk));
|
`undef MODULE
|
`undef MODULE
|
|
|
`define MODULE fifo_cmp_async
|
`define MODULE fifo_cmp_async
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.addr_width(addr_width))
|
# (.addr_width(addr_width))
|
cmp1 ( .wptr(a_wadr), .rptr(b_radr), .fifo_empty(b_fifo_empty), .fifo_full(a_fifo_full), .wclk(a_clk), .rclk(b_clk), .rst(a_rst) );
|
cmp1 ( .wptr(a_wadr), .rptr(b_radr), .fifo_empty(b_fifo_empty), .fifo_full(a_fifo_full), .wclk(a_clk), .rclk(b_clk), .rst(a_rst) );
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# (.addr_width(addr_width))
|
# (.addr_width(addr_width))
|
cmp2 ( .wptr(b_wadr), .rptr(a_radr), .fifo_empty(a_fifo_empty), .fifo_full(b_fifo_full), .wclk(b_clk), .rclk(a_clk), .rst(b_rst) );
|
cmp2 ( .wptr(b_wadr), .rptr(a_radr), .fifo_empty(a_fifo_empty), .fifo_full(b_fifo_full), .wclk(b_clk), .rclk(a_clk), .rst(b_rst) );
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef REG_FILE
|
`ifdef REG_FILE
|
`define MODULE reg_file
|
`define MODULE reg_file
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
a1, a2, a3, wd3, we3, rd1, rd2, clk
|
a1, a2, a3, wd3, we3, rd1, rd2, clk
|
);
|
);
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 5;
|
parameter addr_width = 5;
|
input [addr_width-1:0] a1, a2, a3;
|
input [addr_width-1:0] a1, a2, a3;
|
input [data_width-1:0] wd3;
|
input [data_width-1:0] wd3;
|
input we3;
|
input we3;
|
output [data_width-1:0] rd1, rd2;
|
output [data_width-1:0] rd1, rd2;
|
input clk;
|
input clk;
|
|
|
`ifdef ACTEL
|
`ifdef ACTEL
|
reg [data_width-1:0] wd3_reg;
|
reg [data_width-1:0] wd3_reg;
|
reg [addr_width-1:0] a1_reg, a2_reg, a3_reg;
|
reg [addr_width-1:0] a1_reg, a2_reg, a3_reg;
|
reg we3_reg;
|
reg we3_reg;
|
reg [data_width-1:0] ram1 [(1<<addr_width)-1:0] `SYN;
|
reg [data_width-1:0] ram1 [(1<<addr_width)-1:0] `SYN;
|
reg [data_width-1:0] ram2 [(1<<addr_width)-1:0] `SYN;
|
reg [data_width-1:0] ram2 [(1<<addr_width)-1:0] `SYN;
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
{wd3_reg, a3_reg, we3_reg} <= {(data_width+addr_width+1){1'b0}};
|
{wd3_reg, a3_reg, we3_reg} <= {(data_width+addr_width+1){1'b0}};
|
else
|
else
|
{wd3_reg, a3_reg, we3_reg} <= {wd3,a3,wd3};
|
{wd3_reg, a3_reg, we3_reg} <= {wd3,a3,wd3};
|
|
|
always @ (negedge clk)
|
always @ (negedge clk)
|
if (we3_reg)
|
if (we3_reg)
|
ram1[a3_reg] <= wd3;
|
ram1[a3_reg] <= wd3;
|
always @ (posedge clk)
|
always @ (posedge clk)
|
a1_reg <= a1;
|
a1_reg <= a1;
|
assign rd1 = ram1[a1_reg];
|
assign rd1 = ram1[a1_reg];
|
|
|
always @ (negedge clk)
|
always @ (negedge clk)
|
if (we3_reg)
|
if (we3_reg)
|
ram2[a3_reg] <= wd3;
|
ram2[a3_reg] <= wd3;
|
always @ (posedge clk)
|
always @ (posedge clk)
|
a2_reg <= a2;
|
a2_reg <= a2;
|
assign rd2 = ram2[a2_reg];
|
assign rd2 = ram2[a2_reg];
|
|
|
`else
|
`else
|
|
|
`define MODULE dpram_1r1w
|
`define MODULE dpram_1r1w
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .data_width(data_width), .addr_width(addr_width))
|
# ( .data_width(data_width), .addr_width(addr_width))
|
ram1 (
|
ram1 (
|
.d_a(wd3),
|
.d_a(wd3),
|
.adr_a(a3),
|
.adr_a(a3),
|
.we_a(we3),
|
.we_a(we3),
|
.clk_a(clk),
|
.clk_a(clk),
|
.q_b(rd1),
|
.q_b(rd1),
|
.adr_b(a1),
|
.adr_b(a1),
|
.clk_b(clk) );
|
.clk_b(clk) );
|
|
|
`BASE`MODULE
|
`BASE`MODULE
|
# ( .data_width(data_width), .addr_width(addr_width))
|
# ( .data_width(data_width), .addr_width(addr_width))
|
ram2 (
|
ram2 (
|
.d_a(wd3),
|
.d_a(wd3),
|
.adr_a(a3),
|
.adr_a(a3),
|
.we_a(we3),
|
.we_a(we3),
|
.clk_a(clk),
|
.clk_a(clk),
|
.q_b(rd2),
|
.q_b(rd2),
|
.adr_b(a2),
|
.adr_b(a2),
|
.clk_b(clk) );
|
.clk_b(clk) );
|
`undef MODULE
|
`undef MODULE
|
|
|
`endif
|
`endif
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Versatile library, wishbone stuff ////
|
//// Versatile library, wishbone stuff ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Wishbone compliant modules ////
|
//// Wishbone compliant modules ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - ////
|
//// - ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef WB_ADR_INC
|
`ifdef WB_ADR_INC
|
// async wb3 - wb3 bridge
|
// async wb3 - wb3 bridge
|
`timescale 1ns/1ns
|
`timescale 1ns/1ns
|
`define MODULE wb_adr_inc
|
`define MODULE wb_adr_inc
|
module `BASE`MODULE (
|
module `BASE`MODULE ( cyc_i, stb_i, cti_i, bte_i, adr_i, ack_o, adr_o, clk, rst);
|
`undef MODULE
|
`undef MODULE
|
|
parameter adr_width = 10;
|
|
parameter max_burst_width = 4;
|
|
input cyc_i, stb_i;
|
|
input [2:0] cti_i;
|
|
input [1:0] bte_i;
|
|
input [adr_width-1:0] adr_i;
|
|
output [adr_width-1:0] adr_o;
|
|
output ack_o;
|
|
input clk, rst;
|
|
|
|
reg [adr_width-1:0] adr;
|
|
|
|
generate
|
|
if (max_burst_width==0) begin : inst_0
|
|
reg ack_o;
|
|
assign adr_o = adr_i;
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
col_reg <= {col_reg_width{1'b0}};
|
ack_o <= 1'b0;
|
else
|
else
|
case (state)
|
ack_o <= cyc_i & stb_i & !ack_o;
|
`FSM_IDLE:
|
end else begin
|
col_reg <= col[col_reg_width-1:0];
|
|
`FSM_RW:
|
wire [max_burst_width-1:0] to_adr;
|
if (~stall)
|
|
|
reg [1:0] last_cycle;
|
|
localparam idle = 2'b00;
|
|
localparam cyc = 2'b01;
|
|
localparam ws = 2'b10;
|
|
localparam eoc = 2'b11;
|
|
always @ (posedge clk or posedge rst)
|
|
if (rst)
|
|
last_cycle <= idle;
|
|
else
|
|
last_cycle <= (!cyc_i) ? idle :
|
|
(cyc_i & ack_o & (cti_i==3'b000 | cti_i==3'b111)) ? eoc :
|
|
(cyc_i & !stb_i) ? ws :
|
|
cyc;
|
|
assign to_adr = (last_cycle==idle | last_cycle==eoc) ? adr_i[max_burst_width-1:0] : adr[max_burst_width-1:0];
|
|
assign adr_o[max_burst_width-1:0] = (last_cycle==idle | last_cycle==eoc) ? adr_i[max_burst_width-1:0] : adr[max_burst_width-1:0];
|
|
assign ack_o = last_cycle == cyc;
|
|
end
|
|
endgenerate
|
|
|
|
generate
|
|
if (max_burst_width==2) begin : inst_2
|
|
always @ (posedge clk or posedge rst)
|
|
if (rst)
|
|
adr <= 2'h0;
|
|
else
|
|
if (cyc_i & stb_i)
|
|
adr[1:0] <= to_adr[1:0] + 2'd1;
|
|
else
|
|
adr <= to_adr[1:0];
|
|
end
|
|
endgenerate
|
|
|
|
generate
|
|
if (max_burst_width==3) begin : inst_3
|
|
always @ (posedge clk or posedge rst)
|
|
if (rst)
|
|
adr <= 3'h0;
|
|
else
|
|
if (cyc_i & stb_i)
|
case (bte_i)
|
case (bte_i)
|
`ifdef SDR_BEAT4
|
2'b01: adr[2:0] <= {to_adr[2],to_adr[1:0] + 2'd1};
|
beat4: col_reg[2:0] <= col_reg[2:0] + 3'd1;
|
default: adr[3:0] <= to_adr[2:0] + 3'd1;
|
`endif
|
|
`ifdef SDR_BEAT8
|
|
beat8: col_reg[3:0] <= col_reg[3:0] + 4'd1;
|
|
`endif
|
|
`ifdef SDR_BEAT16
|
|
beat16: col_reg[4:0] <= col_reg[4:0] + 5'd1;
|
|
`endif
|
|
endcase
|
endcase
|
|
else
|
|
adr <= to_adr[2:0];
|
|
end
|
|
endgenerate
|
|
|
|
generate
|
|
if (max_burst_width==4) begin : inst_4
|
|
always @ (posedge clk or posedge rst)
|
|
if (rst)
|
|
adr <= 4'h0;
|
|
else
|
|
if (cyc_i & stb_i)
|
|
case (bte_i)
|
|
2'b01: adr[3:0] <= {to_adr[3:2],to_adr[1:0] + 2'd1};
|
|
2'b10: adr[3:0] <= {to_adr[3],to_adr[2:0] + 3'd1};
|
|
default: adr[3:0] <= to_adr + 4'd1;
|
endcase
|
endcase
|
|
else
|
|
adr <= to_adr[3:0];
|
|
end
|
|
endgenerate
|
|
|
|
generate
|
|
if (adr_width > max_burst_width) begin : pass_through
|
|
assign adr_o[adr_width-1:max_burst_width] = adr_i[adr_width-1:max_burst_width];
|
|
end
|
|
endgenerate
|
|
|
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB3WB3_BRIDGE
|
`ifdef WB3WB3_BRIDGE
|
// async wb3 - wb3 bridge
|
// async wb3 - wb3 bridge
|
`timescale 1ns/1ns
|
`timescale 1ns/1ns
|
`define MODULE wb3wb3_bridge
|
`define MODULE wb3wb3_bridge
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// wishbone slave side
|
// wishbone slave side
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_bte_i, wbs_cti_i, wbs_we_i, wbs_cyc_i, wbs_stb_i, wbs_dat_o, wbs_ack_o, wbs_clk, wbs_rst,
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_bte_i, wbs_cti_i, wbs_we_i, wbs_cyc_i, wbs_stb_i, wbs_dat_o, wbs_ack_o, wbs_clk, wbs_rst,
|
// wishbone master side
|
// wishbone master side
|
wbm_dat_o, wbm_adr_o, wbm_sel_o, wbm_bte_o, wbm_cti_o, wbm_we_o, wbm_cyc_o, wbm_stb_o, wbm_dat_i, wbm_ack_i, wbm_clk, wbm_rst);
|
wbm_dat_o, wbm_adr_o, wbm_sel_o, wbm_bte_o, wbm_cti_o, wbm_we_o, wbm_cyc_o, wbm_stb_o, wbm_dat_i, wbm_ack_i, wbm_clk, wbm_rst);
|
|
|
input [31:0] wbs_dat_i;
|
input [31:0] wbs_dat_i;
|
input [31:2] wbs_adr_i;
|
input [31:2] wbs_adr_i;
|
input [3:0] wbs_sel_i;
|
input [3:0] wbs_sel_i;
|
input [1:0] wbs_bte_i;
|
input [1:0] wbs_bte_i;
|
input [2:0] wbs_cti_i;
|
input [2:0] wbs_cti_i;
|
input wbs_we_i, wbs_cyc_i, wbs_stb_i;
|
input wbs_we_i, wbs_cyc_i, wbs_stb_i;
|
output [31:0] wbs_dat_o;
|
output [31:0] wbs_dat_o;
|
output wbs_ack_o;
|
output wbs_ack_o;
|
input wbs_clk, wbs_rst;
|
input wbs_clk, wbs_rst;
|
|
|
output [31:0] wbm_dat_o;
|
output [31:0] wbm_dat_o;
|
output reg [31:2] wbm_adr_o;
|
output reg [31:2] wbm_adr_o;
|
output [3:0] wbm_sel_o;
|
output [3:0] wbm_sel_o;
|
output reg [1:0] wbm_bte_o;
|
output reg [1:0] wbm_bte_o;
|
output reg [2:0] wbm_cti_o;
|
output reg [2:0] wbm_cti_o;
|
output reg wbm_we_o;
|
output reg wbm_we_o;
|
output wbm_cyc_o;
|
output wbm_cyc_o;
|
output wbm_stb_o;
|
output wbm_stb_o;
|
input [31:0] wbm_dat_i;
|
input [31:0] wbm_dat_i;
|
input wbm_ack_i;
|
input wbm_ack_i;
|
input wbm_clk, wbm_rst;
|
input wbm_clk, wbm_rst;
|
|
|
parameter addr_width = 4;
|
parameter addr_width = 4;
|
|
|
// bte
|
// bte
|
parameter linear = 2'b00;
|
parameter linear = 2'b00;
|
parameter wrap4 = 2'b01;
|
parameter wrap4 = 2'b01;
|
parameter wrap8 = 2'b10;
|
parameter wrap8 = 2'b10;
|
parameter wrap16 = 2'b11;
|
parameter wrap16 = 2'b11;
|
// cti
|
// cti
|
parameter classic = 3'b000;
|
parameter classic = 3'b000;
|
parameter incburst = 3'b010;
|
parameter incburst = 3'b010;
|
parameter endofburst = 3'b111;
|
parameter endofburst = 3'b111;
|
|
|
parameter wbs_adr = 1'b0;
|
parameter wbs_adr = 1'b0;
|
parameter wbs_data = 1'b1;
|
parameter wbs_data = 1'b1;
|
|
|
parameter wbm_adr0 = 2'b00;
|
parameter wbm_adr0 = 2'b00;
|
parameter wbm_adr1 = 2'b01;
|
parameter wbm_adr1 = 2'b01;
|
parameter wbm_data = 2'b10;
|
parameter wbm_data = 2'b10;
|
parameter wbm_data_wait = 2'b11;
|
parameter wbm_data_wait = 2'b11;
|
|
|
reg [1:0] wbs_bte_reg;
|
reg [1:0] wbs_bte_reg;
|
reg wbs;
|
reg wbs;
|
wire wbs_eoc_alert, wbm_eoc_alert;
|
wire wbs_eoc_alert, wbm_eoc_alert;
|
reg wbs_eoc, wbm_eoc;
|
reg wbs_eoc, wbm_eoc;
|
reg [1:0] wbm;
|
reg [1:0] wbm;
|
|
|
wire [1:16] wbs_count, wbm_count;
|
wire [1:16] wbs_count, wbm_count;
|
|
|
wire [35:0] a_d, a_q, b_d, b_q;
|
wire [35:0] a_d, a_q, b_d, b_q;
|
wire a_wr, a_rd, a_fifo_full, a_fifo_empty, b_wr, b_rd, b_fifo_full, b_fifo_empty;
|
wire a_wr, a_rd, a_fifo_full, a_fifo_empty, b_wr, b_rd, b_fifo_full, b_fifo_empty;
|
reg a_rd_reg;
|
reg a_rd_reg;
|
wire b_rd_adr, b_rd_data;
|
wire b_rd_adr, b_rd_data;
|
wire b_rd_data_reg;
|
wire b_rd_data_reg;
|
wire [35:0] temp;
|
wire [35:0] temp;
|
|
|
`define WE 5
|
`define WE 5
|
`define BTE 4:3
|
`define BTE 4:3
|
`define CTI 2:0
|
`define CTI 2:0
|
|
|
assign wbs_eoc_alert = (wbs_bte_reg==wrap4 & wbs_count[3]) | (wbs_bte_reg==wrap8 & wbs_count[7]) | (wbs_bte_reg==wrap16 & wbs_count[15]);
|
assign wbs_eoc_alert = (wbs_bte_reg==wrap4 & wbs_count[3]) | (wbs_bte_reg==wrap8 & wbs_count[7]) | (wbs_bte_reg==wrap16 & wbs_count[15]);
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
if (wbs_rst)
|
if (wbs_rst)
|
wbs_eoc <= 1'b0;
|
wbs_eoc <= 1'b0;
|
else
|
else
|
if (wbs==wbs_adr & wbs_stb_i & !a_fifo_full)
|
if (wbs==wbs_adr & wbs_stb_i & !a_fifo_full)
|
wbs_eoc <= (wbs_bte_i==linear) | (wbs_cti_i==3'b111);
|
wbs_eoc <= (wbs_bte_i==linear) | (wbs_cti_i==3'b111);
|
else if (wbs_eoc_alert & (a_rd | a_wr))
|
else if (wbs_eoc_alert & (a_rd | a_wr))
|
wbs_eoc <= 1'b1;
|
wbs_eoc <= 1'b1;
|
|
|
`define MODULE cnt_shreg_ce_clear
|
`define MODULE cnt_shreg_ce_clear
|
`BASE`MODULE # ( .length(16))
|
`BASE`MODULE # ( .length(16))
|
`undef MODULE
|
`undef MODULE
|
cnt0 (
|
cnt0 (
|
.cke(wbs_ack_o),
|
.cke(wbs_ack_o),
|
.clear(wbs_eoc),
|
.clear(wbs_eoc),
|
.q(wbs_count),
|
.q(wbs_count),
|
.rst(wbs_rst),
|
.rst(wbs_rst),
|
.clk(wbs_clk));
|
.clk(wbs_clk));
|
|
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
if (wbs_rst)
|
if (wbs_rst)
|
wbs <= wbs_adr;
|
wbs <= wbs_adr;
|
else
|
else
|
if ((wbs==wbs_adr) & wbs_cyc_i & wbs_stb_i & a_fifo_empty)
|
if ((wbs==wbs_adr) & wbs_cyc_i & wbs_stb_i & a_fifo_empty)
|
wbs <= wbs_data;
|
wbs <= wbs_data;
|
else if (wbs_eoc & wbs_ack_o)
|
else if (wbs_eoc & wbs_ack_o)
|
wbs <= wbs_adr;
|
wbs <= wbs_adr;
|
|
|
// wbs FIFO
|
// wbs FIFO
|
assign a_d = (wbs==wbs_adr) ? {wbs_adr_i[31:2],wbs_we_i,((wbs_cti_i==3'b111) ? {2'b00,3'b000} : {wbs_bte_i,wbs_cti_i})} : {wbs_dat_i,wbs_sel_i};
|
assign a_d = (wbs==wbs_adr) ? {wbs_adr_i[31:2],wbs_we_i,((wbs_cti_i==3'b111) ? {2'b00,3'b000} : {wbs_bte_i,wbs_cti_i})} : {wbs_dat_i,wbs_sel_i};
|
assign a_wr = (wbs==wbs_adr) ? wbs_cyc_i & wbs_stb_i & a_fifo_empty :
|
assign a_wr = (wbs==wbs_adr) ? wbs_cyc_i & wbs_stb_i & a_fifo_empty :
|
(wbs==wbs_data) ? wbs_we_i & wbs_stb_i & !a_fifo_full :
|
(wbs==wbs_data) ? wbs_we_i & wbs_stb_i & !a_fifo_full :
|
1'b0;
|
1'b0;
|
assign a_rd = !a_fifo_empty;
|
assign a_rd = !a_fifo_empty;
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
if (wbs_rst)
|
if (wbs_rst)
|
a_rd_reg <= 1'b0;
|
a_rd_reg <= 1'b0;
|
else
|
else
|
a_rd_reg <= a_rd;
|
a_rd_reg <= a_rd;
|
assign wbs_ack_o = a_rd_reg | (a_wr & wbs==wbs_data);
|
assign wbs_ack_o = a_rd_reg | (a_wr & wbs==wbs_data);
|
|
|
assign wbs_dat_o = a_q[35:4];
|
assign wbs_dat_o = a_q[35:4];
|
|
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
always @ (posedge wbs_clk or posedge wbs_rst)
|
if (wbs_rst)
|
if (wbs_rst)
|
wbs_bte_reg <= 2'b00;
|
wbs_bte_reg <= 2'b00;
|
else
|
else
|
wbs_bte_reg <= wbs_bte_i;
|
wbs_bte_reg <= wbs_bte_i;
|
|
|
// wbm FIFO
|
// wbm FIFO
|
assign wbm_eoc_alert = (wbm_bte_o==wrap4 & wbm_count[3]) | (wbm_bte_o==wrap8 & wbm_count[7]) | (wbm_bte_o==wrap16 & wbm_count[15]);
|
assign wbm_eoc_alert = (wbm_bte_o==wrap4 & wbm_count[3]) | (wbm_bte_o==wrap8 & wbm_count[7]) | (wbm_bte_o==wrap16 & wbm_count[15]);
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
if (wbm_rst)
|
if (wbm_rst)
|
wbm_eoc <= 1'b0;
|
wbm_eoc <= 1'b0;
|
else
|
else
|
if (wbm==wbm_adr0 & !b_fifo_empty)
|
if (wbm==wbm_adr0 & !b_fifo_empty)
|
wbm_eoc <= b_q[`BTE] == linear;
|
wbm_eoc <= b_q[`BTE] == linear;
|
else if (wbm_eoc_alert & wbm_ack_i)
|
else if (wbm_eoc_alert & wbm_ack_i)
|
wbm_eoc <= 1'b1;
|
wbm_eoc <= 1'b1;
|
|
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
if (wbm_rst)
|
if (wbm_rst)
|
wbm <= wbm_adr0;
|
wbm <= wbm_adr0;
|
else
|
else
|
/*
|
/*
|
if ((wbm==wbm_adr0 & !b_fifo_empty) |
|
if ((wbm==wbm_adr0 & !b_fifo_empty) |
|
(wbm==wbm_adr1 & !b_fifo_empty & wbm_we_o) |
|
(wbm==wbm_adr1 & !b_fifo_empty & wbm_we_o) |
|
(wbm==wbm_adr1 & !wbm_we_o) |
|
(wbm==wbm_adr1 & !wbm_we_o) |
|
(wbm==wbm_data & wbm_ack_i & wbm_eoc))
|
(wbm==wbm_data & wbm_ack_i & wbm_eoc))
|
wbm <= {wbm[0],!(wbm[1] ^ wbm[0])}; // count sequence 00,01,10
|
wbm <= {wbm[0],!(wbm[1] ^ wbm[0])}; // count sequence 00,01,10
|
*/
|
*/
|
case (wbm)
|
case (wbm)
|
wbm_adr0:
|
wbm_adr0:
|
if (!b_fifo_empty)
|
if (!b_fifo_empty)
|
wbm <= wbm_adr1;
|
wbm <= wbm_adr1;
|
wbm_adr1:
|
wbm_adr1:
|
if (!wbm_we_o | (!b_fifo_empty & wbm_we_o))
|
if (!wbm_we_o | (!b_fifo_empty & wbm_we_o))
|
wbm <= wbm_data;
|
wbm <= wbm_data;
|
wbm_data:
|
wbm_data:
|
if (wbm_ack_i & wbm_eoc)
|
if (wbm_ack_i & wbm_eoc)
|
wbm <= wbm_adr0;
|
wbm <= wbm_adr0;
|
else if (b_fifo_empty & wbm_we_o & wbm_ack_i)
|
else if (b_fifo_empty & wbm_we_o & wbm_ack_i)
|
wbm <= wbm_data_wait;
|
wbm <= wbm_data_wait;
|
wbm_data_wait:
|
wbm_data_wait:
|
if (!b_fifo_empty)
|
if (!b_fifo_empty)
|
wbm <= wbm_data;
|
wbm <= wbm_data;
|
endcase
|
endcase
|
|
|
assign b_d = {wbm_dat_i,4'b1111};
|
assign b_d = {wbm_dat_i,4'b1111};
|
assign b_wr = !wbm_we_o & wbm_ack_i;
|
assign b_wr = !wbm_we_o & wbm_ack_i;
|
assign b_rd_adr = (wbm==wbm_adr0 & !b_fifo_empty);
|
assign b_rd_adr = (wbm==wbm_adr0 & !b_fifo_empty);
|
assign b_rd_data = (wbm==wbm_adr1 & !b_fifo_empty & wbm_we_o) ? 1'b1 : // b_q[`WE]
|
assign b_rd_data = (wbm==wbm_adr1 & !b_fifo_empty & wbm_we_o) ? 1'b1 : // b_q[`WE]
|
(wbm==wbm_data & !b_fifo_empty & wbm_we_o & wbm_ack_i & !wbm_eoc) ? 1'b1 :
|
(wbm==wbm_data & !b_fifo_empty & wbm_we_o & wbm_ack_i & !wbm_eoc) ? 1'b1 :
|
(wbm==wbm_data_wait & !b_fifo_empty) ? 1'b1 :
|
(wbm==wbm_data_wait & !b_fifo_empty) ? 1'b1 :
|
1'b0;
|
1'b0;
|
assign b_rd = b_rd_adr | b_rd_data;
|
assign b_rd = b_rd_adr | b_rd_data;
|
|
|
`define MODULE dff
|
`define MODULE dff
|
`BASE`MODULE dff1 ( .d(b_rd_data), .q(b_rd_data_reg), .clk(wbm_clk), .rst(wbm_rst));
|
`BASE`MODULE dff1 ( .d(b_rd_data), .q(b_rd_data_reg), .clk(wbm_clk), .rst(wbm_rst));
|
`undef MODULE
|
`undef MODULE
|
`define MODULE dff_ce
|
`define MODULE dff_ce
|
`BASE`MODULE # ( .width(36)) dff2 ( .d(b_q), .ce(b_rd_data_reg), .q(temp), .clk(wbm_clk), .rst(wbm_rst));
|
`BASE`MODULE # ( .width(36)) dff2 ( .d(b_q), .ce(b_rd_data_reg), .q(temp), .clk(wbm_clk), .rst(wbm_rst));
|
`undef MODULE
|
`undef MODULE
|
|
|
assign {wbm_dat_o,wbm_sel_o} = (b_rd_data_reg) ? b_q : temp;
|
assign {wbm_dat_o,wbm_sel_o} = (b_rd_data_reg) ? b_q : temp;
|
|
|
`define MODULE cnt_shreg_ce_clear
|
`define MODULE cnt_shreg_ce_clear
|
`BASE`MODULE # ( .length(16))
|
`BASE`MODULE # ( .length(16))
|
`undef MODULE
|
`undef MODULE
|
cnt1 (
|
cnt1 (
|
.cke(wbm_ack_i),
|
.cke(wbm_ack_i),
|
.clear(wbm_eoc),
|
.clear(wbm_eoc),
|
.q(wbm_count),
|
.q(wbm_count),
|
.rst(wbm_rst),
|
.rst(wbm_rst),
|
.clk(wbm_clk));
|
.clk(wbm_clk));
|
|
|
assign wbm_cyc_o = (wbm==wbm_data | wbm==wbm_data_wait);
|
assign wbm_cyc_o = (wbm==wbm_data | wbm==wbm_data_wait);
|
assign wbm_stb_o = (wbm==wbm_data);
|
assign wbm_stb_o = (wbm==wbm_data);
|
|
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
always @ (posedge wbm_clk or posedge wbm_rst)
|
if (wbm_rst)
|
if (wbm_rst)
|
{wbm_adr_o,wbm_we_o,wbm_bte_o,wbm_cti_o} <= {30'h0,1'b0,linear,classic};
|
{wbm_adr_o,wbm_we_o,wbm_bte_o,wbm_cti_o} <= {30'h0,1'b0,linear,classic};
|
else begin
|
else begin
|
if (wbm==wbm_adr0 & !b_fifo_empty)
|
if (wbm==wbm_adr0 & !b_fifo_empty)
|
{wbm_adr_o,wbm_we_o,wbm_bte_o,wbm_cti_o} <= b_q;
|
{wbm_adr_o,wbm_we_o,wbm_bte_o,wbm_cti_o} <= b_q;
|
else if (wbm_eoc_alert & wbm_ack_i)
|
else if (wbm_eoc_alert & wbm_ack_i)
|
wbm_cti_o <= endofburst;
|
wbm_cti_o <= endofburst;
|
end
|
end
|
|
|
//async_fifo_dw_simplex_top
|
//async_fifo_dw_simplex_top
|
`define MODULE fifo_2r2w_async_simplex
|
`define MODULE fifo_2r2w_async_simplex
|
`BASE`MODULE
|
`BASE`MODULE
|
`undef MODULE
|
`undef MODULE
|
# ( .data_width(36), .addr_width(addr_width))
|
# ( .data_width(36), .addr_width(addr_width))
|
fifo (
|
fifo (
|
// a side
|
// a side
|
.a_d(a_d),
|
.a_d(a_d),
|
.a_wr(a_wr),
|
.a_wr(a_wr),
|
.a_fifo_full(a_fifo_full),
|
.a_fifo_full(a_fifo_full),
|
.a_q(a_q),
|
.a_q(a_q),
|
.a_rd(a_rd),
|
.a_rd(a_rd),
|
.a_fifo_empty(a_fifo_empty),
|
.a_fifo_empty(a_fifo_empty),
|
.a_clk(wbs_clk),
|
.a_clk(wbs_clk),
|
.a_rst(wbs_rst),
|
.a_rst(wbs_rst),
|
// b side
|
// b side
|
.b_d(b_d),
|
.b_d(b_d),
|
.b_wr(b_wr),
|
.b_wr(b_wr),
|
.b_fifo_full(b_fifo_full),
|
.b_fifo_full(b_fifo_full),
|
.b_q(b_q),
|
.b_q(b_q),
|
.b_rd(b_rd),
|
.b_rd(b_rd),
|
.b_fifo_empty(b_fifo_empty),
|
.b_fifo_empty(b_fifo_empty),
|
.b_clk(wbm_clk),
|
.b_clk(wbm_clk),
|
.b_rst(wbm_rst)
|
.b_rst(wbm_rst)
|
);
|
);
|
|
|
endmodule
|
endmodule
|
`undef WE
|
`undef WE
|
`undef BTE
|
`undef BTE
|
`undef CTI
|
`undef CTI
|
`endif
|
`endif
|
|
|
`ifdef WB3AVALON_BRIDGE
|
`ifdef WB3AVALON_BRIDGE
|
`define MODULE wb3avalon_bridge
|
`define MODULE wb3avalon_bridge
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// wishbone slave side
|
// wishbone slave side
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_bte_i, wbs_cti_i, wbs_we_i, wbs_cyc_i, wbs_stb_i, wbs_dat_o, wbs_ack_o, wbs_clk, wbs_rst,
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_bte_i, wbs_cti_i, wbs_we_i, wbs_cyc_i, wbs_stb_i, wbs_dat_o, wbs_ack_o, wbs_clk, wbs_rst,
|
// avalon master side
|
// avalon master side
|
readdata, readdatavalid, address, read, be, write, burstcount, writedata, waitrequest, beginbursttransfer, clk, rst);
|
readdata, readdatavalid, address, read, be, write, burstcount, writedata, waitrequest, beginbursttransfer, clk, rst);
|
|
|
input [31:0] wbs_dat_i;
|
input [31:0] wbs_dat_i;
|
input [31:2] wbs_adr_i;
|
input [31:2] wbs_adr_i;
|
input [3:0] wbs_sel_i;
|
input [3:0] wbs_sel_i;
|
input [1:0] wbs_bte_i;
|
input [1:0] wbs_bte_i;
|
input [2:0] wbs_cti_i;
|
input [2:0] wbs_cti_i;
|
input wbs_we_i, wbs_cyc_i, wbs_stb_i;
|
input wbs_we_i;
|
|
input wbs_cyc_i;
|
|
input wbs_stb_i;
|
output [31:0] wbs_dat_o;
|
output [31:0] wbs_dat_o;
|
output wbs_ack_o;
|
output wbs_ack_o;
|
input wbs_clk, wbs_rst;
|
input wbs_clk, wbs_rst;
|
|
|
input [31:0] readdata;
|
input [31:0] readdata;
|
output [31:0] writedata;
|
output [31:0] writedata;
|
output [31:2] address;
|
output [31:2] address;
|
output [3:0] be;
|
output [3:0] be;
|
output write;
|
output write;
|
output read;
|
output read;
|
output beginbursttransfer;
|
output beginbursttransfer;
|
output [3:0] burstcount;
|
output [3:0] burstcount;
|
input readdatavalid;
|
input readdatavalid;
|
input waitrequest;
|
input waitrequest;
|
input clk;
|
input clk;
|
input rst;
|
input rst;
|
|
|
wire [1:0] wbm_bte_o;
|
wire [1:0] wbm_bte_o;
|
wire [2:0] wbm_cti_o;
|
wire [2:0] wbm_cti_o;
|
wire wbm_we_o, wbm_cyc_o, wbm_stb_o, wbm_ack_i;
|
wire wbm_we_o, wbm_cyc_o, wbm_stb_o, wbm_ack_i;
|
reg last_cyc;
|
reg last_cyc;
|
reg [3:0] counter;
|
reg [3:0] counter;
|
reg read_busy;
|
reg read_busy;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
last_cyc <= 1'b0;
|
last_cyc <= 1'b0;
|
else
|
else
|
last_cyc <= wbm_cyc_o;
|
last_cyc <= wbm_cyc_o;
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst)
|
if (rst)
|
read_busy <= 1'b0;
|
read_busy <= 1'b0;
|
else
|
else
|
if (read & !waitrequest)
|
if (read & !waitrequest)
|
read_busy <= 1'b1;
|
read_busy <= 1'b1;
|
else if (wbm_ack_i & wbm_cti_o!=3'b010)
|
else if (wbm_ack_i & wbm_cti_o!=3'b010)
|
read_busy <= 1'b0;
|
read_busy <= 1'b0;
|
assign read = wbm_cyc_o & wbm_stb_o & !wbm_we_o & !read_busy;
|
assign read = wbm_cyc_o & wbm_stb_o & !wbm_we_o & !read_busy;
|
|
|
assign beginbursttransfer = (!last_cyc & wbm_cyc_o) & wbm_cti_o==3'b010;
|
assign beginbursttransfer = (!last_cyc & wbm_cyc_o) & wbm_cti_o==3'b010;
|
assign burstcount = (wbm_bte_o==2'b01) ? 4'd4 :
|
assign burstcount = (wbm_bte_o==2'b01) ? 4'd4 :
|
(wbm_bte_o==2'b10) ? 4'd8 :
|
(wbm_bte_o==2'b10) ? 4'd8 :
|
(wbm_bte_o==2'b11) ? 4'd16:
|
(wbm_bte_o==2'b11) ? 4'd16:
|
4'd1;
|
4'd1;
|
assign wbm_ack_i = (readdatavalid) | (write & !waitrequest);
|
assign wbm_ack_i = (readdatavalid) | (write & !waitrequest);
|
|
|
always @ (posedge clk or posedge rst)
|
always @ (posedge clk or posedge rst)
|
if (rst) begin
|
if (rst) begin
|
counter <= 4'd0;
|
counter <= 4'd0;
|
end else
|
end else
|
if (wbm_we_o) begin
|
if (wbm_we_o) begin
|
if (!waitrequest & !last_cyc & wbm_cyc_o) begin
|
if (!waitrequest & !last_cyc & wbm_cyc_o) begin
|
counter <= burstcount -1;
|
counter <= burstcount -1;
|
end else if (waitrequest & !last_cyc & wbm_cyc_o) begin
|
end else if (waitrequest & !last_cyc & wbm_cyc_o) begin
|
counter <= burstcount;
|
counter <= burstcount;
|
end else if (!waitrequest & wbm_stb_o) begin
|
end else if (!waitrequest & wbm_stb_o) begin
|
counter <= counter - 4'd1;
|
counter <= counter - 4'd1;
|
end
|
end
|
end
|
end
|
assign write = wbm_cyc_o & wbm_stb_o & wbm_we_o & counter!=4'd0;
|
assign write = wbm_cyc_o & wbm_stb_o & wbm_we_o & counter!=4'd0;
|
|
|
`define MODULE wb3wb3_bridge
|
`define MODULE wb3wb3_bridge
|
`BASE`MODULE wbwb3inst (
|
`BASE`MODULE wbwb3inst (
|
`undef MODULE
|
`undef MODULE
|
// wishbone slave side
|
// wishbone slave side
|
.wbs_dat_i(wbs_dat_i),
|
.wbs_dat_i(wbs_dat_i),
|
.wbs_adr_i(wbs_adr_i),
|
.wbs_adr_i(wbs_adr_i),
|
.wbs_sel_i(wbs_sel_i),
|
.wbs_sel_i(wbs_sel_i),
|
.wbs_bte_i(wbs_bte_i),
|
.wbs_bte_i(wbs_bte_i),
|
.wbs_cti_i(wbs_cti_i),
|
.wbs_cti_i(wbs_cti_i),
|
.wbs_we_i(wbs_we_i),
|
.wbs_we_i(wbs_we_i),
|
.wbs_cyc_i(wbs_cyc_i),
|
.wbs_cyc_i(wbs_cyc_i),
|
.wbs_stb_i(wbs_stb_i),
|
.wbs_stb_i(wbs_stb_i),
|
.wbs_dat_o(wbs_dat_o),
|
.wbs_dat_o(wbs_dat_o),
|
.wbs_ack_o(wbs_ack_o),
|
.wbs_ack_o(wbs_ack_o),
|
.wbs_clk(wbs_clk),
|
.wbs_clk(wbs_clk),
|
.wbs_rst(wbs_rst),
|
.wbs_rst(wbs_rst),
|
// wishbone master side
|
// wishbone master side
|
.wbm_dat_o(writedata),
|
.wbm_dat_o(writedata),
|
.wbm_adr_o(address),
|
.wbm_adr_o(address),
|
.wbm_sel_o(be),
|
.wbm_sel_o(be),
|
.wbm_bte_o(wbm_bte_o),
|
.wbm_bte_o(wbm_bte_o),
|
.wbm_cti_o(wbm_cti_o),
|
.wbm_cti_o(wbm_cti_o),
|
.wbm_we_o(wbm_we_o),
|
.wbm_we_o(wbm_we_o),
|
.wbm_cyc_o(wbm_cyc_o),
|
.wbm_cyc_o(wbm_cyc_o),
|
.wbm_stb_o(wbm_stb_o),
|
.wbm_stb_o(wbm_stb_o),
|
.wbm_dat_i(readdata),
|
.wbm_dat_i(readdata),
|
.wbm_ack_i(wbm_ack_i),
|
.wbm_ack_i(wbm_ack_i),
|
.wbm_clk(clk),
|
.wbm_clk(clk),
|
.wbm_rst(rst));
|
.wbm_rst(rst));
|
|
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB3_ARBITER_TYPE1
|
`ifdef WB3_ARBITER_TYPE1
|
`define MODULE wb3_arbiter_type1
|
`define MODULE wb3_arbiter_type1
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
wbm_dat_o, wbm_adr_o, wbm_sel_o, wbm_cti_o, wbm_bte_o, wbm_we_o, wbm_stb_o, wbm_cyc_o,
|
wbm_dat_o, wbm_adr_o, wbm_sel_o, wbm_cti_o, wbm_bte_o, wbm_we_o, wbm_stb_o, wbm_cyc_o,
|
wbm_dat_i, wbm_ack_i, wbm_err_i, wbm_rty_i,
|
wbm_dat_i, wbm_ack_i, wbm_err_i, wbm_rty_i,
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_cti_i, wbs_bte_i, wbs_we_i, wbs_stb_i, wbs_cyc_i,
|
wbs_dat_i, wbs_adr_i, wbs_sel_i, wbs_cti_i, wbs_bte_i, wbs_we_i, wbs_stb_i, wbs_cyc_i,
|
wbs_dat_o, wbs_ack_o, wbs_err_o, wbs_rty_o,
|
wbs_dat_o, wbs_ack_o, wbs_err_o, wbs_rty_o,
|
wb_clk, wb_rst
|
wb_clk, wb_rst
|
);
|
);
|
|
|
parameter nr_of_ports = 3;
|
parameter nr_of_ports = 3;
|
parameter adr_size = 26;
|
parameter adr_size = 26;
|
parameter adr_lo = 2;
|
parameter adr_lo = 2;
|
parameter dat_size = 32;
|
parameter dat_size = 32;
|
parameter sel_size = dat_size/8;
|
parameter sel_size = dat_size/8;
|
|
|
localparam aw = (adr_size - adr_lo) * nr_of_ports;
|
localparam aw = (adr_size - adr_lo) * nr_of_ports;
|
localparam dw = dat_size * nr_of_ports;
|
localparam dw = dat_size * nr_of_ports;
|
localparam sw = sel_size * nr_of_ports;
|
localparam sw = sel_size * nr_of_ports;
|
localparam cw = 3 * nr_of_ports;
|
localparam cw = 3 * nr_of_ports;
|
localparam bw = 2 * nr_of_ports;
|
localparam bw = 2 * nr_of_ports;
|
|
|
input [dw-1:0] wbm_dat_o;
|
input [dw-1:0] wbm_dat_o;
|
input [aw-1:0] wbm_adr_o;
|
input [aw-1:0] wbm_adr_o;
|
input [sw-1:0] wbm_sel_o;
|
input [sw-1:0] wbm_sel_o;
|
input [cw-1:0] wbm_cti_o;
|
input [cw-1:0] wbm_cti_o;
|
input [bw-1:0] wbm_bte_o;
|
input [bw-1:0] wbm_bte_o;
|
input [nr_of_ports-1:0] wbm_we_o, wbm_stb_o, wbm_cyc_o;
|
input [nr_of_ports-1:0] wbm_we_o, wbm_stb_o, wbm_cyc_o;
|
output [dw-1:0] wbm_dat_i;
|
output [dw-1:0] wbm_dat_i;
|
output [nr_of_ports-1:0] wbm_ack_i, wbm_err_i, wbm_rty_i;
|
output [nr_of_ports-1:0] wbm_ack_i, wbm_err_i, wbm_rty_i;
|
|
|
output [dat_size-1:0] wbs_dat_i;
|
output [dat_size-1:0] wbs_dat_i;
|
output [adr_size-1:adr_lo] wbs_adr_i;
|
output [adr_size-1:adr_lo] wbs_adr_i;
|
output [sel_size-1:0] wbs_sel_i;
|
output [sel_size-1:0] wbs_sel_i;
|
output [2:0] wbs_cti_i;
|
output [2:0] wbs_cti_i;
|
output [1:0] wbs_bte_i;
|
output [1:0] wbs_bte_i;
|
output wbs_we_i, wbs_stb_i, wbs_cyc_i;
|
output wbs_we_i, wbs_stb_i, wbs_cyc_i;
|
input [dat_size-1:0] wbs_dat_o;
|
input [dat_size-1:0] wbs_dat_o;
|
input wbs_ack_o, wbs_err_o, wbs_rty_o;
|
input wbs_ack_o, wbs_err_o, wbs_rty_o;
|
|
|
input wb_clk, wb_rst;
|
input wb_clk, wb_rst;
|
|
|
reg [nr_of_ports-1:0] select;
|
reg [nr_of_ports-1:0] select;
|
wire [nr_of_ports-1:0] state;
|
wire [nr_of_ports-1:0] state;
|
wire [nr_of_ports-1:0] eoc; // end-of-cycle
|
wire [nr_of_ports-1:0] eoc; // end-of-cycle
|
wire [nr_of_ports-1:0] sel;
|
wire [nr_of_ports-1:0] sel;
|
wire idle;
|
wire idle;
|
|
|
genvar i;
|
genvar i;
|
|
|
assign idle = !(|state);
|
assign idle = !(|state);
|
|
|
generate
|
generate
|
if (nr_of_ports == 2) begin
|
if (nr_of_ports == 2) begin
|
|
|
wire [2:0] wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[1],!wbm_cyc_o[1] & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[1],!wbm_cyc_o[1] & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
2'b1x : select = 2'b10;
|
2'b1x : select = 2'b10;
|
2'b01 : select = 2'b01;
|
2'b01 : select = 2'b01;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 3) begin
|
if (nr_of_ports == 3) begin
|
|
|
wire [2:0] wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
3'b1xx : select = 3'b100;
|
3'b1xx : select = 3'b100;
|
3'b01x : select = 3'b010;
|
3'b01x : select = 3'b010;
|
3'b001 : select = 3'b001;
|
3'b001 : select = 3'b001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
// assign select = (idle) ? {wbm_cyc_o[2],!wbm_cyc_o[2] & wbm_cyc_o[1],wbm_cyc_o[2:1]==2'b00 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
// assign select = (idle) ? {wbm_cyc_o[2],!wbm_cyc_o[2] & wbm_cyc_o[1],wbm_cyc_o[2:1]==2'b00 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 4) begin
|
if (nr_of_ports == 4) begin
|
|
|
wire [2:0] wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
4'b1xxx : select = 4'b1000;
|
4'b1xxx : select = 4'b1000;
|
4'b01xx : select = 4'b0100;
|
4'b01xx : select = 4'b0100;
|
4'b001x : select = 4'b0010;
|
4'b001x : select = 4'b0010;
|
4'b0001 : select = 4'b0001;
|
4'b0001 : select = 4'b0001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 5) begin
|
if (nr_of_ports == 5) begin
|
|
|
wire [2:0] wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
5'b1xxxx : select = 5'b10000;
|
5'b1xxxx : select = 5'b10000;
|
5'b01xxx : select = 5'b01000;
|
5'b01xxx : select = 5'b01000;
|
5'b001xx : select = 5'b00100;
|
5'b001xx : select = 5'b00100;
|
5'b0001x : select = 5'b00010;
|
5'b0001x : select = 5'b00010;
|
5'b00001 : select = 5'b00001;
|
5'b00001 : select = 5'b00001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 6) begin
|
if (nr_of_ports == 6) begin
|
|
|
wire [2:0] wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
6'b1xxxxx : select = 6'b100000;
|
6'b1xxxxx : select = 6'b100000;
|
6'b01xxxx : select = 6'b010000;
|
6'b01xxxx : select = 6'b010000;
|
6'b001xxx : select = 6'b001000;
|
6'b001xxx : select = 6'b001000;
|
6'b0001xx : select = 6'b000100;
|
6'b0001xx : select = 6'b000100;
|
6'b00001x : select = 6'b000010;
|
6'b00001x : select = 6'b000010;
|
6'b000001 : select = 6'b000001;
|
6'b000001 : select = 6'b000001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 7) begin
|
if (nr_of_ports == 7) begin
|
|
|
wire [2:0] wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
7'b1xxxxxx : select = 7'b1000000;
|
7'b1xxxxxx : select = 7'b1000000;
|
7'b01xxxxx : select = 7'b0100000;
|
7'b01xxxxx : select = 7'b0100000;
|
7'b001xxxx : select = 7'b0010000;
|
7'b001xxxx : select = 7'b0010000;
|
7'b0001xxx : select = 7'b0001000;
|
7'b0001xxx : select = 7'b0001000;
|
7'b00001xx : select = 7'b0000100;
|
7'b00001xx : select = 7'b0000100;
|
7'b000001x : select = 7'b0000010;
|
7'b000001x : select = 7'b0000010;
|
7'b0000001 : select = 7'b0000001;
|
7'b0000001 : select = 7'b0000001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[6] = (wbm_ack_i[6] & (wbm6_cti_o == 3'b000 | wbm6_cti_o == 3'b111)) | !wbm_cyc_o[6];
|
assign eoc[6] = (wbm_ack_i[6] & (wbm6_cti_o == 3'b000 | wbm6_cti_o == 3'b111)) | !wbm_cyc_o[6];
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (nr_of_ports == 8) begin
|
if (nr_of_ports == 8) begin
|
|
|
wire [2:0] wbm7_cti_o, wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
wire [2:0] wbm7_cti_o, wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o, wbm1_cti_o, wbm0_cti_o;
|
|
|
assign {wbm7_cti_o, wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
assign {wbm7_cti_o, wbm6_cti_o, wbm5_cti_o, wbm4_cti_o, wbm3_cti_o, wbm2_cti_o,wbm1_cti_o,wbm0_cti_o} = wbm_cti_o;
|
|
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
//assign select = (idle) ? {wbm_cyc_o[3],!wbm_cyc_o[3] & wbm_cyc_o[2],wbm_cyc_o[3:2]==2'b00 & wbm_cyc_o[1],wbm_cyc_o[3:1]==3'b000 & wbm_cyc_o[0]} : {nr_of_ports{1'b0}};
|
|
|
always @ (idle or wbm_cyc_o)
|
always @ (idle or wbm_cyc_o)
|
if (idle)
|
if (idle)
|
casex (wbm_cyc_o)
|
casex (wbm_cyc_o)
|
8'b1xxxxxxx : select = 8'b10000000;
|
8'b1xxxxxxx : select = 8'b10000000;
|
8'b01xxxxxx : select = 8'b01000000;
|
8'b01xxxxxx : select = 8'b01000000;
|
8'b001xxxxx : select = 8'b00100000;
|
8'b001xxxxx : select = 8'b00100000;
|
8'b0001xxxx : select = 8'b00010000;
|
8'b0001xxxx : select = 8'b00010000;
|
8'b00001xxx : select = 8'b00001000;
|
8'b00001xxx : select = 8'b00001000;
|
8'b000001xx : select = 8'b00000100;
|
8'b000001xx : select = 8'b00000100;
|
8'b0000001x : select = 8'b00000010;
|
8'b0000001x : select = 8'b00000010;
|
8'b00000001 : select = 8'b00000001;
|
8'b00000001 : select = 8'b00000001;
|
default : select = {nr_of_ports{1'b0}};
|
default : select = {nr_of_ports{1'b0}};
|
endcase
|
endcase
|
else
|
else
|
select = {nr_of_ports{1'b0}};
|
select = {nr_of_ports{1'b0}};
|
|
|
assign eoc[7] = (wbm_ack_i[7] & (wbm7_cti_o == 3'b000 | wbm7_cti_o == 3'b111)) | !wbm_cyc_o[7];
|
assign eoc[7] = (wbm_ack_i[7] & (wbm7_cti_o == 3'b000 | wbm7_cti_o == 3'b111)) | !wbm_cyc_o[7];
|
assign eoc[6] = (wbm_ack_i[6] & (wbm6_cti_o == 3'b000 | wbm6_cti_o == 3'b111)) | !wbm_cyc_o[6];
|
assign eoc[6] = (wbm_ack_i[6] & (wbm6_cti_o == 3'b000 | wbm6_cti_o == 3'b111)) | !wbm_cyc_o[6];
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[5] = (wbm_ack_i[5] & (wbm5_cti_o == 3'b000 | wbm5_cti_o == 3'b111)) | !wbm_cyc_o[5];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[4] = (wbm_ack_i[4] & (wbm4_cti_o == 3'b000 | wbm4_cti_o == 3'b111)) | !wbm_cyc_o[4];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[3] = (wbm_ack_i[3] & (wbm3_cti_o == 3'b000 | wbm3_cti_o == 3'b111)) | !wbm_cyc_o[3];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[2] = (wbm_ack_i[2] & (wbm2_cti_o == 3'b000 | wbm2_cti_o == 3'b111)) | !wbm_cyc_o[2];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[1] = (wbm_ack_i[1] & (wbm1_cti_o == 3'b000 | wbm1_cti_o == 3'b111)) | !wbm_cyc_o[1];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
assign eoc[0] = (wbm_ack_i[0] & (wbm0_cti_o == 3'b000 | wbm0_cti_o == 3'b111)) | !wbm_cyc_o[0];
|
|
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
for (i=0;i<nr_of_ports;i=i+1) begin : spr0
|
for (i=0;i<nr_of_ports;i=i+1) begin : spr0
|
`define MODULE spr
|
`define MODULE spr
|
`BASE`MODULE sr0( .sp(select[i]), .r(eoc[i]), .q(state[i]), .clk(wb_clk), .rst(wb_rst));
|
`BASE`MODULE sr0( .sp(select[i]), .r(eoc[i]), .q(state[i]), .clk(wb_clk), .rst(wb_rst));
|
`undef MODULE
|
`undef MODULE
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
assign sel = select | state;
|
assign sel = select | state;
|
|
|
`define MODULE mux_andor
|
`define MODULE mux_andor
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(32)) mux0 ( .a(wbm_dat_o), .sel(sel), .dout(wbs_dat_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(32)) mux0 ( .a(wbm_dat_o), .sel(sel), .dout(wbs_dat_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(adr_size-adr_lo)) mux1 ( .a(wbm_adr_o), .sel(sel), .dout(wbs_adr_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(adr_size-adr_lo)) mux1 ( .a(wbm_adr_o), .sel(sel), .dout(wbs_adr_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(sel_size)) mux2 ( .a(wbm_sel_o), .sel(sel), .dout(wbs_sel_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(sel_size)) mux2 ( .a(wbm_sel_o), .sel(sel), .dout(wbs_sel_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(3)) mux3 ( .a(wbm_cti_o), .sel(sel), .dout(wbs_cti_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(3)) mux3 ( .a(wbm_cti_o), .sel(sel), .dout(wbs_cti_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(2)) mux4 ( .a(wbm_bte_o), .sel(sel), .dout(wbs_bte_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(2)) mux4 ( .a(wbm_bte_o), .sel(sel), .dout(wbs_bte_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(1)) mux5 ( .a(wbm_we_o), .sel(sel), .dout(wbs_we_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(1)) mux5 ( .a(wbm_we_o), .sel(sel), .dout(wbs_we_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(1)) mux6 ( .a(wbm_stb_o), .sel(sel), .dout(wbs_stb_i));
|
`BASE`MODULE # ( .nr_of_ports(nr_of_ports), .width(1)) mux6 ( .a(wbm_stb_o), .sel(sel), .dout(wbs_stb_i));
|
`undef MODULE
|
`undef MODULE
|
assign wbs_cyc_i = |sel;
|
assign wbs_cyc_i = |sel;
|
|
|
assign wbm_dat_i = {nr_of_ports{wbs_dat_o}};
|
assign wbm_dat_i = {nr_of_ports{wbs_dat_o}};
|
assign wbm_ack_i = {nr_of_ports{wbs_ack_o}} & sel;
|
assign wbm_ack_i = {nr_of_ports{wbs_ack_o}} & sel;
|
assign wbm_err_i = {nr_of_ports{wbs_err_o}} & sel;
|
assign wbm_err_i = {nr_of_ports{wbs_err_o}} & sel;
|
assign wbm_rty_i = {nr_of_ports{wbs_rty_o}} & sel;
|
assign wbm_rty_i = {nr_of_ports{wbs_rty_o}} & sel;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB_B3_RAM_BE
|
`ifdef WB_B3_RAM_BE
|
// WB RAM with byte enable
|
// WB RAM with byte enable
|
`define MODULE wb_b3_ram_be
|
`define MODULE wb_b3_ram_be
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
wbs_dat_i, wbs_adr_i, wbs_cti_i, wbs_bte_i, wbs_sel_i, wbs_we_i, wbs_stb_i, wbs_cyc_i,
|
wbs_dat_i, wbs_adr_i, wbs_cti_i, wbs_bte_i, wbs_sel_i, wbs_we_i, wbs_stb_i, wbs_cyc_i,
|
wbs_dat_o, wbs_ack_o, wb_clk, wb_rst);
|
wbs_dat_o, wbs_ack_o, wb_clk, wb_rst);
|
|
|
parameter adr_size = 16;
|
parameter adr_size = 16;
|
parameter adr_lo = 2;
|
parameter adr_lo = 2;
|
parameter mem_size = 1<<16;
|
parameter mem_size = 1<<16;
|
parameter dat_size = 32;
|
parameter dat_size = 32;
|
|
parameter max_burst_width = 4;
|
parameter memory_init = 1;
|
parameter memory_init = 1;
|
parameter memory_file = "vl_ram.vmem";
|
parameter memory_file = "vl_ram.vmem";
|
|
|
localparam aw = (adr_size - adr_lo);
|
localparam aw = (adr_size - adr_lo);
|
localparam dw = dat_size;
|
localparam dw = dat_size;
|
localparam sw = dat_size/8;
|
localparam sw = dat_size/8;
|
localparam cw = 3;
|
localparam cw = 3;
|
localparam bw = 2;
|
localparam bw = 2;
|
|
|
input [dw-1:0] wbs_dat_i;
|
input [dw-1:0] wbs_dat_i;
|
input [aw-1:0] wbs_adr_i;
|
input [aw-1:0] wbs_adr_i;
|
input [cw-1:0] wbs_cti_i;
|
input [cw-1:0] wbs_cti_i;
|
input [bw-1:0] wbs_bte_i;
|
input [bw-1:0] wbs_bte_i;
|
input [sw-1:0] wbs_sel_i;
|
input [sw-1:0] wbs_sel_i;
|
input wbs_we_i, wbs_stb_i, wbs_cyc_i;
|
input wbs_we_i, wbs_stb_i, wbs_cyc_i;
|
output [dw-1:0] wbs_dat_o;
|
output [dw-1:0] wbs_dat_o;
|
output wbs_ack_o;
|
output wbs_ack_o;
|
input wb_clk, wb_rst;
|
input wb_clk, wb_rst;
|
|
|
wire [sw-1:0] cke;
|
|
|
|
reg wbs_ack_o;
|
reg wbs_ack_o;
|
|
|
|
wire [aw-1:0] adr;
|
|
|
`define MODULE ram_be
|
`define MODULE ram_be
|
`BASE`MODULE # (
|
`BASE`MODULE # (
|
.data_width(dat_size),
|
.data_width(dat_size),
|
.addr_width(adr_size-2),
|
.addr_width(aw),
|
.mem_size(mem_size),
|
.mem_size(mem_size),
|
.memory_init(memory_init),
|
.memory_init(memory_init),
|
.memory_file(memory_file))
|
.memory_file(memory_file))
|
ram0(
|
ram0(
|
`undef MODULE
|
`undef MODULE
|
.d(wbs_dat_i),
|
.d(wbs_dat_i),
|
.adr(wbs_adr_i[adr_size-1:2]),
|
.adr(adr),
|
.be(wbs_sel_i),
|
.be(wbs_sel_i),
|
.we(wbs_we_i),
|
.we(wbs_we_i),
|
.q(wbs_dat_o),
|
.q(wbs_dat_o),
|
.clk(wb_clk)
|
.clk(wb_clk)
|
);
|
);
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
`define MODULE wb_adr_inc
|
if (wb_rst)
|
`BASE`MODULE # ( .adr_width(aw), .max_burst_width(max_burst_width)) adr_inc0 (
|
wbs_ack_o <= 1'b0;
|
.cyc_i(wbs_cyc_i),
|
else
|
.stb_i(wbs_stb_i),
|
if (wbs_cti_i==3'b000 | wbs_cti_i==3'b111)
|
.cti_i(wbs_cti_i),
|
wbs_ack_o <= wbs_stb_i & wbs_cyc_i & !wbs_ack_o;
|
.bte_i(wbs_bte_i),
|
else
|
.adr_i(wbs_adr_i),
|
wbs_ack_o <= wbs_stb_i & wbs_cyc_i;
|
.ack_o(wbs_ack_o),
|
|
.adr_o(adr),
|
|
.clk(wb_clk),
|
|
.rst(wb_rst));
|
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB_B4_RAM_BE
|
`ifdef WB_B4_RAM_BE
|
// WB RAM with byte enable
|
// WB RAM with byte enable
|
`define MODULE wb_b4_ram_be
|
`define MODULE wb_b4_ram_be
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
wb_dat_i, wb_adr_i, wb_sel_i, wb_we_i, wb_stb_i, wb_cyc_i,
|
wb_dat_i, wb_adr_i, wb_sel_i, wb_we_i, wb_stb_i, wb_cyc_i,
|
wb_dat_o, wb_stall_o, wb_ack_o, wb_clk, wb_rst);
|
wb_dat_o, wb_stall_o, wb_ack_o, wb_clk, wb_rst);
|
|
|
parameter dat_width = 32;
|
parameter dat_width = 32;
|
parameter adr_width = 8;
|
parameter adr_width = 8;
|
|
|
input [dat_width-1:0] wb_dat_i;
|
input [dat_width-1:0] wb_dat_i;
|
input [adr_width-1:0] wb_adr_i;
|
input [adr_width-1:0] wb_adr_i;
|
input [dat_width/8-1:0] wb_sel_i;
|
input [dat_width/8-1:0] wb_sel_i;
|
input wb_we_i, wb_stb_i, wb_cyc_i;
|
input wb_we_i, wb_stb_i, wb_cyc_i;
|
output [dat_width-1:0] wb_dat_o;
|
output [dat_width-1:0] wb_dat_o;
|
reg [dat_width-1:0] wb_dat_o;
|
reg [dat_width-1:0] wb_dat_o;
|
output wb_stall_o;
|
output wb_stall_o;
|
output wb_ack_o;
|
output wb_ack_o;
|
reg wb_ack_o;
|
reg wb_ack_o;
|
input wb_clk, wb_rst;
|
input wb_clk, wb_rst;
|
|
|
wire [dat_width/8-1:0] cke;
|
wire [dat_width/8-1:0] cke;
|
|
|
generate
|
generate
|
if (dat_width==32) begin
|
if (dat_width==32) begin
|
reg [7:0] ram3 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram3 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram2 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram2 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram1 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram1 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram0 [1<<(adr_width-2)-1:0];
|
reg [7:0] ram0 [1<<(adr_width-2)-1:0];
|
assign cke = wb_sel_i & {(dat_width/8){wb_we_i}};
|
assign cke = wb_sel_i & {(dat_width/8){wb_we_i}};
|
always @ (posedge wb_clk)
|
always @ (posedge wb_clk)
|
begin
|
begin
|
if (cke[3]) ram3[wb_adr_i[adr_width-1:2]] <= wb_dat_i[31:24];
|
if (cke[3]) ram3[wb_adr_i[adr_width-1:2]] <= wb_dat_i[31:24];
|
if (cke[2]) ram2[wb_adr_i[adr_width-1:2]] <= wb_dat_i[23:16];
|
if (cke[2]) ram2[wb_adr_i[adr_width-1:2]] <= wb_dat_i[23:16];
|
if (cke[1]) ram1[wb_adr_i[adr_width-1:2]] <= wb_dat_i[15:8];
|
if (cke[1]) ram1[wb_adr_i[adr_width-1:2]] <= wb_dat_i[15:8];
|
if (cke[0]) ram0[wb_adr_i[adr_width-1:2]] <= wb_dat_i[7:0];
|
if (cke[0]) ram0[wb_adr_i[adr_width-1:2]] <= wb_dat_i[7:0];
|
end
|
end
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
begin
|
begin
|
if (wb_rst)
|
if (wb_rst)
|
wb_dat_o <= 32'h0;
|
wb_dat_o <= 32'h0;
|
else
|
else
|
wb_dat_o <= {ram3[wb_adr_i[adr_width-1:2]],ram2[wb_adr_i[adr_width-1:2]],ram1[wb_adr_i[adr_width-1:2]],ram0[wb_adr_i[adr_width-1:2]]};
|
wb_dat_o <= {ram3[wb_adr_i[adr_width-1:2]],ram2[wb_adr_i[adr_width-1:2]],ram1[wb_adr_i[adr_width-1:2]],ram0[wb_adr_i[adr_width-1:2]]};
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
if (wb_rst)
|
if (wb_rst)
|
wb_ack_o <= 1'b0;
|
wb_ack_o <= 1'b0;
|
else
|
else
|
wb_ack_o <= wb_stb_i & wb_cyc_i;
|
wb_ack_o <= wb_stb_i & wb_cyc_i;
|
|
|
assign wb_stall_o = 1'b0;
|
assign wb_stall_o = 1'b0;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB_B4_ROM
|
`ifdef WB_B4_ROM
|
// WB ROM
|
// WB ROM
|
`define MODULE wb_b4_rom
|
`define MODULE wb_b4_rom
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
wb_adr_i, wb_stb_i, wb_cyc_i,
|
wb_adr_i, wb_stb_i, wb_cyc_i,
|
wb_dat_o, stall_o, wb_ack_o, wb_clk, wb_rst);
|
wb_dat_o, stall_o, wb_ack_o, wb_clk, wb_rst);
|
|
|
parameter dat_width = 32;
|
parameter dat_width = 32;
|
parameter dat_default = 32'h15000000;
|
parameter dat_default = 32'h15000000;
|
parameter adr_width = 32;
|
parameter adr_width = 32;
|
|
|
/*
|
/*
|
`ifndef ROM
|
`ifndef ROM
|
`define ROM "rom.v"
|
`define ROM "rom.v"
|
`endif
|
`endif
|
*/
|
*/
|
input [adr_width-1:2] wb_adr_i;
|
input [adr_width-1:2] wb_adr_i;
|
input wb_stb_i;
|
input wb_stb_i;
|
input wb_cyc_i;
|
input wb_cyc_i;
|
output [dat_width-1:0] wb_dat_o;
|
output [dat_width-1:0] wb_dat_o;
|
reg [dat_width-1:0] wb_dat_o;
|
reg [dat_width-1:0] wb_dat_o;
|
output wb_ack_o;
|
output wb_ack_o;
|
reg wb_ack_o;
|
reg wb_ack_o;
|
output stall_o;
|
output stall_o;
|
input wb_clk;
|
input wb_clk;
|
input wb_rst;
|
input wb_rst;
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
if (wb_rst)
|
if (wb_rst)
|
wb_dat_o <= {dat_width{1'b0}};
|
wb_dat_o <= {dat_width{1'b0}};
|
else
|
else
|
case (wb_adr_i[adr_width-1:2])
|
case (wb_adr_i[adr_width-1:2])
|
`ifdef ROM
|
`ifdef ROM
|
`include `ROM
|
`include `ROM
|
`endif
|
`endif
|
default:
|
default:
|
wb_dat_o <= dat_default;
|
wb_dat_o <= dat_default;
|
|
|
endcase // case (wb_adr_i)
|
endcase // case (wb_adr_i)
|
|
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
if (wb_rst)
|
if (wb_rst)
|
wb_ack_o <= 1'b0;
|
wb_ack_o <= 1'b0;
|
else
|
else
|
wb_ack_o <= wb_stb_i & wb_cyc_i;
|
wb_ack_o <= wb_stb_i & wb_cyc_i;
|
|
|
assign stall_o = 1'b0;
|
assign stall_o = 1'b0;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
|
|
`ifdef WB_BOOT_ROM
|
`ifdef WB_BOOT_ROM
|
// WB ROM
|
// WB ROM
|
`define MODULE wb_boot_rom
|
`define MODULE wb_boot_rom
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
wb_adr_i, wb_stb_i, wb_cyc_i,
|
wb_adr_i, wb_stb_i, wb_cyc_i,
|
wb_dat_o, wb_ack_o, hit_o, wb_clk, wb_rst);
|
wb_dat_o, wb_ack_o, hit_o, wb_clk, wb_rst);
|
|
|
parameter adr_hi = 31;
|
parameter adr_hi = 31;
|
parameter adr_lo = 28;
|
parameter adr_lo = 28;
|
parameter adr_sel = 4'hf;
|
parameter adr_sel = 4'hf;
|
parameter addr_width = 5;
|
parameter addr_width = 5;
|
/*
|
/*
|
`ifndef BOOT_ROM
|
`ifndef BOOT_ROM
|
`define BOOT_ROM "boot_rom.v"
|
`define BOOT_ROM "boot_rom.v"
|
`endif
|
`endif
|
*/
|
*/
|
input [adr_hi:2] wb_adr_i;
|
input [adr_hi:2] wb_adr_i;
|
input wb_stb_i;
|
input wb_stb_i;
|
input wb_cyc_i;
|
input wb_cyc_i;
|
output [31:0] wb_dat_o;
|
output [31:0] wb_dat_o;
|
output wb_ack_o;
|
output wb_ack_o;
|
output hit_o;
|
output hit_o;
|
input wb_clk;
|
input wb_clk;
|
input wb_rst;
|
input wb_rst;
|
|
|
wire hit;
|
wire hit;
|
reg [31:0] wb_dat;
|
reg [31:0] wb_dat;
|
reg wb_ack;
|
reg wb_ack;
|
|
|
assign hit = wb_adr_i[adr_hi:adr_lo] == adr_sel;
|
assign hit = wb_adr_i[adr_hi:adr_lo] == adr_sel;
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
if (wb_rst)
|
if (wb_rst)
|
wb_dat <= 32'h15000000;
|
wb_dat <= 32'h15000000;
|
else
|
else
|
case (wb_adr_i[addr_width-1:2])
|
case (wb_adr_i[addr_width-1:2])
|
`ifdef BOOT_ROM
|
`ifdef BOOT_ROM
|
`include `BOOT_ROM
|
`include `BOOT_ROM
|
`endif
|
`endif
|
/*
|
/*
|
// Zero r0 and jump to 0x00000100
|
// Zero r0 and jump to 0x00000100
|
0 : wb_dat <= 32'h18000000;
|
0 : wb_dat <= 32'h18000000;
|
1 : wb_dat <= 32'hA8200000;
|
1 : wb_dat <= 32'hA8200000;
|
2 : wb_dat <= 32'hA8C00100;
|
2 : wb_dat <= 32'hA8C00100;
|
3 : wb_dat <= 32'h44003000;
|
3 : wb_dat <= 32'h44003000;
|
4 : wb_dat <= 32'h15000000;
|
4 : wb_dat <= 32'h15000000;
|
*/
|
*/
|
default:
|
default:
|
wb_dat <= 32'h00000000;
|
wb_dat <= 32'h00000000;
|
|
|
endcase // case (wb_adr_i)
|
endcase // case (wb_adr_i)
|
|
|
|
|
always @ (posedge wb_clk or posedge wb_rst)
|
always @ (posedge wb_clk or posedge wb_rst)
|
if (wb_rst)
|
if (wb_rst)
|
wb_ack <= 1'b0;
|
wb_ack <= 1'b0;
|
else
|
else
|
wb_ack <= wb_stb_i & wb_cyc_i & hit & !wb_ack;
|
wb_ack <= wb_stb_i & wb_cyc_i & hit & !wb_ack;
|
|
|
assign hit_o = hit;
|
assign hit_o = hit;
|
assign wb_dat_o = wb_dat & {32{wb_ack}};
|
assign wb_dat_o = wb_dat & {32{wb_ack}};
|
assign wb_ack_o = wb_ack;
|
assign wb_ack_o = wb_ack;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef WB_DPRAM
|
`ifdef WB_DPRAM
|
`define MODULE wb_dpram
|
`define MODULE wb_dpram
|
module `BASE`MODULE (
|
module `BASE`MODULE (
|
`undef MODULE
|
`undef MODULE
|
// wishbone slave side a
|
// wishbone slave side a
|
wbsa_dat_i, wbsa_adr_i, wbsa_we_i, wbsa_cyc_i, wbsa_stb_i, wbsa_dat_o, wbsa_ack_o,
|
wbsa_dat_i, wbsa_adr_i, wbsa_we_i, wbsa_cyc_i, wbsa_stb_i, wbsa_dat_o, wbsa_ack_o,
|
wbsa_clk, wbsa_rst,
|
wbsa_clk, wbsa_rst,
|
// wishbone slave side a
|
// wishbone slave side a
|
wbsb_dat_i, wbsb_adr_i, wbsb_we_i, wbsb_cyc_i, wbsb_stb_i, wbsb_dat_o, wbsb_ack_o,
|
wbsb_dat_i, wbsb_adr_i, wbsb_we_i, wbsb_cyc_i, wbsb_stb_i, wbsb_dat_o, wbsb_ack_o,
|
wbsb_clk, wbsb_rst);
|
wbsb_clk, wbsb_rst);
|
|
|
parameter data_width = 32;
|
parameter data_width = 32;
|
parameter addr_width = 8;
|
parameter addr_width = 8;
|
|
|
parameter dat_o_mask_a = 1;
|
parameter dat_o_mask_a = 1;
|
parameter dat_o_mask_b = 1;
|
parameter dat_o_mask_b = 1;
|
|
|
input [31:0] wbsa_dat_i;
|
input [31:0] wbsa_dat_i;
|
input [addr_width-1:2] wbsa_adr_i;
|
input [addr_width-1:2] wbsa_adr_i;
|
input wbsa_we_i, wbsa_cyc_i, wbsa_stb_i;
|
input wbsa_we_i, wbsa_cyc_i, wbsa_stb_i;
|
output [31:0] wbsa_dat_o;
|
output [31:0] wbsa_dat_o;
|
output wbsa_ack_o;
|
output wbsa_ack_o;
|
input wbsa_clk, wbsa_rst;
|
input wbsa_clk, wbsa_rst;
|
|
|
input [31:0] wbsb_dat_i;
|
input [31:0] wbsb_dat_i;
|
input [addr_width-1:2] wbsb_adr_i;
|
input [addr_width-1:2] wbsb_adr_i;
|
input wbsb_we_i, wbsb_cyc_i, wbsb_stb_i;
|
input wbsb_we_i, wbsb_cyc_i, wbsb_stb_i;
|
output [31:0] wbsb_dat_o;
|
output [31:0] wbsb_dat_o;
|
output wbsb_ack_o;
|
output wbsb_ack_o;
|
input wbsb_clk, wbsb_rst;
|
input wbsb_clk, wbsb_rst;
|
|
|
wire wbsa_dat_tmp, wbsb_dat_tmp;
|
wire wbsa_dat_tmp, wbsb_dat_tmp;
|
|
|
`define MODULE dpram_2r2w
|
`define MODULE dpram_2r2w
|
`BASE`MODULE # (
|
`BASE`MODULE # (
|
`undef MODULE
|
`undef MODULE
|
.data_width(data_width), .addr_width(addr_width) )
|
.data_width(data_width), .addr_width(addr_width) )
|
dpram0(
|
dpram0(
|
.d_a(wbsa_dat_i),
|
.d_a(wbsa_dat_i),
|
.q_a(wbsa_dat_tmp),
|
.q_a(wbsa_dat_tmp),
|
.adr_a(wbsa_adr_i),
|
.adr_a(wbsa_adr_i),
|
.we_a(wbsa_we_i),
|
.we_a(wbsa_we_i),
|
.clk_a(wbsa_clk),
|
.clk_a(wbsa_clk),
|
.d_b(wbsb_dat_i),
|
.d_b(wbsb_dat_i),
|
.q_b(wbsb_dat_tmp),
|
.q_b(wbsb_dat_tmp),
|
.adr_b(wbsb_adr_i),
|
.adr_b(wbsb_adr_i),
|
.we_b(wbsb_we_i),
|
.we_b(wbsb_we_i),
|
.clk_b(wbsb_clk) );
|
.clk_b(wbsb_clk) );
|
|
|
generate if (dat_o_mask_a==1)
|
generate if (dat_o_mask_a==1)
|
assign wbsa_dat_o = wbsa_dat_tmp & {data_width{wbsa_ack_o}};
|
assign wbsa_dat_o = wbsa_dat_tmp & {data_width{wbsa_ack_o}};
|
endgenerate
|
endgenerate
|
generate if (dat_o_mask_a==0)
|
generate if (dat_o_mask_a==0)
|
assign wbsa_dat_o = wbsa_dat_tmp;
|
assign wbsa_dat_o = wbsa_dat_tmp;
|
endgenerate
|
endgenerate
|
|
|
generate if (dat_o_mask_b==1)
|
generate if (dat_o_mask_b==1)
|
assign wbsb_dat_o = wbsb_dat_tmp & {data_width{wbsb_ack_o}};
|
assign wbsb_dat_o = wbsb_dat_tmp & {data_width{wbsb_ack_o}};
|
endgenerate
|
endgenerate
|
generate if (dat_o_mask_b==0)
|
generate if (dat_o_mask_b==0)
|
assign wbsb_dat_o = wbsb_dat_tmp;
|
assign wbsb_dat_o = wbsb_dat_tmp;
|
endgenerate
|
endgenerate
|
|
|
`define MODULE spr
|
`define MODULE spr
|
`BASE`MODULE ack_a( .sp(wbsa_cyc_i & wbsa_stb_i & !wbsa_ack_o), .r(1'b1), .q(wbsa_ack_o), .clk(wbsa_clk), .rst(wbsa_rst));
|
`BASE`MODULE ack_a( .sp(wbsa_cyc_i & wbsa_stb_i & !wbsa_ack_o), .r(1'b1), .q(wbsa_ack_o), .clk(wbsa_clk), .rst(wbsa_rst));
|
`BASE`MODULE ack_b( .sp(wbsb_cyc_i & wbsb_stb_i & !wbsb_ack_o), .r(1'b1), .q(wbsb_ack_o), .clk(wbsb_clk), .rst(wbsb_rst));
|
`BASE`MODULE ack_b( .sp(wbsb_cyc_i & wbsb_stb_i & !wbsb_ack_o), .r(1'b1), .q(wbsb_ack_o), .clk(wbsb_clk), .rst(wbsb_rst));
|
`undef MODULE
|
`undef MODULE
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Arithmetic functions ////
|
//// Arithmetic functions ////
|
//// ////
|
//// ////
|
//// Description ////
|
//// Description ////
|
//// Arithmetic functions for ALU and DSP ////
|
//// Arithmetic functions for ALU and DSP ////
|
//// ////
|
//// ////
|
//// ////
|
//// ////
|
//// To Do: ////
|
//// To Do: ////
|
//// - ////
|
//// - ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// - Michael Unneback, unneback@opencores.org ////
|
//// ORSoC AB ////
|
//// ORSoC AB ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// Copyright (C) 2010 Authors and OPENCORES.ORG ////
|
//// ////
|
//// ////
|
//// This source file may be used and distributed without ////
|
//// This source file may be used and distributed without ////
|
//// restriction provided that this copyright statement is not ////
|
//// restriction provided that this copyright statement is not ////
|
//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// ////
|
//// ////
|
//// This source file is free software; you can redistribute it ////
|
//// This source file is free software; you can redistribute it ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// and/or modify it under the terms of the GNU Lesser General ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// Public License as published by the Free Software Foundation; ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// either version 2.1 of the License, or (at your option) any ////
|
//// later version. ////
|
//// later version. ////
|
//// ////
|
//// ////
|
//// This source is distributed in the hope that it will be ////
|
//// This source is distributed in the hope that it will be ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// PURPOSE. See the GNU Lesser General Public License for more ////
|
//// details. ////
|
//// details. ////
|
//// ////
|
//// ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
|
//// Public License along with this source; if not, download it ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// from http://www.opencores.org/lgpl.shtml ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
|
|
`ifdef MULTS
|
`ifdef MULTS
|
// signed multiplication
|
// signed multiplication
|
`define MODULE mults
|
`define MODULE mults
|
module `BASE`MODULE (a,b,p);
|
module `BASE`MODULE (a,b,p);
|
`undef MODULE
|
`undef MODULE
|
parameter operand_a_width = 18;
|
parameter operand_a_width = 18;
|
parameter operand_b_width = 18;
|
parameter operand_b_width = 18;
|
parameter result_hi = 35;
|
parameter result_hi = 35;
|
parameter result_lo = 0;
|
parameter result_lo = 0;
|
input [operand_a_width-1:0] a;
|
input [operand_a_width-1:0] a;
|
input [operand_b_width-1:0] b;
|
input [operand_b_width-1:0] b;
|
output [result_hi:result_lo] p;
|
output [result_hi:result_lo] p;
|
wire signed [operand_a_width-1:0] ai;
|
wire signed [operand_a_width-1:0] ai;
|
wire signed [operand_b_width-1:0] bi;
|
wire signed [operand_b_width-1:0] bi;
|
wire signed [operand_a_width+operand_b_width-1:0] result;
|
wire signed [operand_a_width+operand_b_width-1:0] result;
|
|
|
assign ai = a;
|
assign ai = a;
|
assign bi = b;
|
assign bi = b;
|
assign result = ai * bi;
|
assign result = ai * bi;
|
assign p = result[result_hi:result_lo];
|
assign p = result[result_hi:result_lo];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
`ifdef MULTS18X18
|
`ifdef MULTS18X18
|
`define MODULE mults18x18
|
`define MODULE mults18x18
|
module `BASE`MODULE (a,b,p);
|
module `BASE`MODULE (a,b,p);
|
`undef MODULE
|
`undef MODULE
|
input [17:0] a,b;
|
input [17:0] a,b;
|
output [35:0] p;
|
output [35:0] p;
|
vl_mult
|
vl_mult
|
# (.operand_a_width(18), .operand_b_width(18))
|
# (.operand_a_width(18), .operand_b_width(18))
|
mult0 (.a(a), .b(b), .p(p));
|
mult0 (.a(a), .b(b), .p(p));
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef MULT
|
`ifdef MULT
|
`define MODULE mult
|
`define MODULE mult
|
// unsigned multiplication
|
// unsigned multiplication
|
module `BASE`MODULE (a,b,p);
|
module `BASE`MODULE (a,b,p);
|
`undef MODULE
|
`undef MODULE
|
parameter operand_a_width = 18;
|
parameter operand_a_width = 18;
|
parameter operand_b_width = 18;
|
parameter operand_b_width = 18;
|
parameter result_hi = 35;
|
parameter result_hi = 35;
|
parameter result_lo = 0;
|
parameter result_lo = 0;
|
input [operand_a_width-1:0] a;
|
input [operand_a_width-1:0] a;
|
input [operand_b_width-1:0] b;
|
input [operand_b_width-1:0] b;
|
output [result_hi:result_hi] p;
|
output [result_hi:result_hi] p;
|
|
|
wire [operand_a_width+operand_b_width-1:0] result;
|
wire [operand_a_width+operand_b_width-1:0] result;
|
|
|
assign result = a * b;
|
assign result = a * b;
|
assign p = result[result_hi:result_lo];
|
assign p = result[result_hi:result_lo];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef SHIFT_UNIT_32
|
`ifdef SHIFT_UNIT_32
|
`define MODULE shift_unit_32
|
`define MODULE shift_unit_32
|
// shift unit
|
// shift unit
|
// supporting the following shift functions
|
// supporting the following shift functions
|
// SLL
|
// SLL
|
// SRL
|
// SRL
|
// SRA
|
// SRA
|
`define SHIFT_UNIT_MULT # ( .operand_a_width(25), .operand_b_width(16), .result_hi(14), .result_lo(7))
|
`define SHIFT_UNIT_MULT # ( .operand_a_width(25), .operand_b_width(16), .result_hi(14), .result_lo(7))
|
module `BASE`MODULE( din, s, dout, opcode);
|
module `BASE`MODULE( din, s, dout, opcode);
|
`undef MODULE
|
`undef MODULE
|
input [31:0] din; // data in operand
|
input [31:0] din; // data in operand
|
input [4:0] s; // shift operand
|
input [4:0] s; // shift operand
|
input [1:0] opcode;
|
input [1:0] opcode;
|
output [31:0] dout;
|
output [31:0] dout;
|
|
|
parameter opcode_sll = 2'b00;
|
parameter opcode_sll = 2'b00;
|
//parameter opcode_srl = 2'b01;
|
//parameter opcode_srl = 2'b01;
|
parameter opcode_sra = 2'b10;
|
parameter opcode_sra = 2'b10;
|
//parameter opcode_ror = 2'b11;
|
//parameter opcode_ror = 2'b11;
|
|
|
wire sll, sra;
|
wire sll, sra;
|
assign sll = opcode == opcode_sll;
|
assign sll = opcode == opcode_sll;
|
assign sra = opcode == opcode_sra;
|
assign sra = opcode == opcode_sra;
|
|
|
wire [15:1] s1;
|
wire [15:1] s1;
|
wire [3:0] sign;
|
wire [3:0] sign;
|
wire [7:0] tmp [0:3];
|
wire [7:0] tmp [0:3];
|
|
|
// first stage is multiplier based
|
// first stage is multiplier based
|
// shift operand as fractional 8.7
|
// shift operand as fractional 8.7
|
assign s1[15] = sll & s[2:0]==3'd7;
|
assign s1[15] = sll & s[2:0]==3'd7;
|
assign s1[14] = sll & s[2:0]==3'd6;
|
assign s1[14] = sll & s[2:0]==3'd6;
|
assign s1[13] = sll & s[2:0]==3'd5;
|
assign s1[13] = sll & s[2:0]==3'd5;
|
assign s1[12] = sll & s[2:0]==3'd4;
|
assign s1[12] = sll & s[2:0]==3'd4;
|
assign s1[11] = sll & s[2:0]==3'd3;
|
assign s1[11] = sll & s[2:0]==3'd3;
|
assign s1[10] = sll & s[2:0]==3'd2;
|
assign s1[10] = sll & s[2:0]==3'd2;
|
assign s1[ 9] = sll & s[2:0]==3'd1;
|
assign s1[ 9] = sll & s[2:0]==3'd1;
|
assign s1[ 8] = s[2:0]==3'd0;
|
assign s1[ 8] = s[2:0]==3'd0;
|
assign s1[ 7] = !sll & s[2:0]==3'd1;
|
assign s1[ 7] = !sll & s[2:0]==3'd1;
|
assign s1[ 6] = !sll & s[2:0]==3'd2;
|
assign s1[ 6] = !sll & s[2:0]==3'd2;
|
assign s1[ 5] = !sll & s[2:0]==3'd3;
|
assign s1[ 5] = !sll & s[2:0]==3'd3;
|
assign s1[ 4] = !sll & s[2:0]==3'd4;
|
assign s1[ 4] = !sll & s[2:0]==3'd4;
|
assign s1[ 3] = !sll & s[2:0]==3'd5;
|
assign s1[ 3] = !sll & s[2:0]==3'd5;
|
assign s1[ 2] = !sll & s[2:0]==3'd6;
|
assign s1[ 2] = !sll & s[2:0]==3'd6;
|
assign s1[ 1] = !sll & s[2:0]==3'd7;
|
assign s1[ 1] = !sll & s[2:0]==3'd7;
|
|
|
assign sign[3] = din[31] & sra;
|
assign sign[3] = din[31] & sra;
|
assign sign[2] = sign[3] & (&din[31:24]);
|
assign sign[2] = sign[3] & (&din[31:24]);
|
assign sign[1] = sign[2] & (&din[23:16]);
|
assign sign[1] = sign[2] & (&din[23:16]);
|
assign sign[0] = sign[1] & (&din[15:8]);
|
assign sign[0] = sign[1] & (&din[15:8]);
|
`define MODULE mults
|
`define MODULE mults
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte3 ( .a({sign[3], {8{sign[3]}},din[31:24], din[23:16]}), .b({1'b0,s1}), .p(tmp[3]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte3 ( .a({sign[3], {8{sign[3]}},din[31:24], din[23:16]}), .b({1'b0,s1}), .p(tmp[3]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte2 ( .a({sign[2], din[31:24] ,din[23:16], din[15:8]}), .b({1'b0,s1}), .p(tmp[2]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte2 ( .a({sign[2], din[31:24] ,din[23:16], din[15:8]}), .b({1'b0,s1}), .p(tmp[2]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte1 ( .a({sign[1], din[23:16] ,din[15:8], din[7:0]}), .b({1'b0,s1}), .p(tmp[1]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte1 ( .a({sign[1], din[23:16] ,din[15:8], din[7:0]}), .b({1'b0,s1}), .p(tmp[1]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte0 ( .a({sign[0], din[15:8] ,din[7:0], 8'h00}), .b({1'b0,s1}), .p(tmp[0]));
|
`BASE`MODULE `SHIFT_UNIT_MULT mult_byte0 ( .a({sign[0], din[15:8] ,din[7:0], 8'h00}), .b({1'b0,s1}), .p(tmp[0]));
|
`undef MODULE
|
`undef MODULE
|
// second stage is multiplexer based
|
// second stage is multiplexer based
|
// shift on byte level
|
// shift on byte level
|
|
|
// mux byte 3
|
// mux byte 3
|
assign dout[31:24] = (s[4:3]==2'b00) ? tmp[3] :
|
assign dout[31:24] = (s[4:3]==2'b00) ? tmp[3] :
|
(sll & s[4:3]==2'b01) ? tmp[2] :
|
(sll & s[4:3]==2'b01) ? tmp[2] :
|
(sll & s[4:3]==2'b10) ? tmp[1] :
|
(sll & s[4:3]==2'b10) ? tmp[1] :
|
(sll & s[4:3]==2'b11) ? tmp[0] :
|
(sll & s[4:3]==2'b11) ? tmp[0] :
|
{8{sign[3]}};
|
{8{sign[3]}};
|
|
|
// mux byte 2
|
// mux byte 2
|
assign dout[23:16] = (s[4:3]==2'b00) ? tmp[2] :
|
assign dout[23:16] = (s[4:3]==2'b00) ? tmp[2] :
|
(sll & s[4:3]==2'b01) ? tmp[1] :
|
(sll & s[4:3]==2'b01) ? tmp[1] :
|
(sll & s[4:3]==2'b10) ? tmp[0] :
|
(sll & s[4:3]==2'b10) ? tmp[0] :
|
(sll & s[4:3]==2'b11) ? {8{1'b0}} :
|
(sll & s[4:3]==2'b11) ? {8{1'b0}} :
|
(s[4:3]==2'b01) ? tmp[3] :
|
(s[4:3]==2'b01) ? tmp[3] :
|
{8{sign[3]}};
|
{8{sign[3]}};
|
|
|
// mux byte 1
|
// mux byte 1
|
assign dout[15:8] = (s[4:3]==2'b00) ? tmp[1] :
|
assign dout[15:8] = (s[4:3]==2'b00) ? tmp[1] :
|
(sll & s[4:3]==2'b01) ? tmp[0] :
|
(sll & s[4:3]==2'b01) ? tmp[0] :
|
(sll & s[4:3]==2'b10) ? {8{1'b0}} :
|
(sll & s[4:3]==2'b10) ? {8{1'b0}} :
|
(sll & s[4:3]==2'b11) ? {8{1'b0}} :
|
(sll & s[4:3]==2'b11) ? {8{1'b0}} :
|
(s[4:3]==2'b01) ? tmp[2] :
|
(s[4:3]==2'b01) ? tmp[2] :
|
(s[4:3]==2'b10) ? tmp[3] :
|
(s[4:3]==2'b10) ? tmp[3] :
|
{8{sign[3]}};
|
{8{sign[3]}};
|
|
|
// mux byte 0
|
// mux byte 0
|
assign dout[7:0] = (s[4:3]==2'b00) ? tmp[0] :
|
assign dout[7:0] = (s[4:3]==2'b00) ? tmp[0] :
|
(sll) ? {8{1'b0}}:
|
(sll) ? {8{1'b0}}:
|
(s[4:3]==2'b01) ? tmp[1] :
|
(s[4:3]==2'b01) ? tmp[1] :
|
(s[4:3]==2'b10) ? tmp[2] :
|
(s[4:3]==2'b10) ? tmp[2] :
|
tmp[3];
|
tmp[3];
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef LOGIC_UNIT
|
`ifdef LOGIC_UNIT
|
// logic unit
|
// logic unit
|
// supporting the following logic functions
|
// supporting the following logic functions
|
// a and b
|
// a and b
|
// a or b
|
// a or b
|
// a xor b
|
// a xor b
|
// not b
|
// not b
|
`define MODULE logic_unit
|
`define MODULE logic_unit
|
module `BASE`MODULE( a, b, result, opcode);
|
module `BASE`MODULE( a, b, result, opcode);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 32;
|
parameter width = 32;
|
parameter opcode_and = 2'b00;
|
parameter opcode_and = 2'b00;
|
parameter opcode_or = 2'b01;
|
parameter opcode_or = 2'b01;
|
parameter opcode_xor = 2'b10;
|
parameter opcode_xor = 2'b10;
|
input [width-1:0] a,b;
|
input [width-1:0] a,b;
|
output [width-1:0] result;
|
output [width-1:0] result;
|
input [1:0] opcode;
|
input [1:0] opcode;
|
|
|
assign result = (opcode==opcode_and) ? a & b :
|
assign result = (opcode==opcode_and) ? a & b :
|
(opcode==opcode_or) ? a | b :
|
(opcode==opcode_or) ? a | b :
|
(opcode==opcode_xor) ? a ^ b :
|
(opcode==opcode_xor) ? a ^ b :
|
b;
|
b;
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef ARITH_UNIT
|
`ifdef ARITH_UNIT
|
`define MODULE arith_unit
|
`define MODULE arith_unit
|
module `BASE`MODULE ( a, b, c_in, add_sub, sign, result, c_out, z, ovfl);
|
module `BASE`MODULE ( a, b, c_in, add_sub, sign, result, c_out, z, ovfl);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 32;
|
parameter width = 32;
|
parameter opcode_add = 1'b0;
|
parameter opcode_add = 1'b0;
|
parameter opcode_sub = 1'b1;
|
parameter opcode_sub = 1'b1;
|
input [width-1:0] a,b;
|
input [width-1:0] a,b;
|
input c_in, add_sub, sign;
|
input c_in, add_sub, sign;
|
output [width-1:0] result;
|
output [width-1:0] result;
|
output c_out, z, ovfl;
|
output c_out, z, ovfl;
|
|
|
assign {c_out,result} = {(a[width-1] & sign),a} + ({a[width-1] & sign,b} ^ {(width+1){(add_sub==opcode_sub)}}) + {{(width-1){1'b0}},(c_in | (add_sub==opcode_sub))};
|
assign {c_out,result} = {(a[width-1] & sign),a} + ({a[width-1] & sign,b} ^ {(width+1){(add_sub==opcode_sub)}}) + {{(width-1){1'b0}},(c_in | (add_sub==opcode_sub))};
|
assign z = (result=={width{1'b0}});
|
assign z = (result=={width{1'b0}});
|
assign ovfl = ( a[width-1] & b[width-1] & ~result[width-1]) |
|
assign ovfl = ( a[width-1] & b[width-1] & ~result[width-1]) |
|
(~a[width-1] & ~b[width-1] & result[width-1]);
|
(~a[width-1] & ~b[width-1] & result[width-1]);
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef COUNT_UNIT
|
`ifdef COUNT_UNIT
|
`define MODULE count_unit
|
`define MODULE count_unit
|
module `BASE`MODULE (din, dout, opcode);
|
module `BASE`MODULE (din, dout, opcode);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 32;
|
parameter width = 32;
|
input [width-1:0] din;
|
input [width-1:0] din;
|
output [width-1:0] dout;
|
output [width-1:0] dout;
|
input opcode;
|
input opcode;
|
|
|
integer i;
|
integer i;
|
wire [width/32+4:0] ff1, fl1;
|
wire [width/32+4:0] ff1, fl1;
|
|
|
/*
|
/*
|
always @(din) begin
|
always @(din) begin
|
ff1 = 0; i = 0;
|
ff1 = 0; i = 0;
|
while (din[i] == 0 && i < width) begin // complex condition
|
while (din[i] == 0 && i < width) begin // complex condition
|
ff1 = ff1 + 1;
|
ff1 = ff1 + 1;
|
i = i + 1;
|
i = i + 1;
|
end
|
end
|
end
|
end
|
|
|
always @(din) begin
|
always @(din) begin
|
fl1 = width; i = width-1;
|
fl1 = width; i = width-1;
|
while (din[i] == 0 && i >= width) begin // complex condition
|
while (din[i] == 0 && i >= width) begin // complex condition
|
fl1 = fl1 - 1;
|
fl1 = fl1 - 1;
|
i = i - 1;
|
i = i - 1;
|
end
|
end
|
end
|
end
|
*/
|
*/
|
|
|
generate
|
generate
|
if (width==32) begin
|
if (width==32) begin
|
|
|
assign ff1 = din[0] ? 6'd1 :
|
assign ff1 = din[0] ? 6'd1 :
|
din[1] ? 6'd2 :
|
din[1] ? 6'd2 :
|
din[2] ? 6'd3 :
|
din[2] ? 6'd3 :
|
din[3] ? 6'd4 :
|
din[3] ? 6'd4 :
|
din[4] ? 6'd5 :
|
din[4] ? 6'd5 :
|
din[5] ? 6'd6 :
|
din[5] ? 6'd6 :
|
din[6] ? 6'd7 :
|
din[6] ? 6'd7 :
|
din[7] ? 6'd8 :
|
din[7] ? 6'd8 :
|
din[8] ? 6'd9 :
|
din[8] ? 6'd9 :
|
din[9] ? 6'd10 :
|
din[9] ? 6'd10 :
|
din[10] ? 6'd11 :
|
din[10] ? 6'd11 :
|
din[11] ? 6'd12 :
|
din[11] ? 6'd12 :
|
din[12] ? 6'd13 :
|
din[12] ? 6'd13 :
|
din[13] ? 6'd14 :
|
din[13] ? 6'd14 :
|
din[14] ? 6'd15 :
|
din[14] ? 6'd15 :
|
din[15] ? 6'd16 :
|
din[15] ? 6'd16 :
|
din[16] ? 6'd17 :
|
din[16] ? 6'd17 :
|
din[17] ? 6'd18 :
|
din[17] ? 6'd18 :
|
din[18] ? 6'd19 :
|
din[18] ? 6'd19 :
|
din[19] ? 6'd20 :
|
din[19] ? 6'd20 :
|
din[20] ? 6'd21 :
|
din[20] ? 6'd21 :
|
din[21] ? 6'd22 :
|
din[21] ? 6'd22 :
|
din[22] ? 6'd23 :
|
din[22] ? 6'd23 :
|
din[23] ? 6'd24 :
|
din[23] ? 6'd24 :
|
din[24] ? 6'd25 :
|
din[24] ? 6'd25 :
|
din[25] ? 6'd26 :
|
din[25] ? 6'd26 :
|
din[26] ? 6'd27 :
|
din[26] ? 6'd27 :
|
din[27] ? 6'd28 :
|
din[27] ? 6'd28 :
|
din[28] ? 6'd29 :
|
din[28] ? 6'd29 :
|
din[29] ? 6'd30 :
|
din[29] ? 6'd30 :
|
din[30] ? 6'd31 :
|
din[30] ? 6'd31 :
|
din[31] ? 6'd32 :
|
din[31] ? 6'd32 :
|
6'd0;
|
6'd0;
|
|
|
assign fl1 = din[31] ? 6'd32 :
|
assign fl1 = din[31] ? 6'd32 :
|
din[30] ? 6'd31 :
|
din[30] ? 6'd31 :
|
din[29] ? 6'd30 :
|
din[29] ? 6'd30 :
|
din[28] ? 6'd29 :
|
din[28] ? 6'd29 :
|
din[27] ? 6'd28 :
|
din[27] ? 6'd28 :
|
din[26] ? 6'd27 :
|
din[26] ? 6'd27 :
|
din[25] ? 6'd26 :
|
din[25] ? 6'd26 :
|
din[24] ? 6'd25 :
|
din[24] ? 6'd25 :
|
din[23] ? 6'd24 :
|
din[23] ? 6'd24 :
|
din[22] ? 6'd23 :
|
din[22] ? 6'd23 :
|
din[21] ? 6'd22 :
|
din[21] ? 6'd22 :
|
din[20] ? 6'd21 :
|
din[20] ? 6'd21 :
|
din[19] ? 6'd20 :
|
din[19] ? 6'd20 :
|
din[18] ? 6'd19 :
|
din[18] ? 6'd19 :
|
din[17] ? 6'd18 :
|
din[17] ? 6'd18 :
|
din[16] ? 6'd17 :
|
din[16] ? 6'd17 :
|
din[15] ? 6'd16 :
|
din[15] ? 6'd16 :
|
din[14] ? 6'd15 :
|
din[14] ? 6'd15 :
|
din[13] ? 6'd14 :
|
din[13] ? 6'd14 :
|
din[12] ? 6'd13 :
|
din[12] ? 6'd13 :
|
din[11] ? 6'd12 :
|
din[11] ? 6'd12 :
|
din[10] ? 6'd11 :
|
din[10] ? 6'd11 :
|
din[9] ? 6'd10 :
|
din[9] ? 6'd10 :
|
din[8] ? 6'd9 :
|
din[8] ? 6'd9 :
|
din[7] ? 6'd8 :
|
din[7] ? 6'd8 :
|
din[6] ? 6'd7 :
|
din[6] ? 6'd7 :
|
din[5] ? 6'd6 :
|
din[5] ? 6'd6 :
|
din[4] ? 6'd5 :
|
din[4] ? 6'd5 :
|
din[3] ? 6'd4 :
|
din[3] ? 6'd4 :
|
din[2] ? 6'd3 :
|
din[2] ? 6'd3 :
|
din[1] ? 6'd2 :
|
din[1] ? 6'd2 :
|
din[0] ? 6'd1 :
|
din[0] ? 6'd1 :
|
6'd0;
|
6'd0;
|
|
|
assign dout = (!opcode) ? {{26{1'b0}}, ff1} : {{26{1'b0}}, fl1};
|
assign dout = (!opcode) ? {{26{1'b0}}, ff1} : {{26{1'b0}}, fl1};
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (width==64) begin
|
if (width==64) begin
|
assign ff1 = 7'd0;
|
assign ff1 = 7'd0;
|
assign fl1 = 7'd0;
|
assign fl1 = 7'd0;
|
assign dout = (!opcode) ? {{57{1'b0}}, ff1} : {{57{1'b0}}, fl1};
|
assign dout = (!opcode) ? {{57{1'b0}}, ff1} : {{57{1'b0}}, fl1};
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|
`ifdef EXT_UNIT
|
`ifdef EXT_UNIT
|
`define MODULE ext_unit
|
`define MODULE ext_unit
|
module `BASE`MODULE ( a, b, F, result, opcode);
|
module `BASE`MODULE ( a, b, F, result, opcode);
|
`undef MODULE
|
`undef MODULE
|
parameter width = 32;
|
parameter width = 32;
|
input [width-1:0] a, b;
|
input [width-1:0] a, b;
|
input F;
|
input F;
|
output reg [width-1:0] result;
|
output reg [width-1:0] result;
|
input [2:0] opcode;
|
input [2:0] opcode;
|
|
|
generate
|
generate
|
if (width==32) begin
|
if (width==32) begin
|
always @ (a or b or F or opcode)
|
always @ (a or b or F or opcode)
|
begin
|
begin
|
case (opcode)
|
case (opcode)
|
3'b000: result = {{24{1'b0}},a[7:0]};
|
3'b000: result = {{24{1'b0}},a[7:0]};
|
3'b001: result = {{24{a[7]}},a[7:0]};
|
3'b001: result = {{24{a[7]}},a[7:0]};
|
3'b010: result = {{16{1'b0}},a[7:0]};
|
3'b010: result = {{16{1'b0}},a[7:0]};
|
3'b011: result = {{16{a[15]}},a[15:0]};
|
3'b011: result = {{16{a[15]}},a[15:0]};
|
3'b110: result = (F) ? a : b;
|
3'b110: result = (F) ? a : b;
|
default: result = {b[15:0],16'h0000};
|
default: result = {b[15:0],16'h0000};
|
endcase
|
endcase
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (width==64) begin
|
if (width==64) begin
|
always @ (a or b or F or opcode)
|
always @ (a or b or F or opcode)
|
begin
|
begin
|
case (opcode)
|
case (opcode)
|
3'b000: result = {{56{1'b0}},a[7:0]};
|
3'b000: result = {{56{1'b0}},a[7:0]};
|
3'b001: result = {{56{a[7]}},a[7:0]};
|
3'b001: result = {{56{a[7]}},a[7:0]};
|
3'b010: result = {{48{1'b0}},a[7:0]};
|
3'b010: result = {{48{1'b0}},a[7:0]};
|
3'b011: result = {{48{a[15]}},a[15:0]};
|
3'b011: result = {{48{a[15]}},a[15:0]};
|
3'b110: result = (F) ? a : b;
|
3'b110: result = (F) ? a : b;
|
default: result = {32'h00000000,b[15:0],16'h0000};
|
default: result = {32'h00000000,b[15:0],16'h0000};
|
endcase
|
endcase
|
end
|
end
|
end
|
end
|
endgenerate
|
endgenerate
|
endmodule
|
endmodule
|
`endif
|
`endif
|
|
|