module_content stringlengths 18 1.05M |
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module blk_mem_axi_write_wrapper_beh_v8_2
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY ... |
module blk_mem_axi_read_wrapper_beh_v8_2
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A ... |
module blk_mem_axi_regs_fwd_v8_2
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-... |
module BLK_MEM_GEN_v8_2_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
parameter... |
module BLK_MEM_GEN_v8_2_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input ... |
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
BLK_MEM_GEN_v8_2_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_RST... |
module blk_mem_gen_v8_2
#(parameter C_CORENAME = "blk_mem_gen_v8_2",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK ... |
module STATE_LOGIC_v8_2 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4... |
module beh_vlog_muxf7_v8_2 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule |
module beh_vlog_ff_clr_v8_2 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_pre_v8_2 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_ce_clr_v8_2 (Q, C, CE, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CE, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q <= 1'b0;
else if (CE)
Q <= #FLOP_DELAY D;
endmodule |
module write_netlist_v8_2
#(
parameter C_AXI_TYPE = 0
)
(
S_ACLK, S_ARESETN, S_AXI_AWVALID, S_AXI_WVALID, S_AXI_BREADY,
w_last_c, bready_timeout_c, aw_ready_r, S_AXI_WREADY, S_AXI_BVALID,
S_AXI_WR_EN, addr_en_c, incr_addr_c, bvalid_c
);
input S_ACLK;
input S_ARESETN;
input S_AXI_AW... |
module read_netlist_v8_2 #(
parameter C_AXI_TYPE = 1,
parameter C_ADDRB_WIDTH = 12
) ( S_AXI_R_LAST_INT, S_ACLK, S_ARESETN, S_AXI_ARVALID,
S_AXI_RREADY,S_AXI_INCR_ADDR,S_AXI_ADDR_EN,
S_AXI_SINGLE_TRANS,S_AXI_MUX_SEL, S_AXI_R_LAST, S_AXI_ARREADY,
... |
module blk_mem_axi_write_wrapper_beh_v8_2
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY ... |
module blk_mem_axi_read_wrapper_beh_v8_2
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A ... |
module blk_mem_axi_regs_fwd_v8_2
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-... |
module BLK_MEM_GEN_v8_2_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
parameter... |
module BLK_MEM_GEN_v8_2_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input ... |
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
BLK_MEM_GEN_v8_2_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_RST... |
module blk_mem_gen_v8_2
#(parameter C_CORENAME = "blk_mem_gen_v8_2",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK ... |
module sign_extend (in,out);
parameter bits_in=0; // FIXME Quartus insists on a default
parameter bits_out=0;
input [bits_in-1:0] in;
output [bits_out-1:0] out;
assign out = {{(bits_out-bits_in){in[bits_in-1]}},in};
endmodule |
module sign_extend (in,out);
parameter bits_in=0; // FIXME Quartus insists on a default
parameter bits_out=0;
input [bits_in-1:0] in;
output [bits_out-1:0] out;
assign out = {{(bits_out-bits_in){in[bits_in-1]}},in};
endmodule |
module testbed_lo_simulate;
reg pck0;
reg [7:0] adc_d;
wire pwr_lo;
wire adc_clk;
wire ck_1356meg;
wire ck_1356megb;
wire ssp_frame;
wire ssp_din;
wire ssp_clk;
reg ssp_dout;
wire pwr_hi;
wire pwr_oe1;
wire pwr_oe2;
wire pwr_oe3;
wire pwr_oe4;
reg cross_lo;
wire cross_hi;
wire dbg;
lo_simulate... |
module soc_design_Sys_Timer (
// inputs:
address,
chipselect,
clk,
reset_n,
write_n,
writedata,
... |
module soc_design_Sys_Timer (
// inputs:
address,
chipselect,
clk,
reset_n,
write_n,
writedata,
... |
module soc_design_Sys_Timer (
// inputs:
address,
chipselect,
clk,
reset_n,
write_n,
writedata,
... |
module stepgen(clk, enable, position, velocity, dirtime, steptime, step, dir, tap);
`define STATE_STEP 0
`define STATE_DIRCHANGE 1
`define STATE_DIRWAIT 2
parameter W=12;
parameter F=10;
parameter T=5;
input clk, enable;
output [W+F-1:0] position; reg [W+F-1:0] position;
input [F:0] velocity;
input [T-1:0] dirtime, s... |
module soc_design_niosII_core_cpu_mult_cell (
// inputs:
E_src1,
E_src2,
M_en,
clk,
... |
module soc_design_niosII_core_cpu_mult_cell (
// inputs:
E_src1,
E_src2,
M_en,
clk,
... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module hex_display (
input [15:0] num,
input en,
output [6:0] hex0,
output [6:0] hex1,
output [6:0] hex2,
output [6:0] hex3
);
// Module instantiations
seg_7 hex_group0 (
.num (num[3:0]),
.en (en),
.seg (hex0)
);
seg_7 hex_group1 (
.num (num[7:4]),
.en ... |
module axi_infrastructure_v1_1_axic_srl_fifo #(
///////////////////////////////////////////////////////////////////////////////
// Parameter Definitions
///////////////////////////////////////////////////////////////////////////////
parameter C_FAMILY = "virtex7",
parameter integer C_PAYLOAD_WIDTH = 1,
... |
module axi_infrastructure_v1_1_axic_srl_fifo #(
///////////////////////////////////////////////////////////////////////////////
// Parameter Definitions
///////////////////////////////////////////////////////////////////////////////
parameter C_FAMILY = "virtex7",
parameter integer C_PAYLOAD_WIDTH = 1,
... |
module testbed_hi_read_tx;
reg pck0;
reg [7:0] adc_d;
reg shallow_modulation;
wire pwr_lo;
wire adc_clk;
reg ck_1356meg;
reg ck_1356megb;
wire ssp_frame;
wire ssp_din;
wire ssp_clk;
reg ssp_dout;
wire pwr_hi;
wire pwr_oe1;
wire pwr_oe2;
wire pwr_oe3;
wire pwr_oe4;
wire cross_lo;
wire cross_hi;
... |
module testbed_hi_read_tx;
reg pck0;
reg [7:0] adc_d;
reg shallow_modulation;
wire pwr_lo;
wire adc_clk;
reg ck_1356meg;
reg ck_1356megb;
wire ssp_frame;
wire ssp_din;
wire ssp_clk;
reg ssp_dout;
wire pwr_hi;
wire pwr_oe1;
wire pwr_oe2;
wire pwr_oe3;
wire pwr_oe4;
wire cross_lo;
wire cross_hi;
... |
module
output wire b_push ,
output wire [C_ID_WIDTH-1:0] b_awid ,
output wire [7:0] b_awlen ,
input wire b_full
);
////////////////////////////////////////////////////////////... |
module
output wire b_push ,
output wire [C_ID_WIDTH-1:0] b_awid ,
output wire [7:0] b_awlen ,
input wire b_full
);
////////////////////////////////////////////////////////////... |
module
output wire b_push ,
output wire [C_ID_WIDTH-1:0] b_awid ,
output wire [7:0] b_awlen ,
input wire b_full
);
////////////////////////////////////////////////////////////... |
module Priority_Codec_64(
input wire [54:0] Data_Dec_i,
output reg [5:0] Data_Bin_o
);
always @(Data_Dec_i)
begin
Data_Bin_o=6'b000000;
if(~Data_Dec_i[54]) begin Data_Bin_o = 6'b000000;//0
end else if(~Data_Dec_i[53]) begin Data_Bin_o = 6'b000001;//1
end else if(~Data_Dec_i[52]) begin Data_Bin_o =... |
module Priority_Codec_64(
input wire [54:0] Data_Dec_i,
output reg [5:0] Data_Bin_o
);
always @(Data_Dec_i)
begin
Data_Bin_o=6'b000000;
if(~Data_Dec_i[54]) begin Data_Bin_o = 6'b000000;//0
end else if(~Data_Dec_i[53]) begin Data_Bin_o = 6'b000001;//1
end else if(~Data_Dec_i[52]) begin Data_Bin_o =... |
module halfband_decim
(input clock, input reset, input enable, input strobe_in, output wire strobe_out,
input wire [15:0] data_in, output reg [15:0] data_out,output wire [15:0] debugctrl);
reg [3:0] rd_addr1;
reg [3:0] rd_addr2;
reg [3:0] phase;
reg [3:0] base_addr;
wire signed [15:0] mac_out... |
module halfband_decim
(input clock, input reset, input enable, input strobe_in, output wire strobe_out,
input wire [15:0] data_in, output reg [15:0] data_out,output wire [15:0] debugctrl);
reg [3:0] rd_addr1;
reg [3:0] rd_addr2;
reg [3:0] phase;
reg [3:0] base_addr;
wire signed [15:0] mac_out... |
module halfband_decim
(input clock, input reset, input enable, input strobe_in, output wire strobe_out,
input wire [15:0] data_in, output reg [15:0] data_out,output wire [15:0] debugctrl);
reg [3:0] rd_addr1;
reg [3:0] rd_addr2;
reg [3:0] phase;
reg [3:0] base_addr;
wire signed [15:0] mac_out... |
module axi_data_fifo_v2_1_axi_data_fifo #
(
parameter C_FAMILY = "virtex7",
parameter integer C_AXI_PROTOCOL = 0,
parameter integer C_AXI_ID_WIDTH = 4,
parameter integer C_AXI_ADDR_WIDTH = 32,
parameter integer C_AXI_DATA_WIDTH ... |
module axi_data_fifo_v2_1_axi_data_fifo #
(
parameter C_FAMILY = "virtex7",
parameter integer C_AXI_PROTOCOL = 0,
parameter integer C_AXI_ID_WIDTH = 4,
parameter integer C_AXI_ADDR_WIDTH = 32,
parameter integer C_AXI_DATA_WIDTH ... |
module STATE_LOGIC_v8_3 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4... |
module beh_vlog_muxf7_v8_3 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule |
module beh_vlog_ff_clr_v8_3 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_pre_v8_3 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_ce_clr_v8_3 (Q, C, CE, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CE, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q <= 1'b0;
else if (CE)
Q <= #FLOP_DELAY D;
endmodule |
module write_netlist_v8_3
#(
parameter C_AXI_TYPE = 0
)
(
S_ACLK, S_ARESETN, S_AXI_AWVALID, S_AXI_WVALID, S_AXI_BREADY,
w_last_c, bready_timeout_c, aw_ready_r, S_AXI_WREADY, S_AXI_BVALID,
S_AXI_WR_EN, addr_en_c, incr_addr_c, bvalid_c
);
input S_ACLK;
input S_ARESETN;
input S_AXI_AW... |
module read_netlist_v8_3 #(
parameter C_AXI_TYPE = 1,
parameter C_ADDRB_WIDTH = 12
) ( S_AXI_R_LAST_INT, S_ACLK, S_ARESETN, S_AXI_ARVALID,
S_AXI_RREADY,S_AXI_INCR_ADDR,S_AXI_ADDR_EN,
S_AXI_SINGLE_TRANS,S_AXI_MUX_SEL, S_AXI_R_LAST, S_AXI_ARREADY,
... |
module blk_mem_axi_write_wrapper_beh_v8_3
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY ... |
module blk_mem_axi_read_wrapper_beh_v8_3
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A ... |
module blk_mem_axi_regs_fwd_v8_3
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-... |
module blk_mem_gen_v8_3_5_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
paramet... |
module blk_mem_gen_v8_3_5_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input ... |
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
blk_mem_gen_v8_3_5_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_R... |
module blk_mem_gen_v8_3_5
#(parameter C_CORENAME = "blk_mem_gen_v8_3_5",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK ... |
module STATE_LOGIC_v8_3 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4... |
module beh_vlog_muxf7_v8_3 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule |
module beh_vlog_ff_clr_v8_3 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_pre_v8_3 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_ce_clr_v8_3 (Q, C, CE, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CE, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q <= 1'b0;
else if (CE)
Q <= #FLOP_DELAY D;
endmodule |
module write_netlist_v8_3
#(
parameter C_AXI_TYPE = 0
)
(
S_ACLK, S_ARESETN, S_AXI_AWVALID, S_AXI_WVALID, S_AXI_BREADY,
w_last_c, bready_timeout_c, aw_ready_r, S_AXI_WREADY, S_AXI_BVALID,
S_AXI_WR_EN, addr_en_c, incr_addr_c, bvalid_c
);
input S_ACLK;
input S_ARESETN;
input S_AXI_AW... |
module read_netlist_v8_3 #(
parameter C_AXI_TYPE = 1,
parameter C_ADDRB_WIDTH = 12
) ( S_AXI_R_LAST_INT, S_ACLK, S_ARESETN, S_AXI_ARVALID,
S_AXI_RREADY,S_AXI_INCR_ADDR,S_AXI_ADDR_EN,
S_AXI_SINGLE_TRANS,S_AXI_MUX_SEL, S_AXI_R_LAST, S_AXI_ARREADY,
... |
module blk_mem_axi_write_wrapper_beh_v8_3
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY ... |
module blk_mem_axi_read_wrapper_beh_v8_3
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A ... |
module blk_mem_axi_regs_fwd_v8_3
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-... |
module blk_mem_gen_v8_3_5_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
paramet... |
module blk_mem_gen_v8_3_5_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input ... |
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
blk_mem_gen_v8_3_5_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_R... |
module blk_mem_gen_v8_3_5
#(parameter C_CORENAME = "blk_mem_gen_v8_3_5",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK ... |
module STATE_LOGIC_v8_3 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4... |
module beh_vlog_muxf7_v8_3 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule |
module beh_vlog_ff_clr_v8_3 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_pre_v8_3 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_ce_clr_v8_3 (Q, C, CE, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CE, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q <= 1'b0;
else if (CE)
Q <= #FLOP_DELAY D;
endmodule |
module write_netlist_v8_3
#(
parameter C_AXI_TYPE = 0
)
(
S_ACLK, S_ARESETN, S_AXI_AWVALID, S_AXI_WVALID, S_AXI_BREADY,
w_last_c, bready_timeout_c, aw_ready_r, S_AXI_WREADY, S_AXI_BVALID,
S_AXI_WR_EN, addr_en_c, incr_addr_c, bvalid_c
);
input S_ACLK;
input S_ARESETN;
input S_AXI_AW... |
module read_netlist_v8_3 #(
parameter C_AXI_TYPE = 1,
parameter C_ADDRB_WIDTH = 12
) ( S_AXI_R_LAST_INT, S_ACLK, S_ARESETN, S_AXI_ARVALID,
S_AXI_RREADY,S_AXI_INCR_ADDR,S_AXI_ADDR_EN,
S_AXI_SINGLE_TRANS,S_AXI_MUX_SEL, S_AXI_R_LAST, S_AXI_ARREADY,
... |
module blk_mem_axi_write_wrapper_beh_v8_3
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY ... |
module blk_mem_axi_read_wrapper_beh_v8_3
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A ... |
module blk_mem_axi_regs_fwd_v8_3
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-... |
module blk_mem_gen_v8_3_5_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
paramet... |
module blk_mem_gen_v8_3_5_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input ... |
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
blk_mem_gen_v8_3_5_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_R... |
module blk_mem_gen_v8_3_5
#(parameter C_CORENAME = "blk_mem_gen_v8_3_5",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK ... |
module STATE_LOGIC_v8_3 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4... |
module beh_vlog_muxf7_v8_3 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule |
module beh_vlog_ff_clr_v8_3 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule |
module beh_vlog_ff_pre_v8_3 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule |
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