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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 axi_data_fifo_v2_1_ndeep_srl # ( parameter C_FAMILY = "rtl", // FPGA Family parameter C_A_WIDTH = 1 // Address Width (>= 1) ) ( input wire CLK, // Clock input wire [C_A_WIDTH-1:0] A, // Address input wire CE, // Clock Enable ...
module axi_data_fifo_v2_1_ndeep_srl # ( parameter C_FAMILY = "rtl", // FPGA Family parameter C_A_WIDTH = 1 // Address Width (>= 1) ) ( input wire CLK, // Clock input wire [C_A_WIDTH-1:0] A, // Address input wire CE, // Clock Enable ...
module axi_data_fifo_v2_1_ndeep_srl # ( parameter C_FAMILY = "rtl", // FPGA Family parameter C_A_WIDTH = 1 // Address Width (>= 1) ) ( input wire CLK, // Clock input wire [C_A_WIDTH-1:0] A, // Address input wire CE, // Clock Enable ...
module axi_data_fifo_v2_1_ndeep_srl # ( parameter C_FAMILY = "rtl", // FPGA Family parameter C_A_WIDTH = 1 // Address Width (>= 1) ) ( input wire CLK, // Clock input wire [C_A_WIDTH-1:0] A, // Address input wire CE, // Clock Enable ...
module axi_protocol_converter_v2_1_b2s #( parameter C_S_AXI_PROTOCOL = 0, // Width of all master and slave ID signals. // Range: >= 1. parameter integer C_AXI_ID_WIDTH = 4, parameter integer C_AXI_ADDR_WIDTH = 30, parameter...
module Add_Subt #(parameter SWR=26) ( input wire clk, input wire rst, input wire load_i,//Reg load input input wire Add_Sub_op_i, input wire [SWR-1:0] Data_A_i, input wire [SWR-1:0] PreData_B_i, ///////////////////////////////////////////////////////////// output wire [SWR-1:0] Da...
module Add_Subt #(parameter SWR=26) ( input wire clk, input wire rst, input wire load_i,//Reg load input input wire Add_Sub_op_i, input wire [SWR-1:0] Data_A_i, input wire [SWR-1:0] PreData_B_i, ///////////////////////////////////////////////////////////// output wire [SWR-1:0] Da...
module Add_Subt #(parameter SWR=26) ( input wire clk, input wire rst, input wire load_i,//Reg load input input wire Add_Sub_op_i, input wire [SWR-1:0] Data_A_i, input wire [SWR-1:0] PreData_B_i, ///////////////////////////////////////////////////////////// output wire [SWR-1:0] Da...
module Add_Subt #(parameter SWR=26) ( input wire clk, input wire rst, input wire load_i,//Reg load input input wire Add_Sub_op_i, input wire [SWR-1:0] Data_A_i, input wire [SWR-1:0] PreData_B_i, ///////////////////////////////////////////////////////////// output wire [SWR-1:0] Da...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module processing_system7_v5_5_trace_buffer # ( parameter integer FIFO_SIZE = 128, parameter integer USE_TRACE_DATA_EDGE_DETECTOR = 0, parameter integer C_DELAY_CLKS = 12 ) ( input wire TRACE_CLK, input wire RST, input wire TRACE_VALID_IN, input wire [3:0] TRACE_ATID_IN, input wire [31:0] T...
module. // 1 => FWD_REV = Both FWD and REV (fully-registered) // 2 => FWD = The master VALID and payload signals are registrated. // 3 => REV = The slave ready signal is registrated // 4 => RESERVED (all outputs driven to 0). // 5 => RESERVED (all outputs driven to 0). // 6 ...
module. // 1 => FWD_REV = Both FWD and REV (fully-registered) // 2 => FWD = The master VALID and payload signals are registrated. // 3 => REV = The slave ready signal is registrated // 4 => RESERVED (all outputs driven to 0). // 5 => RESERVED (all outputs driven to 0). // 6 ...
module fifo_1kx16 ( aclr, clock, data, rdreq, wrreq, almost_empty, empty, full, q, usedw); input aclr; input clock; input [15:0] data; input rdreq; input wrreq; output almost_empty; output empty; output full; output [15:0] q; output [9:0] usedw; wire [9:0] ...
module fifo_1kx16 ( aclr, clock, data, rdreq, wrreq, almost_empty, empty, full, q, usedw); input aclr; input clock; input [15:0] data; input rdreq; input wrreq; output almost_empty; output empty; output full; output [15:0] q; output [9:0] usedw; wire [9:0] ...
module fifo_1kx16 ( aclr, clock, data, rdreq, wrreq, almost_empty, empty, full, q, usedw); input aclr; input clock; input [15:0] data; input rdreq; input wrreq; output almost_empty; output empty; output full; output [15:0] q; output [9:0] usedw; wire [9:0] ...
module fifo_1kx16 ( aclr, clock, data, rdreq, wrreq, almost_empty, empty, full, q, usedw); input aclr; input clock; input [15:0] data; input rdreq; input wrreq; output almost_empty; output empty; output full; output [15:0] q; output [9:0] usedw; wire [9:0] ...
module master_control_multi ( input master_clk, input usbclk, input wire [6:0] serial_addr, input wire [31:0] serial_data, input wire serial_strobe, input wire rx_slave_sync, output tx_bus_reset, output rx_bus_reset, output wire tx_dsp_reset, output wire rx_dsp_reset, output wire enable_tx, output...
module master_control_multi ( input master_clk, input usbclk, input wire [6:0] serial_addr, input wire [31:0] serial_data, input wire serial_strobe, input wire rx_slave_sync, output tx_bus_reset, output rx_bus_reset, output wire tx_dsp_reset, output wire rx_dsp_reset, output wire enable_tx, output...
module t (clk); input clk; reg [0:0] d1; reg [2:0] d3; reg [7:0] d8; wire [0:0] q1; wire [2:0] q3; wire [7:0] q8; // verilator lint_off UNOPTFLAT reg ena; // verilator lint_on UNOPTFLAT condff #(12) condff (.clk(clk), .sen(1'b0), .ena(ena), .d({d8,d3,d1}), ....
module condff (clk, sen, ena, d, q); parameter WIDTH = 1; input clk; input sen; input ena; input [WIDTH-1:0] d; output [WIDTH-1:0] q; condffimp #(.WIDTH(WIDTH)) imp (.clk(clk), .sen(sen), .ena(ena), .d(d), .q(q)); endmodule
module condffimp (clk, sen, ena, d, q); parameter WIDTH = 1; input clk; input sen; input ena; input [WIDTH-1:0] d; output reg [WIDTH-1:0] q; wire gatedclk; clockgate clockgate (.clk(clk), .sen(sen), .ena(ena), .gatedclk(gatedclk)); always @(posedge gatedclk) begin if (ga...
module clockgate (clk, sen, ena, gatedclk); input clk; input sen; input ena; output gatedclk; reg ena_b; wire gatedclk = clk & ena_b; // verilator lint_off COMBDLY always @(clk or ena or sen) begin if (~clk) begin ena_b <= ena | sen; end else begin if ((clk^sen)===...
module fifo_4kx16_dc ( aclr, data, rdclk, rdreq, wrclk, wrreq, q, rdempty, rdusedw, wrfull, wrusedw); input aclr; input [15:0] data; input rdclk; input rdreq; input wrclk; input wrreq; output [15:0] q; output rdempty; output [11:0] rdusedw; output wrfull; o...
module fifo_4kx16_dc ( aclr, data, rdclk, rdreq, wrclk, wrreq, q, rdempty, rdusedw, wrfull, wrusedw); input aclr; input [15:0] data; input rdclk; input rdreq; input wrclk; input wrreq; output [15:0] q; output rdempty; output [11:0] rdusedw; output wrfull; o...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module processing_system7_v5_5_w_atc # ( parameter C_FAMILY = "rtl", // FPGA Family. Current version: virtex6, spartan6 or later. parameter integer C_AXI_ID_WIDTH = 4, // Width of all ID signals on SI and MI side of ...
module lo_simulate( pck0, ck_1356meg, ck_1356megb, pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4, adc_d, adc_clk, ssp_frame, ssp_din, ssp_dout, ssp_clk, cross_hi, cross_lo, dbg, divisor ); input pck0, ck_1356meg, ck_1356megb; output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_o...
module lo_simulate( pck0, ck_1356meg, ck_1356megb, pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4, adc_d, adc_clk, ssp_frame, ssp_din, ssp_dout, ssp_clk, cross_hi, cross_lo, dbg, divisor ); input pck0, ck_1356meg, ck_1356megb; output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_o...
module lo_simulate( pck0, ck_1356meg, ck_1356megb, pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4, adc_d, adc_clk, ssp_frame, ssp_din, ssp_dout, ssp_clk, cross_hi, cross_lo, dbg, divisor ); input pck0, ck_1356meg, ck_1356megb; output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_o...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire...
module FSM_Add_Subtract ( //INPUTS input wire clk, //system clock input wire rst, //system reset input wire rst_FSM, input wire beg_FSM, //Begin Finite State Machine //**REVISAD ////////////////////////////////////////////////////////////////////////////// //Oper_Start_In evaluation signals input w...
module FSM_Add_Subtract ( //INPUTS input wire clk, //system clock input wire rst, //system reset input wire rst_FSM, input wire beg_FSM, //Begin Finite State Machine //**REVISAD ////////////////////////////////////////////////////////////////////////////// //Oper_Start_In evaluation signals input w...
module FSM_Add_Subtract ( //INPUTS input wire clk, //system clock input wire rst, //system reset input wire rst_FSM, input wire beg_FSM, //Begin Finite State Machine //**REVISAD ////////////////////////////////////////////////////////////////////////////// //Oper_Start_In evaluation signals input w...