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[/] [pc_fpga_com/] [trunk/] [UDP_IP_CORE_FLEX_Virtex5/] [dist_mem_64x8.vhd] - Rev 3
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-------------------------------------------------------------------------------- -- Copyright (c) 1995-2008 Xilinx, Inc. All rights reserved. -------------------------------------------------------------------------------- -- ____ ____ -- / /\/ / -- /___/ \ / Vendor: Xilinx -- \ \ \/ Version: K.39 -- \ \ Application: netgen -- / / Filename: dist_mem_64x8.vhd -- /___/ /\ Timestamp: Sat Feb 12 17:26:42 2011 -- \ \ / \ -- \___\/\___\ -- -- Command : -intstyle ise -w -sim -ofmt vhdl "C:\VERIFICATION PLATFORM\UDP_IP_FLEX\COREGEN\tmp\_cg\dist_mem_64x8.ngc" "C:\VERIFICATION PLATFORM\UDP_IP_FLEX\COREGEN\tmp\_cg\dist_mem_64x8.vhd" -- Device : 5vsx95tff1136-1 -- Input file : C:/VERIFICATION PLATFORM/UDP_IP_FLEX/COREGEN/tmp/_cg/dist_mem_64x8.ngc -- Output file : C:/VERIFICATION PLATFORM/UDP_IP_FLEX/COREGEN/tmp/_cg/dist_mem_64x8.vhd -- # of Entities : 1 -- Design Name : dist_mem_64x8 -- Xilinx : C:\Xilinx\10.1\ISE -- -- Purpose: -- This VHDL netlist is a verification model and uses simulation -- primitives which may not represent the true implementation of the -- device, however the netlist is functionally correct and should not -- be modified. This file cannot be synthesized and should only be used -- with supported simulation tools. -- -- Reference: -- Development System Reference Guide, Chapter 23 -- Synthesis and Simulation Design Guide, Chapter 6 -- -------------------------------------------------------------------------------- -- synthesis translate_off library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; use UNISIM.VPKG.ALL; entity dist_mem_64x8 is port ( clk : in STD_LOGIC := 'X'; we : in STD_LOGIC := 'X'; a : in STD_LOGIC_VECTOR ( 5 downto 0 ); d : in STD_LOGIC_VECTOR ( 7 downto 0 ); qspo : out STD_LOGIC_VECTOR ( 7 downto 0 ) ); end dist_mem_64x8; architecture STRUCTURE of dist_mem_64x8 is signal N0 : STD_LOGIC; signal N1 : STD_LOGIC; signal a_2 : STD_LOGIC_VECTOR ( 5 downto 0 ); signal d_3 : STD_LOGIC_VECTOR ( 7 downto 0 ); signal qspo_4 : STD_LOGIC_VECTOR ( 7 downto 0 ); signal BU2_U0_gen_sp_ram_spram_inst_spo_int : STD_LOGIC_VECTOR ( 7 downto 0 ); signal BU2_qdpo : STD_LOGIC_VECTOR ( 0 downto 0 ); begin a_2(5) <= a(5); a_2(4) <= a(4); a_2(3) <= a(3); a_2(2) <= a(2); a_2(1) <= a(1); a_2(0) <= a(0); d_3(7) <= d(7); d_3(6) <= d(6); d_3(5) <= d(5); d_3(4) <= d(4); d_3(3) <= d(3); d_3(2) <= d(2); d_3(1) <= d(1); d_3(0) <= d(0); qspo(7) <= qspo_4(7); qspo(6) <= qspo_4(6); qspo(5) <= qspo_4(5); qspo(4) <= qspo_4(4); qspo(3) <= qspo_4(3); qspo(2) <= qspo_4(2); qspo(1) <= qspo_4(1); qspo(0) <= qspo_4(0); VCC_0 : VCC port map ( P => N1 ); GND_1 : GND port map ( G => N0 ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram8 : RAM64X1S generic map( INIT => X"0000000000000000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(7), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(7) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram7 : RAM64X1S generic map( INIT => X"0000000000504000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(6), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(6) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram6 : RAM64X1S generic map( INIT => X"0000000000010000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(5), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(5) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram5 : RAM64X1S generic map( INIT => X"0000000000800000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(4), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(4) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram4 : RAM64X1S generic map( INIT => X"0000000000001000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(3), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(3) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram3 : RAM64X1S generic map( INIT => X"0000000000014000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(2), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(2) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram2 : RAM64X1S generic map( INIT => X"0000000000000000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(1), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(1) ); BU2_U0_gen_sp_ram_spram_inst_Mram_ram1 : RAM64X1S generic map( INIT => X"0000000000804000" ) port map ( A0 => a_2(0), A1 => a_2(1), A2 => a_2(2), A3 => a_2(3), A4 => a_2(4), A5 => a_2(5), D => d_3(0), WCLK => clk, WE => we, O => BU2_U0_gen_sp_ram_spram_inst_spo_int(0) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_7 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(7), Q => qspo_4(7) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_6 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(6), Q => qspo_4(6) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_5 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(5), Q => qspo_4(5) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_4 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(4), Q => qspo_4(4) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_3 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(3), Q => qspo_4(3) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_2 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(2), Q => qspo_4(2) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_1 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(1), Q => qspo_4(1) ); BU2_U0_gen_sp_ram_spram_inst_qspo_int_0 : FD generic map( INIT => '0' ) port map ( C => clk, D => BU2_U0_gen_sp_ram_spram_inst_spo_int(0), Q => qspo_4(0) ); BU2_XST_GND : GND port map ( G => BU2_qdpo(0) ); end STRUCTURE; -- synthesis translate_on
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