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      -----------------------------------------------------------------------------

      --  LEON3 Demonstration design test bench

      --  Copyright (C) 2004 Jiri Gaisler, Gaisler Research

      ------------------------------------------------------------------------------

      --  This file is a part of the GRLIB VHDL IP LIBRARY

      --  Copyright (C) 2003 - 2008, Gaisler Research

      --  Copyright (C) 2008 - 2012, Aeroflex Gaisler

      --

      --  This program is free software; you can redistribute it and/or modify

      --  it under the terms of the GNU General Public License as published by

      --  the Free Software Foundation; either version 2 of the License, or

      --  (at your option) any later version.

      --

      --  This program is distributed in the hope that it will be useful,

      --  but WITHOUT ANY WARRANTY; without even the implied warranty of

      --  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

      --  GNU General Public License for more details.

      --

      --  You should have received a copy of the GNU General Public License

      --  along with this program; if not, write to the Free Software

      --  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA 

      ------------------------------------------------------------------------------

      library ieee;

      use ieee.std_logic_1164.all;

      library gaisler;

      use gaisler.libdcom.all;

      use gaisler.sim.all;

      library techmap;

      use techmap.gencomp.all;

      use work.debug.all;

      library hynix;

      use hynix.components.all;

      library micron;

      use work.config.all;	-- configuration

      entity testbench is

        generic (

          fabtech   : integer := CFG_FABTECH;

          memtech   : integer := CFG_MEMTECH;

          padtech   : integer := CFG_PADTECH;

          clktech   : integer := CFG_CLKTECH;

          disas     : integer := CFG_DISAS;	-- Enable disassembly to console

          dbguart   : integer := CFG_DUART;	-- Print UART on console

          pclow     : integer := CFG_PCLOW

        );

      end; 

      architecture behav of testbench is

      constant promfile  : string := "prom.srec";  -- rom contents

      constant sramfile  : string := "sram.srec";  -- ram contents

      constant sdramfile : string := "sdram.srec"; -- sdram contents

      signal clk : std_logic := '0';

      signal Rst : std_logic := '0';			-- Reset

      constant ct : integer := 40;

      signal address  : std_logic_vector(24 downto 0);

      signal data     : std_logic_vector(15 downto 0);

      signal button   : std_logic_vector(3 downto 0) := "0000";

      signal genio   	: std_logic_vector(59 downto 0);

      signal romsn  	: std_logic;

      signal oen      : std_ulogic;

      signal writen   : std_ulogic;

      signal GND      : std_ulogic := '0';

      signal VCC      : std_ulogic := '1';

      signal NC       : std_ulogic := 'Z';

      signal txd1, rxd1 : std_logic;       

      signal txd2, rxd2 : std_logic;       

      signal ctsn1, rtsn1 : std_ulogic;       

      signal ctsn2, rtsn2 : std_ulogic;       

      signal phy_mii_data: std_logic;		-- ethernet PHY interface

      signal phy_tx_clk 	: std_ulogic;

      signal phy_rx_clk 	: std_ulogic;

      signal phy_rx_data	: std_logic_vector(7 downto 0);   

      signal phy_dv  	: std_ulogic; 

      signal phy_rx_er	: std_ulogic; 

      signal phy_col 	: std_ulogic;

      signal phy_crs 	: std_ulogic;

      signal phy_tx_data : std_logic_vector(7 downto 0);   

      signal phy_tx_en 	: std_ulogic; 

      signal phy_tx_er 	: std_ulogic; 

      signal phy_mii_clk	: std_ulogic;

      signal phy_rst_n	: std_ulogic;

      signal phy_gtx_clk	: std_ulogic;

      signal phy_mii_int_n	: std_ulogic;

      signal clk27       : std_ulogic := '0';

      signal clk200p     : std_ulogic := '0';

      signal clk200n     : std_ulogic := '1';

      signal clk33      : std_ulogic := '0';

      signal iic_scl       : std_ulogic;

      signal iic_sda       : std_ulogic;

      signal ddc_scl       : std_ulogic;

      signal ddc_sda       : std_ulogic;

      signal dvi_iic_scl   : std_logic;

      signal dvi_iic_sda   : std_logic;

      signal tft_lcd_data    : std_logic_vector(11 downto 0);

      signal tft_lcd_clk_p   : std_ulogic;

      signal tft_lcd_clk_n   : std_ulogic;

      signal tft_lcd_hsync   : std_ulogic;

      signal tft_lcd_vsync   : std_ulogic;

      signal tft_lcd_de      : std_ulogic;

      signal tft_lcd_reset_b : std_ulogic;

        -- DDR2 memory

        signal ddr_clk    : std_logic;

        signal ddr_clkb   : std_logic;

        signal ddr_clk_fb : std_logic;

        signal ddr_cke    : std_logic;

        signal ddr_csb    : std_logic := '0';

        signal ddr_we     : std_ulogic;                       -- write enable

        signal ddr_ras    : std_ulogic;                       -- ras

        signal ddr_cas    : std_ulogic;                       -- cas

        signal ddr_dm     : std_logic_vector(1 downto 0);     -- dm

        signal ddr_dqs    : std_logic_vector(1 downto 0);     -- dqs

        signal ddr_dqsn   : std_logic_vector(1 downto 0);     -- dqsn

        signal ddr3_tdqs_n   : std_logic_vector(1 downto 0);     -- dqsn

        signal ddr_ad     : std_logic_vector(12 downto 0);    -- address

        signal ddr_ba     : std_logic_vector(2 downto 0);     -- bank address

        signal ddr_dq     : std_logic_vector(15 downto 0);    -- data

        signal ddr_dq2    : std_logic_vector(15 downto 0);    -- data

        signal ddr_odt    : std_logic;

        signal ddr_reset_n: std_logic;

        signal ddr_rzq    : std_logic;

        signal ddr_zio    : std_logic;

          -- SPI flash

        signal spi_sel_n : std_ulogic;

        signal spi_clk   : std_ulogic;

        signal spi_mosi  : std_ulogic;

        signal dsurst  : std_ulogic;

        signal errorn  : std_logic;

      signal switch       : std_logic_vector(3 downto 0);    -- I/O port

      signal led          : std_logic_vector(3 downto 0);    -- I/O port

      constant lresp : boolean := false;

      begin

      -- clock and reset

        clk27  <= not clk27 after ct * 1 ns;

        clk33  <= not clk33 after 15 ns;

        clk200p <= not clk200p after 2.5 ns;

        clk200n <= not clk200n after 2.5 ns;

        rst <= not dsurst; 

        rxd1 <= 'H'; ctsn1 <= '0';

        rxd2 <= 'H'; ctsn2 <= '0';

        button <= "0000";

        switch <= "0000";

        cpu : entity work.leon3mp

            generic map ( fabtech, memtech, padtech, clktech, 

      	disas, dbguart, pclow )

            port map (rst, clk27, clk200p, clk200n, clk33, address(24 downto 1), 

      	data, oen, writen, romsn,

      	ddr_clk, ddr_clkb, ddr_cke, ddr_odt, ddr_reset_n, ddr_we, ddr_ras, ddr_cas, ddr_dm,

      	ddr_dqs, ddr_dqsn, ddr_ad, ddr_ba, ddr_dq, ddr_rzq, ddr_zio,

      	txd1, rxd1, ctsn1, rtsn1, button,

              switch, led, 

      	phy_gtx_clk, phy_mii_data, phy_tx_clk, phy_rx_clk, 

      	phy_rx_data, phy_dv, phy_rx_er,	phy_col, phy_crs, phy_tx_data,

      	phy_tx_en, phy_tx_er, phy_mii_clk, phy_rst_n, phy_mii_int_n,

      	iic_scl, iic_sda, ddc_scl, ddc_sda,

      	dvi_iic_scl, dvi_iic_sda,

      	tft_lcd_data, tft_lcd_clk_p, tft_lcd_clk_n, tft_lcd_hsync,

      	tft_lcd_vsync, tft_lcd_de, tft_lcd_reset_b,

      	spi_sel_n, spi_clk, spi_mosi

            );

      --  prom0 : sram generic map (index => 6, abits => romdepth, fname => promfile)

      --	port map (address(romdepth-1 downto 0), data(31 downto 24), romsn,

      --		  writen, oen);

        prom0 : for i in 0 to 1 generate

            sr0 : sram generic map (index => i+4, abits => 24, fname => promfile)

              port map (address(24 downto 1), data(15-i*8 downto 8-i*8), romsn,

                        writen, oen);

        end generate;

        address(0) <= '0';

            u1 :  entity micron.ddr3

              port map ( rst_n => ddr_reset_n, dq => ddr_dq,

          		tdqs_n => ddr3_tdqs_n,

                        dqs  => ddr_dqs, dqs_n => ddr_dqsn,

                        dm_tdqs => ddr_dm, we_n => ddr_we, cas_n => ddr_cas,

                        ras_n => ddr_ras, cs_n => ddr_csb, ba => ddr_ba,

                        addr => ddr_ad(12 downto 0), cke => ddr_cke,

                        ck => ddr_clk, ck_n => ddr_clkb, odt => ddr_odt) ;

        errorn <= led(1);

        errorn <= 'H';			  -- ERROR pull-up

        phy0 : if (CFG_GRETH = 1) generate

          phy_mii_data <= 'H';

          p0: phy

            generic map (address => 7)

            port map(phy_rst_n, phy_mii_data, phy_tx_clk, phy_rx_clk, phy_rx_data,

                     phy_dv, phy_rx_er, phy_col, phy_crs, phy_tx_data, phy_tx_en,

                     phy_tx_er, phy_mii_clk, phy_gtx_clk);

        end generate;

         iuerr : process

         begin

           wait for 5000 ns;

           if to_x01(errorn) = '1' then wait on errorn; end if;

           assert (to_x01(errorn) = '1') 

             report "*** IU in error mode, simulation halted ***"

               severity failure ;

         end process;

        data <= buskeep(data) after 5 ns;

        dsucom : process

          procedure dsucfg(signal dsurx : in std_ulogic; signal dsutx : out std_ulogic) is

          variable w32 : std_logic_vector(31 downto 0);

          variable c8  : std_logic_vector(7 downto 0);

          constant txp : time := 320 * 1 ns;

          begin

          dsutx <= '1';

          dsurst <= '0';

          wait for 2500 ns;

          dsurst <= '1';

          wait;

          wait for 5000 ns;

          txc(dsutx, 16#55#, txp);		-- sync uart

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#20#, 16#2e#, txp);

          wait for 25000 ns;

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#01#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#40#, 16#00#, 16#24#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0D#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#70#, 16#11#, 16#78#, txp);

          txa(dsutx, 16#91#, 16#00#, 16#00#, 16#0D#, txp);

          txa(dsutx, 16#90#, 16#40#, 16#00#, 16#44#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#20#, 16#00#, txp);

          txc(dsutx, 16#80#, txp);

          txa(dsutx, 16#90#, 16#40#, 16#00#, 16#44#, txp);

          wait;

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#0a#, 16#aa#, txp);

          txa(dsutx, 16#00#, 16#55#, 16#00#, 16#55#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#0a#, 16#a0#, txp);

          txa(dsutx, 16#01#, 16#02#, 16#09#, 16#33#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#2e#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#91#, 16#00#, 16#00#, 16#00#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#2e#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0f#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#00#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#80#, 16#00#, 16#02#, 16#10#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0f#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#91#, 16#40#, 16#00#, 16#24#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#24#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#91#, 16#70#, 16#00#, 16#00#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#03#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#ff#, 16#ff#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#40#, 16#00#, 16#48#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#00#, 16#12#, txp);

          txc(dsutx, 16#c0#, txp);

          txa(dsutx, 16#90#, 16#40#, 16#00#, 16#60#, txp);

          txa(dsutx, 16#00#, 16#00#, 16#12#, 16#10#, txp);

          txc(dsutx, 16#80#, txp);

          txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);

          rxi(dsurx, w32, txp, lresp);

          txc(dsutx, 16#a0#, txp);

          txa(dsutx, 16#40#, 16#00#, 16#00#, 16#00#, txp);

          rxi(dsurx, w32, txp, lresp);

          end;

        begin

          dsucfg(txd2, rxd2);

          wait;

        end process;

      end ;

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				-----------------------------------------------------------------------------
				-- LEON3 Demonstration design test bench
				-- Copyright (C) 2004 Jiri Gaisler, Gaisler Research
				------------------------------------------------------------------------------
				-- This file is a part of the GRLIB VHDL IP LIBRARY
				-- Copyright (C) 2003 - 2008, Gaisler Research
				-- Copyright (C) 2008 - 2012, Aeroflex Gaisler
				--
				-- This program is free software; you can redistribute it and/or modify
				-- it under the terms of the GNU General Public License as published by
				-- the Free Software Foundation; either version 2 of the License, or
				-- (at your option) any later version.
				--
				-- This program is distributed in the hope that it will be useful,
				-- but WITHOUT ANY WARRANTY; without even the implied warranty of
				-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
				-- GNU General Public License for more details.
				--
				-- You should have received a copy of the GNU General Public License
				-- along with this program; if not, write to the Free Software
				-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
				------------------------------------------------------------------------------

				library ieee;
				use ieee.std_logic_1164.all;
				library gaisler;
				use gaisler.libdcom.all;
				use gaisler.sim.all;
				library techmap;
				use techmap.gencomp.all;
				use work.debug.all;
				library hynix;
				use hynix.components.all;
				library micron;

				use work.config.all; -- configuration

				entity testbench is
				generic (
				fabtech : integer := CFG_FABTECH;
				memtech : integer := CFG_MEMTECH;
				padtech : integer := CFG_PADTECH;
				clktech : integer := CFG_CLKTECH;
				disas : integer := CFG_DISAS; -- Enable disassembly to console
				dbguart : integer := CFG_DUART; -- Print UART on console
				pclow : integer := CFG_PCLOW

				);
				end;

				architecture behav of testbench is

				constant promfile : string := "prom.srec"; -- rom contents
				constant sramfile : string := "sram.srec"; -- ram contents
				constant sdramfile : string := "sdram.srec"; -- sdram contents

				signal clk : std_logic := '0';
				signal Rst : std_logic := '0'; -- Reset
				constant ct : integer := 40;

				signal address : std_logic_vector(24 downto 0);
				signal data : std_logic_vector(15 downto 0);
				signal button : std_logic_vector(3 downto 0) := "0000";
				signal genio : std_logic_vector(59 downto 0);
				signal romsn : std_logic;
				signal oen : std_ulogic;
				signal writen : std_ulogic;
				signal GND : std_ulogic := '0';
				signal VCC : std_ulogic := '1';
				signal NC : std_ulogic := 'Z';

				signal txd1, rxd1 : std_logic;
				signal txd2, rxd2 : std_logic;
				signal ctsn1, rtsn1 : std_ulogic;
				signal ctsn2, rtsn2 : std_ulogic;

				signal phy_mii_data: std_logic; -- ethernet PHY interface
				signal phy_tx_clk : std_ulogic;
				signal phy_rx_clk : std_ulogic;
				signal phy_rx_data : std_logic_vector(7 downto 0);
				signal phy_dv : std_ulogic;
				signal phy_rx_er : std_ulogic;
				signal phy_col : std_ulogic;
				signal phy_crs : std_ulogic;
				signal phy_tx_data : std_logic_vector(7 downto 0);
				signal phy_tx_en : std_ulogic;
				signal phy_tx_er : std_ulogic;
				signal phy_mii_clk : std_ulogic;
				signal phy_rst_n : std_ulogic;
				signal phy_gtx_clk : std_ulogic;
				signal phy_mii_int_n : std_ulogic;

				signal clk27 : std_ulogic := '0';
				signal clk200p : std_ulogic := '0';
				signal clk200n : std_ulogic := '1';
				signal clk33 : std_ulogic := '0';

				signal iic_scl : std_ulogic;
				signal iic_sda : std_ulogic;
				signal ddc_scl : std_ulogic;
				signal ddc_sda : std_ulogic;
				signal dvi_iic_scl : std_logic;
				signal dvi_iic_sda : std_logic;

				signal tft_lcd_data : std_logic_vector(11 downto 0);
				signal tft_lcd_clk_p : std_ulogic;
				signal tft_lcd_clk_n : std_ulogic;
				signal tft_lcd_hsync : std_ulogic;
				signal tft_lcd_vsync : std_ulogic;
				signal tft_lcd_de : std_ulogic;
				signal tft_lcd_reset_b : std_ulogic;

				-- DDR2 memory
				signal ddr_clk : std_logic;
				signal ddr_clkb : std_logic;
				signal ddr_clk_fb : std_logic;
				signal ddr_cke : std_logic;
				signal ddr_csb : std_logic := '0';
				signal ddr_we : std_ulogic; -- write enable
				signal ddr_ras : std_ulogic; -- ras
				signal ddr_cas : std_ulogic; -- cas
				signal ddr_dm : std_logic_vector(1 downto 0); -- dm
				signal ddr_dqs : std_logic_vector(1 downto 0); -- dqs
				signal ddr_dqsn : std_logic_vector(1 downto 0); -- dqsn
				signal ddr3_tdqs_n : std_logic_vector(1 downto 0); -- dqsn
				signal ddr_ad : std_logic_vector(12 downto 0); -- address
				signal ddr_ba : std_logic_vector(2 downto 0); -- bank address
				signal ddr_dq : std_logic_vector(15 downto 0); -- data
				signal ddr_dq2 : std_logic_vector(15 downto 0); -- data
				signal ddr_odt : std_logic;
				signal ddr_reset_n: std_logic;
				signal ddr_rzq : std_logic;
				signal ddr_zio : std_logic;


				-- SPI flash
				signal spi_sel_n : std_ulogic;
				signal spi_clk : std_ulogic;
				signal spi_mosi : std_ulogic;

				signal dsurst : std_ulogic;
				signal errorn : std_logic;

				signal switch : std_logic_vector(3 downto 0); -- I/O port
				signal led : std_logic_vector(3 downto 0); -- I/O port
				constant lresp : boolean := false;

				begin

				-- clock and reset

				clk27 <= not clk27 after ct * 1 ns;
				clk33 <= not clk33 after 15 ns;
				clk200p <= not clk200p after 2.5 ns;
				clk200n <= not clk200n after 2.5 ns;
				rst <= not dsurst;
				rxd1 <= 'H'; ctsn1 <= '0';
				rxd2 <= 'H'; ctsn2 <= '0';
				button <= "0000";
				switch <= "0000";

				cpu : entity work.leon3mp
				generic map ( fabtech, memtech, padtech, clktech,
				disas, dbguart, pclow )
				port map (rst, clk27, clk200p, clk200n, clk33, address(24 downto 1),
				data, oen, writen, romsn,
				ddr_clk, ddr_clkb, ddr_cke, ddr_odt, ddr_reset_n, ddr_we, ddr_ras, ddr_cas, ddr_dm,
				ddr_dqs, ddr_dqsn, ddr_ad, ddr_ba, ddr_dq, ddr_rzq, ddr_zio,
				txd1, rxd1, ctsn1, rtsn1, button,
				switch, led,
				phy_gtx_clk, phy_mii_data, phy_tx_clk, phy_rx_clk,
				phy_rx_data, phy_dv, phy_rx_er, phy_col, phy_crs, phy_tx_data,
				phy_tx_en, phy_tx_er, phy_mii_clk, phy_rst_n, phy_mii_int_n,
				iic_scl, iic_sda, ddc_scl, ddc_sda,
				dvi_iic_scl, dvi_iic_sda,
				tft_lcd_data, tft_lcd_clk_p, tft_lcd_clk_n, tft_lcd_hsync,
				tft_lcd_vsync, tft_lcd_de, tft_lcd_reset_b,
				spi_sel_n, spi_clk, spi_mosi
				);

				-- prom0 : sram generic map (index => 6, abits => romdepth, fname => promfile)
				-- port map (address(romdepth-1 downto 0), data(31 downto 24), romsn,
				-- writen, oen);

				prom0 : for i in 0 to 1 generate
				sr0 : sram generic map (index => i+4, abits => 24, fname => promfile)
				port map (address(24 downto 1), data(15-i8 downto 8-i8), romsn,
				writen, oen);
				end generate;
				address(0) <= '0';

				u1 : entity micron.ddr3
				port map ( rst_n => ddr_reset_n, dq => ddr_dq,
				tdqs_n => ddr3_tdqs_n,
				dqs => ddr_dqs, dqs_n => ddr_dqsn,
				dm_tdqs => ddr_dm, we_n => ddr_we, cas_n => ddr_cas,
				ras_n => ddr_ras, cs_n => ddr_csb, ba => ddr_ba,
				addr => ddr_ad(12 downto 0), cke => ddr_cke,
				ck => ddr_clk, ck_n => ddr_clkb, odt => ddr_odt) ;

				errorn <= led(1);
				errorn <= 'H'; -- ERROR pull-up

				phy0 : if (CFG_GRETH = 1) generate
				phy_mii_data <= 'H';
				p0: phy
				generic map (address => 7)
				port map(phy_rst_n, phy_mii_data, phy_tx_clk, phy_rx_clk, phy_rx_data,
				phy_dv, phy_rx_er, phy_col, phy_crs, phy_tx_data, phy_tx_en,
				phy_tx_er, phy_mii_clk, phy_gtx_clk);
				end generate;

				iuerr : process
				begin
				wait for 5000 ns;
				if to_x01(errorn) = '1' then wait on errorn; end if;
				assert (to_x01(errorn) = '1')
				report "* IU in error mode, simulation halted *"
				severity failure ;
				end process;

				data <= buskeep(data) after 5 ns;

				dsucom : process
				procedure dsucfg(signal dsurx : in std_ulogic; signal dsutx : out std_ulogic) is
				variable w32 : std_logic_vector(31 downto 0);
				variable c8 : std_logic_vector(7 downto 0);
				constant txp : time := 320 * 1 ns;
				begin
				dsutx <= '1';
				dsurst <= '0';
				wait for 2500 ns;
				dsurst <= '1';
				wait;
				wait for 5000 ns;
				txc(dsutx, 16#55#, txp); -- sync uart

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#20#, 16#2e#, txp);

				wait for 25000 ns;
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#01#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#40#, 16#00#, 16#24#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0D#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#70#, 16#11#, 16#78#, txp);
				txa(dsutx, 16#91#, 16#00#, 16#00#, 16#0D#, txp);

				txa(dsutx, 16#90#, 16#40#, 16#00#, 16#44#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#20#, 16#00#, txp);

				txc(dsutx, 16#80#, txp);
				txa(dsutx, 16#90#, 16#40#, 16#00#, 16#44#, txp);

				wait;
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#0a#, 16#aa#, txp);
				txa(dsutx, 16#00#, 16#55#, 16#00#, 16#55#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#0a#, 16#a0#, txp);
				txa(dsutx, 16#01#, 16#02#, 16#09#, 16#33#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#2e#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#91#, 16#00#, 16#00#, 16#00#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#2e#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0f#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#00#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#80#, 16#00#, 16#02#, 16#10#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#0f#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#91#, 16#40#, 16#00#, 16#24#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#24#, txp);
				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#91#, 16#70#, 16#00#, 16#00#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#03#, txp);





				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#20#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#ff#, 16#ff#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#40#, 16#00#, 16#48#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#00#, 16#12#, txp);

				txc(dsutx, 16#c0#, txp);
				txa(dsutx, 16#90#, 16#40#, 16#00#, 16#60#, txp);
				txa(dsutx, 16#00#, 16#00#, 16#12#, 16#10#, txp);

				txc(dsutx, 16#80#, txp);
				txa(dsutx, 16#90#, 16#00#, 16#00#, 16#00#, txp);
				rxi(dsurx, w32, txp, lresp);

				txc(dsutx, 16#a0#, txp);
				txa(dsutx, 16#40#, 16#00#, 16#00#, 16#00#, txp);
				rxi(dsurx, w32, txp, lresp);

				end;

				begin

				dsucfg(txd2, rxd2);

				wait;
				end process;
				end ;