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[/] [z80soc/] [trunk/] [V0.7/] [S3E/] [vhdl/] [top_s3e.vhd] - Rev 45

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-------------------------------------------------------------------------------------------------
-- Z80_Soc (Z80 System on Chip)
-- 
-- Version history:
-------------------
-- version 0.7 for Spartan 3E
-- Release Date: 2010 / 02 / 17
--
-- version 0.6 for Spartan 3E
-- Release Date: 2008 / 05 / 21
--
-- Version 0.5 Beta for Spartan 3E
-- Developer: Ronivon Candido Costa
-- Release Date: 2008 / 05 / 01
--
-- Based on the T80 core: http://www.opencores.org/projects.cgi/web/t80
-- This version developed and tested on: Diligent Spartan 3E
--
-- Architecture of z80soc:
-- Processor: Z80 Processor (T80 core) Runnig at 3.58 Mhz (can be changed)
--
-- External devices/resources:
-- 
--	16 KB 	ROM			Read			(0x0000h - 0x3FFFh)
--	08 KB		Video RAM		Read/Write		(0x4000h - 0x4C7Fh)
--	02 KB		Char RAM		Read/Write		(0x4C80h - 0x547FH)
--			Not used 					(0x5480h - 0x5FFFh)	
-- 	24 KB		RAM			Read/Write		(0x6000h - 0xBFFFh)
--	 		Not Used					(0xC000h - 0xFFDFh)
--	01 		LCD display		Write			(0xFFE0h - 0xFFFFh)
--	08 		Green Leds		Out			(Port 0x01h)
--	04 		Switches		In			(Port 0x20h)
--	04 		Push buttons	In			(Port 0x30h)
--	01 		Rotary Knob		In			(Port 0x70h)
--	01 		PS/2 keyboard 	In			(Port 0x80h)
--	01		Video write		Out			(Port 0x90h)
--
--  Revision history:
--
-- 2008/05/20 - Modified RAM layout to support new and future improvements
--            - Added port 0x90 to write a character to video.
--            - Cursor x,y automatically updated after writing to port 0x90
--            - Added port 0x91 for video cursor X
--            - Added port 0x92 for video cursor Y
--	           - Updated ROM to demonstrate how to use these new resources
--            - Changed ROM to support 14 bit addresses (16 Kb)
--
-- 2008/05/12 - Added support for the Rotary Knob
--            - ROT_CENTER push button (Knob) reserved for RESET
--            - The four push buttons are now available for the user (Port 0x30)
--
-- 2008/05/11 - Fixed access to RAM and VRAM,
--              Released same ROM version for DE1 and S3E
--
-- 2008/05/01 - Added LCD support for Spartan 3E
--
-- 2008/04(21 - Release of Version 0.5-S3E-Beta for Diligent Spartan 3E
--
--	2008/04/17 - Added Video support for 40x30 mode
--
-- 2008/04/16 - Release of Version 0.5-DE1-Beta for Altera DE1
--
-- TO-DO:
-- - Implement hardware control for the A/D and IO pins
-- - Monitor program to introduce Z80 Assmebly codes and run
--	- Serial communication, to download assembly code from PC
--	- Add hardware support for 80x40 Video out
--	- SD/MMC card interface to read/store data and programs
-------------------------------------------------------------------------------------------------
 
-- use IEEE.numeric_std.all;
 
library IEEE; 
use  IEEE.STD_LOGIC_1164.all;
use  IEEE.STD_LOGIC_ARITH.all;
use  IEEE.STD_LOGIC_UNSIGNED.all;
 
entity Z80SOC_TOP is
port(
	CLOCK_50 	: in std_logic;
	KEY		: in std_logic_vector(3 downto 0);		-- Push buttons
	SW		: in std_logic_vector(3 downto 0);		-- Switches
	LEDG		: out std_logic_vector(7 downto 0);		-- Green LEDs
	PS2_DAT,								-- Data
	PS2_CLK	: inout std_logic;				-- Clock
	VGA_HS,								-- H_SYNC
	VGA_VS	: out std_logic;					-- SYNC
	VGA_R,								-- Red[3:0]
	VGA_G,								-- Green[3:0]
	VGA_B 	: out std_logic;					-- Blue[3:0]
	SF_D		: out std_logic_vector(3 downto 0);
	LCD_E,
	LCD_RS,
	LCD_RW,
	SF_CE0 	: out std_logic;
	ROT_A,
	ROT_B,
	ROT_CENTER	: in std_logic	
);
end Z80SOC_TOP;
 
architecture rtl of Z80SOC_TOP is
 
	use work.z80soc_pack.all;
 
	component T80se
	generic(
		Mode 			: integer := 0;	-- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB
		T2Write 		: integer := 1;	-- 0 => WR_n active in T3, /=0 => WR_n active in T2
		IOWait 		: integer := 1	-- 0 => Single cycle I/O, 1 => Std I/O cycle
	);
	port(
		RESET_n		: in std_logic;
		CLK_n			: in std_logic;
		CLKEN			: in std_logic;
		WAIT_n		: in std_logic;
		INT_n			: in std_logic;
		NMI_n			: in std_logic;
		BUSRQ_n		: in std_logic;
		M1_n			: out std_logic;
		MREQ_n		: out std_logic;
		IORQ_n		: out std_logic;
		RD_n			: out std_logic;
		WR_n			: out std_logic;
		RFSH_n		: out std_logic;
		HALT_n		: out std_logic;
		BUSAK_n		: out std_logic;
		A			: out std_logic_vector(15 downto 0);
		DI			: in std_logic_vector(7 downto 0);
		DO			: out std_logic_vector(7 downto 0)
	);
	end component;
 
	component ram24k
	port (
		clka			: IN std_logic;
		dina			: IN std_logic_VECTOR(7 downto 0);
		addra			: IN std_logic_VECTOR(14 downto 0);
		wea			: IN std_logic_VECTOR(0 downto 0);
		douta			: OUT std_logic_VECTOR(7 downto 0));
	end component;
 
	component rom
	port (
		Clk			: in std_logic;
		A			: in std_logic_vector(11 downto 0);
		D			: out std_logic_vector(7 downto 0));
	end component;
 
	component Clock_357Mhz
	PORT (
		clock_50Mhz		: IN	STD_LOGIC;
		clock_357Mhz	: OUT	STD_LOGIC);
	end component;
 
	component clk_div
	PORT
	(
		clock_25Mhz		: IN	STD_LOGIC;
		clock_1MHz		: OUT	STD_LOGIC;
		clock_100KHz	: OUT	STD_LOGIC;
		clock_10KHz		: OUT	STD_LOGIC;
		clock_1KHz		: OUT	STD_LOGIC;
		clock_100Hz		: OUT	STD_LOGIC;
		clock_10Hz		: OUT	STD_LOGIC;
		clock_1Hz		: OUT	STD_LOGIC);
	end component;
 
	component lcd
	port(
		clk, 
		reset			: in std_logic;
		SF_D 			: out std_logic_vector(3 downto 0);
		LCD_E,
		LCD_RS,
		LCD_RW,
		SF_CE0 		: out std_logic;
		lcd_addr		: out std_logic_vector(4 downto 0);
		lcd_char		: in std_logic_vector(7 downto 0));
	end component;
 
	component lcdvram
	port (
		addra			: IN std_logic_VECTOR(4 downto 0);
		addrb			: IN std_logic_VECTOR(4 downto 0);
		clka			: IN std_logic;
		clkb			: IN std_logic;
		dina			: IN std_logic_VECTOR(7 downto 0);
		doutb			: OUT std_logic_VECTOR(7 downto 0);
		wea			: IN std_logic_VECTOR(0 downto 0));
	end component;
 
	component ps2kbd
	PORT (	
		keyboard_clk	: inout std_logic;
		keyboard_data	: inout std_logic;
		clock			: in std_logic;
		clkdelay		: in std_logic;
		reset			: in std_logic;
		read			: in std_logic;
		scan_ready		: out std_logic;
		ps2_ascii_code	: out std_logic_vector(7 downto 0));
	end component;
 
	component vram3200x8
	port (
		addra			: IN std_logic_VECTOR(11 downto 0);
		addrb			: IN std_logic_VECTOR(11 downto 0);
		clka			: IN std_logic;
		clkb			: IN std_logic;
		dina			: IN std_logic_VECTOR(7 downto 0);
		dinb			: IN std_logic_VECTOR(7 downto 0);
		douta			: OUT std_logic_VECTOR(7 downto 0);
		doutb			: OUT std_logic_VECTOR(7 downto 0);
		wea			: IN std_logic_VECTOR(0 downto 0);
		web			: IN std_logic_VECTOR(0 downto 0));
	end component;
 
	component charram2k
	port (
		addra			: IN std_logic_VECTOR(10 downto 0);
		addrb			: IN std_logic_VECTOR(10 downto 0);
		clka			: IN std_logic;
		clkb			: IN std_logic;
		dina			: IN std_logic_VECTOR(7 downto 0);
		dinb			: IN std_logic_VECTOR(7 downto 0);
		douta			: OUT std_logic_VECTOR(7 downto 0);
		doutb			: OUT std_logic_VECTOR(7 downto 0);
		wea			: IN std_logic_VECTOR(0 downto 0);
		web			: IN std_logic_VECTOR(0 downto 0));
	end component;
 
	COMPONENT video
	PORT (		
		CLOCK_25		: IN STD_LOGIC;
		VRAM_DATA		: IN STD_LOGIC_VECTOR(7 DOWNTO 0);
		VRAM_ADDR		: OUT STD_LOGIC_VECTOR(12 DOWNTO 0);
		VRAM_CLOCK		: OUT STD_LOGIC;
		VRAM_WREN		: OUT STD_LOGIC_VECTOR(0 DOWNTO 0);
		CRAM_DATA		: IN STD_LOGIC_VECTOR(7 DOWNTO 0);
		CRAM_ADDR		: OUT STD_LOGIC_VECTOR(10 DOWNTO 0);
		CRAM_WEB			: OUT STD_LOGIC_VECTOR(0 DOWNTO 0);
		VGA_R,
		VGA_G,
		VGA_B				: OUT STD_LOGIC;
		VGA_HS,
		VGA_VS			: OUT STD_LOGIC);
	END COMPONENT;
 
	COMPONENT ROT_CTRL
	PORT (
		CLOCK			: IN STD_LOGIC;
		ROT_A			: IN	STD_LOGIC;
		ROT_B			: IN	STD_LOGIC;
		DIRECTION		: OUT	STD_LOGIC_VECTOR(1 DOWNTO 0));
	END COMPONENT;
 
	signal MREQ_n		: std_logic := '0';
	signal IORQ_n		: std_logic := '1';
	signal RD_n			: std_logic := '0';
	signal WR_n			: std_logic := '1';
	signal Rst_n_s		: std_logic;
	signal Clk_Z80		: std_logic;
	signal DI_CPU		: std_logic_vector(7 downto 0);
	signal DO_CPU		: std_logic_vector(7 downto 0);
	signal A			: std_logic_vector(15 downto 0);
	signal One			: std_logic := '1';
 
	signal D_ROM		: std_logic_vector(7 downto 0);
 
	signal clk25mhz		: std_logic;
	signal clk100hz		: std_logic;
	signal clk10hz		: std_logic;
	signal clk1hz		: std_logic;
 
	signal vram_addra		: std_logic_vector(15 downto 0);
	signal vram_addrb		: std_logic_vector(15 downto 0);
	signal vram_dina		: std_logic_vector(7 downto 0);
	signal vram_dinb		: std_logic_vector(7 downto 0);
	signal vram_douta		: std_logic_vector(7 downto 0);
	signal vram_doutb		: std_logic_vector(7 downto 0);
	signal vram_wea		: std_logic_VECTOR(0 downto 0) := "1";
	signal vram_web		: std_logic_VECTOR(0 downto 0) := "1";
	signal vram_clka		: std_logic;
	signal vram_clkb		: std_logic;
 
	signal cram_addra		: std_logic_vector(15 downto 0);
	signal cram_addrb		: std_logic_vector(15 downto 0);
	signal cram_dina		: std_logic_vector(7 downto 0);
	signal cram_dinb		: std_logic_vector(7 downto 0);
	signal cram_douta		: std_logic_vector(7 downto 0);
	signal cram_doutb		: std_logic_vector(7 downto 0);
	signal cram_wea		: std_logic_VECTOR(0 downto 0) := "1";
	signal cram_web		: std_logic_VECTOR(0 downto 0) := "1";
	signal cram_clka		: std_logic;
	signal cram_clkb		: std_logic;
 
	signal vram_douta_reg: std_logic_vector(7 downto 0);	
	signal VID_CURSOR		: std_logic_vector(15 downto 0);
	signal CURSOR_X		: std_logic_vector(6 downto 0);
	signal CURSOR_Y		: std_logic_vector(5 downto 0);
 
	-- sram signals
	signal sram_addr		: std_logic_vector(15 downto 0);
	signal sram_din		: std_logic_vector(7 downto 0);
	signal sram_dout		: std_logic_vector(7 downto 0);
	signal sram_we			: std_logic_vector(0 downto 0) := "1";
 
	-- LCD signals
	signal lcd_wea			: std_logic_VECTOR(0 downto 0) := "1";
	signal lcd_addra		: std_logic_vector(4 downto 0);
	signal lcd_addrb		: std_logic_vector(4 downto 0);
	signal lcd_dina		: std_logic_vector(7 downto 0);
	signal lcd_doutb		: std_logic_vector(7 downto 0);
 
	-- VGA conversion from 4 bits to 8 bit
	signal VGA_Rs,
	       VGA_Gs, 
	       VGA_Bs		: std_logic_vector(3 downto 0);
	signal VGA_HSs, 
	       VGA_VSs 		: std_logic;
 
	-- PS/2 Keyboard
	signal ps2_read		: std_logic;
	signal ps2_scan_ready	: std_logic;
	signal ps2_ascii_sig	: std_logic_vector(7 downto 0);
	signal ps2_ascii_reg1	: std_logic_vector(7 downto 0);
	signal ps2_ascii_reg	: std_logic_vector(7 downto 0);
 
	-- Rotary Control
	signal rot_dir     	: std_logic_vector(1 downto 0);
	signal rot_dir_sig 	: std_logic_vector(1 downto 0);
 
	signal Z80SOC_VERSION		: std_logic_vector(2 downto 0);   -- "000" = DE1, "001" = S3E
 
begin
 
	Z80SOC_VERSION <= "001";		-- "000" = DE1, "001" = S3E
	Rst_n_s <= not ROT_CENTER;
 
--	Write into VRAM
	vram_addra <= VID_CURSOR when (IORQ_n = '0' and MREQ_n = '1' and A(7 downto 0) = x"90")  else
	              A - x"4000" when (A >= x"4000" and A < x"4C80");
	vram_wea(0) <= '0' when ((A >= x"4000" and A < x"4C80" and Wr_n = '0' and MReq_n = '0') or (Wr_n = '0' and IORQ_n = '0' and A(7 downto 0) = x"90")) else 
             	'1';
	vram_dina <= DO_CPU;
 
-- Write into char ram
	cram_addra	<= A - x"4C80";
	cram_dina	<= DO_CPU;
	cram_wea(0)	<= '0' when (A >= x"4C80" and A < x"5480" and Wr_n = '0' and MReq_n = '0') else '1';
 
-- Write into LCD video ram
	lcd_addra <= A - x"FFE0";
	lcd_dina <= DO_CPU;
	lcd_wea(0) <= '0' when (A >= x"FFE0" and A <= x"FFFF" and Wr_n = '0' and MReq_n = '0') else '1';
 
-- Write into SRAM
	sram_addr <= A - x"6000";
	sram_din <= DO_CPU;
	sram_we(0) <= '0' when (A >= x"6000" and A < x"C000" and Wr_n = '0' and MReq_n = '0') else '1';
 
	DI_CPU <= 	("00000" & Z80SOC_VERSION) when (Rd_n = '0' and MREQ_n = '0' and A = x"FFDF") else
			D_ROM when (Rd_n = '0' and MREQ_n = '0' and IORQ_n = '1' and A < x"4000") else
			vram_douta when (MREQ_n = '0' and IORQ_n = '1' and Rd_n = '0' and A < x"4C80") else
			cram_douta when (MREQ_n = '0' and IORQ_n = '1' and Rd_n = '0' and A < x"5480") else
			sram_dout when (Rd_n = '0' and MREQ_n = '0' and IORQ_n = '1' and A < x"C000") else
			("0000" & SW) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"20") else
			("0000" & KEY) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"30") else
			("000000" & rot_dir) when (IORQ_n = '0' and Rd_n = '0' and A(7 downto 0) = x"70") else
			ps2_ascii_reg when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"80") else
			("0" & CURSOR_X) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"91") else
			("00" & CURSOR_Y) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"92") else
			"ZZZZZZZZ";
 
	-- Process to latch leds and hex displays
	pinout_process: process(Clk_Z80)
	variable LEDG_sig		: std_logic_vector(7 downto 0);
	begin	
		if Clk_Z80'event and Clk_Z80 = '1' then
		  if IORQ_n = '0' and Wr_n = '0' then
			-- LEDG
			if A(7 downto 0) = x"01" then
				LEDG_sig := DO_CPU;
			end if;
		  end if;
		end if;	
		-- Latches the signals
		LEDG <= LEDG_sig;
	end process;
 
	cursorxy: process (Clk_Z80)
	variable VID_X	: std_logic_vector(6 downto 0);
	variable VID_Y	: std_logic_vector(5 downto 0);
	begin
		if Clk_Z80'event and Clk_Z80 = '1' then
			if (IORQ_n = '0' and MREQ_n = '1' and Wr_n = '0' and A(7 downto 0) = x"91") then
				VID_X := DO_CPU(6 downto 0);
			elsif (IORQ_n = '0' and MREQ_n = '1' and Wr_n = '0' and A(7 downto 0) = x"92") then
				VID_Y := DO_CPU(5 downto 0);
			elsif (IORQ_n = '0' and MREQ_n = '1' and Wr_n = '0' and A(7 downto 0) = x"90") then
				if VID_X = vid_cols - 1 then
					VID_X := "0000000";
					if VID_Y = vid_lines - 1 then
						VID_Y := "000000";
					else
						VID_Y := VID_Y + 1;
					end if;
				else
					VID_X := VID_X + 1;
				end if;
			end if;
		end if;
		VID_CURSOR <= vram_base_addr + ( VID_X + ( VID_Y * conv_std_logic_vector(vid_cols,7)));
		CURSOR_X <= VID_X;
		CURSOR_Y <= VID_Y;
	end process;
 
	-- the following three processes deals with different clock domain signals
	ps2_process1: process(CLOCK_50)
	begin
		if CLOCK_50'event and CLOCK_50 = '1' then
			if ps2_read = '1' then
				if ps2_ascii_sig /= x"FF" then
					ps2_read <= '0';
					ps2_ascii_reg1 <= "00000000";
				end if;
			elsif ps2_scan_ready = '1' then
				if ps2_ascii_sig = x"FF" then
					ps2_read <= '1';
				else
					ps2_ascii_reg1 <= ps2_ascii_sig;
				end if;
			end if;
		end if;
	end process;
 
	ps2_process2: process(Clk_Z80)
	variable stack	: std_logic_vector(15 downto 0):=x"7FDE";
	begin
		if Clk_Z80'event and Clk_Z80 = '1' then
			ps2_ascii_reg <= ps2_ascii_reg1;
		end if;
	end process;
 
	rot_process: process(clk100hz)
	begin
		if clk100hz'event and clk100hz = '1' then
			rot_dir <= rot_dir_sig;
		end if;
	end process;
 
	One <= '1';
	z80_inst: T80se
		port map (
			M1_n => open,
			MREQ_n => MReq_n,
			IORQ_n => IORq_n,
			RD_n => Rd_n,
			WR_n => Wr_n,
			RFSH_n => open,
			HALT_n => open,
			WAIT_n => One,
			INT_n => One,
			NMI_n => One,
			RESET_n => Rst_n_s,
			BUSRQ_n => One,
			BUSAK_n => open,
			CLK_n => Clk_Z80,
			CLKEN => One,
			A => A,
			DI => DI_CPU,
			DO => DO_CPU
		);
 
	ps2_kbd_inst : ps2kbd PORT MAP (
		keyboard_clk	=> PS2_CLK,
		keyboard_data	=> PS2_DAT,
		clock			=> CLOCK_50,
		clkdelay		=> clk100hz,
		reset			=> Rst_n_s,
		read			=> ps2_read,
		scan_ready		=> ps2_scan_ready,
		ps2_ascii_code	=> ps2_ascii_sig
	);
 
	clk25mhz_proc: process (CLOCK_50)
   begin
		if CLOCK_50'event and CLOCK_50 = '1' then
        clk25mhz <= not clk25mhz;
		end if;
   end process;
 
   clkdiv_inst: clk_div
		port map (
		clock_25Mhz		=> clk25mhz,		
		clock_1MHz		=> open,
		clock_100KHz	=> open,
		clock_10KHz		=> open,
		clock_1KHz		=> open,
		clock_100Hz		=> clk100hz,	
		clock_10Hz		=> clk10hz,
		clock_1Hz		=> clk1hz
	);
 
	clock_z80_inst : Clock_357Mhz
	port map (
		clock_50Mhz		=> CLOCK_50,
		clock_357Mhz	=> Clk_Z80
	);
 
	lcd_inst: lcd
	port map (
		clk			=> CLOCK_50,
		reset			=> not Rst_n_s,
		SF_D 			=> SF_D,
		LCD_E			=> LCD_E,
		LCD_RS		=> LCD_RS,
		LCD_RW		=> LCD_RW,
		SF_CE0 		=> SF_CE0,
		lcd_addr		=> lcd_addrb,
		lcd_char		=> lcd_doutb
	);
 
	rom_inst: rom
		port map (
			Clk => Clk_Z80,
			A	=> A(11 downto 0),
			D 	=> D_ROM
		);
 
	video_inst: video port map (
			CLOCK_25			=> clk25mhz,
			VRAM_DATA		=> vram_doutb,
			VRAM_ADDR		=> vram_addrb(12 downto 0),
			VRAM_CLOCK		=> vram_clkb,
			VRAM_WREN		=> vram_web,
			CRAM_DATA		=> cram_doutb,
			CRAM_ADDR		=> cram_addrb(10 downto 0),
			CRAM_WEB			=> cram_web,
			VGA_R				=> VGA_R,
			VGA_G				=> VGA_G,
			VGA_B				=> VGA_B,
			VGA_HS			=> VGA_HS,
			VGA_VS			=> VGA_VS
	);
 
	vram : vram3200x8
		port map (
			addra 	=> vram_addra(11 downto 0),
			addrb 	=> vram_addrb(11 downto 0),
			clka 		=> Clk_Z80,
			clkb 		=> vram_clkb,
			dina 		=> vram_dina,
			dinb 		=> vram_dinb,
			douta 	=> vram_douta,
			doutb 	=> vram_doutb,
			wea 		=> NOT vram_wea,
			web 		=> NOT vram_web);
 
	cram: charram2k
		port map (
			addra 	=> cram_addra(10 downto 0),
			addrb 	=> cram_addrb(10 downto 0),
			clka 		=> Clk_Z80,
			clkb 		=> vram_clkb,
			dina 		=> cram_dina,
			dinb 		=> cram_dinb,
			douta 	=> cram_douta,
			doutb 	=> cram_doutb,
			wea 		=> NOT cram_wea,
			web 		=> NOT cram_web);
 
	lcdvram_inst : lcdvram
		port map (
			addra => lcd_addra,
			addrb => lcd_addrb,
			clka => Clk_Z80,
			clkb => CLOCK_50,
			dina => lcd_dina,
			doutb => lcd_doutb,
			wea => NOT lcd_wea
		);
 
	ram : ram24k
		port map (
			clka 		=> Clk_Z80,
			dina 		=> sram_din,
			addra 	=> sram_addr(14 downto 0),
			wea 		=> NOT sram_we,
			douta 	=> sram_dout);
 
	rotary_inst: ROT_CTRL
		port map (
			CLOCK			=> CLOCK_50,
			ROT_A			=> ROT_A,
			ROT_B			=> ROT_B,
			DIRECTION	=> rot_dir_sig
	);
 
end;

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