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2026-06-15 17:31:46 +03:00 · 2026-05-16 20:21:50 +10:00 · 2026-05-16 20:21:50 +10:00 · c306fb606c
commit c306fb606c
parent edfe87f12e
275 changed files with 19757 additions and 55893 deletions
--- a/2
+++ b/2
@ -1 +1 @@
-Subproject commit 2fec6202f716cfa3ed48fb9bfd79d1081cc2721b
+Subproject commit 591d3212c9341f17d6dd034bf2b8da91bd2f6107
--- a/src/ZX_ROMS/new/SP_128.bin
+++ b/src/ZX_ROMS/new/SP_128.bin
--- a/src/ZX_ROMS/new/SP_TRDOS.bin
+++ b/src/ZX_ROMS/new/SP_TRDOS.bin
--- a/src/ZX_ROMS/new/SP__48.bin
+++ b/src/ZX_ROMS/new/SP__48.bin
--- a/src/ZX_ROMS/new/ZX_EXP.bin
+++ b/src/ZX_ROMS/new/ZX_EXP.bin
--- a/src/ZX_ROMS/new/ZX_EXP2.bin
+++ b/src/ZX_ROMS/new/ZX_EXP2.bin
--- a/src/bin/bmp_extract.dpr
+++ b/src/bin/bmp_extract.dpr
--- a/src/bin/bmp_extract.exe
+++ b/src/bin/bmp_extract.exe
--- a/src/bin/hrust.exe
+++ b/src/bin/hrust.exe
--- a/src/bin/mhmt
+++ b/src/bin/mhmt
--- a/src/bios/BIOS.asm
+++ b/src/bios/BIOS.asm
@ -16,7 +16,7 @@
 ;---------------------------------------;
 ;-----------[Shared Includes]-----------
- INCLUDE 'src/bios/shared/includes.inc'	; Includes
+ INCLUDE 'bios/shared/includes.inc'	; Includes
 ;---------------------------------------
@ -41,16 +41,14 @@
 		print ()
 		if detected_os == "Windows" then
-				pack_prog = "src\\bin\\hrust.exe Build\\Bin\\temp\\MAIN.PAK Build\\Bin\\temp\\MAIN.BIN"
+				pack_prog = "bin\\hrust.exe Build\\Bin\\temp\\MAIN.PAK Build\\Bin\\temp\\MAIN.BIN"
-			elseif detected_os == "MacOS" then 
+			else
-				pack_prog = "src/bin/mhmt -hst -zxh Build/Bin/temp/MAIN.BIN Build/Bin/temp/MAIN.PAK"
+				pack_prog = "bin/mhmt -hst -zxh Build/Bin/temp/MAIN.BIN Build/Bin/temp/MAIN.PAK"
 			elseif detected_os == "Linux" then
 				pack_prog = "src/bin/mhmt -hst -zxh Build/Bin/temp/MAIN.BIN Build/Bin/temp/MAIN.PAK"
 		end
 	 -- ª®¬¯¨«ïæ¨ï ¤«ï ¯®«ãç¥¨ï á¦ â®£® ä ©«  MAIN ¨ å®«®áâ®© ¯à®å®¤ Set_Pictures.asm
-		if (os.execute("sjasmplus -DPREBUILD=1 -Wall --msg=war --nologo --syntax=w --fullpath --lst=Build/Prebuilds.LST SRC/BIOS/ROM/SETUP/MAIN.ASM")) then
+		if (os.execute("sjasmplus -DPREBUILD=1 -Wall --msg=war --nologo --syntax=w --fullpath --lst=Build/Prebuilds.LST BIOS/ROM/SETUP/MAIN.ASM")) then
 				print("--[     MAIN.ASM Prebuild DONE     ]--")
 			if (os.execute(pack_prog)) then
 				print("--[     Hrusting MAIN.BIN DONE     ]--")
@ -71,7 +69,7 @@
 ;----------[MAIN's referenses]----------;                               Š®¬¯¨«ïæ¨ï ¤«ï ¯®«ãç¥¨ï  ¤à¥á®¢ ¬¥â®ª ¨ ¯à®æ¥¤ãà
 	MMU		2 e, 18						; áâà ¨æ  18 ¢ ¡ ªã 2 ¨ ¯à®¢¥àª    £à ¨æë.
 	ORG		COMPILE_ADDR.MAIN
-	INCLUDE 'src/bios/ROM/SETUP/MAIN.asm'
+	INCLUDE 'bios/ROM/SETUP/MAIN.asm'
 ;---------------------------------------
 ENDIF
@ -83,7 +81,7 @@
        DEFINE+ IsInBIOS 1
 	OUTPUT	'Build/Bin/EXP.BIN'
 		ShowInfo 'EXP block Start', 0                           ; !!!!! test
-		INCLUDE	'src/bios/EXP/EXP.asm'
+		INCLUDE	'bios/EXP/EXP.asm'
 		ShowInfo 'EXP block End', 0                             ; !!!!! test
 	OUTEND	
 ;---------------------------------------
@ -97,7 +95,7 @@
        DEFINE+ IsInBIOS 0
 	OUTPUT	'Build/Bin/ROM.BIN'
                ShowInfo 'ROM block Start', 0                           ; !!!!! test
-		INCLUDE 'src/bios/ROM/ROM.asm'
+		INCLUDE 'bios/ROM/ROM.asm'
                ShowInfo 'ROM block End', 0                             ; !!!!! test
 	OUTEND	
        UNDEFINE IsInBIOS
@ -135,7 +133,7 @@
 	MMU		1 e, 1						; áâà ¨æ  1 ¢ ¡ ªã 1 ¨ ¯à®¢¥àª    £à ¨æë.
 	ORG		ROM_MAP.LOGO
 	OUTPUT	'Build/Bin/LOGO.BIN'
-		INCLUDE 'src/bios/logo/Set_Pictures.asm'
+		INCLUDE 'bios/logo/Set_Pictures.asm'
 	OUTEND	
 ;---------------------------------------
 ;
--- a/src/bios/BUILD.a80
+++ b/src/bios/BUILD.a80
@ -2,7 +2,7 @@
 ;------------[LUA functions]------------;
 includelua 'Shared_Includes/LUA/Functions.lua'
 ;---------------------------------------;
-	DEFINE	PICTURE_FILE	'./src/bios/logo/psfathers.bmp'
+	DEFINE	PICTURE_FILE	'./bios/logo/psfathers.bmp'
 	LUA PASS1
@ -20,8 +20,8 @@
 */
        INCLUDE 'shared/defines.inc'
-        DEFINE  IMG_RECOVERY 'src/bios/shared/recovery.img'
+        DEFINE  IMG_RECOVERY 'bios/shared/recovery.img'
-        ;DEFINE  IMG_RECOVERY 'src/bios/shared/recovery_tst.img'
+        ;DEFINE  IMG_RECOVERY 'bios/shared/recovery_tst.img'
 ;
 ;[--------------------------------------------------------------------------]
@ -32,9 +32,9 @@
 	ENDM
 ;[--------------------------------------------------------------------------]
-        DEFINE SP_128_BIN   INCBIN 'src/ZX_ROMS/NEW/SP_128.BIN'
+        DEFINE SP_128_BIN   INCBIN 'ZX_ROMS/NEW/SP_128.BIN'
-        DEFINE SP__48_BIN   INCBIN 'src/ZX_ROMS/NEW/SP__48.BIN'
+        DEFINE SP__48_BIN   INCBIN 'ZX_ROMS/NEW/SP__48.BIN'
-        DEFINE SP_TRDOS_BIN INCBIN 'src/ZX_ROMS/NEW/SP_TRDOS.BIN'
+        DEFINE SP_TRDOS_BIN INCBIN 'ZX_ROMS/NEW/SP_TRDOS.BIN'
 ;[--------------------------------------------------------------------------]
 MACRO ROM_BUILD bitstream
--- a/src/bios/exp/BIOS_FUNC.asm
+++ b/src/bios/exp/BIOS_FUNC.asm
--- a/src/bios/exp/DCP.ASM
+++ b/src/bios/exp/DCP.ASM
--- a/src/bios/exp/EXP.asm
+++ b/src/bios/exp/EXP.asm
--- a/src/bios/exp/EXTENDED/FDD_DRIVER.asm
+++ b/src/bios/exp/EXTENDED/FDD_DRIVER.asm
--- a/src/bios/exp/EXTENDED/IDE/ATAPI_DRV.ASM
+++ b/src/bios/exp/EXTENDED/IDE/ATAPI_DRV.ASM
--- a/src/bios/exp/EXTENDED/IDE/ATA_DRV.ASM
+++ b/src/bios/exp/EXTENDED/IDE/ATA_DRV.ASM
--- a/src/bios/exp/EXTENDED/IDE/shared.asm
+++ b/src/bios/exp/EXTENDED/IDE/shared.asm
--- a/src/bios/exp/EXTENDED/RAM_DISK_DRIVER.asm
+++ b/src/bios/exp/EXTENDED/RAM_DISK_DRIVER.asm
--- a/src/bios/exp/FONT.ASM
+++ b/src/bios/exp/FONT.ASM
--- a/src/bios/exp/FUNC_4x.ASM
+++ b/src/bios/exp/FUNC_4x.ASM
--- a/src/bios/exp/FUNC_5x.asm
+++ b/src/bios/exp/FUNC_5x.asm
--- a/src/bios/exp/FUNC_CMOS.ASM
+++ b/src/bios/exp/FUNC_CMOS.ASM
--- a/src/bios/exp/FUNC_FOR_TRDOS.ASM
+++ b/src/bios/exp/FUNC_FOR_TRDOS.ASM
--- a/src/bios/exp/FUNC_LOW_PRINT.ASM
+++ b/src/bios/exp/FUNC_LOW_PRINT.ASM
--- a/src/bios/exp/FUNC_RAM_ROM_DRV.ASM
+++ b/src/bios/exp/FUNC_RAM_ROM_DRV.ASM
--- a/src/bios/exp/FUNC_SCREEN.ASM
+++ b/src/bios/exp/FUNC_SCREEN.ASM
--- a/src/bios/exp/FUNC_SERVICE.asm
+++ b/src/bios/exp/FUNC_SERVICE.asm
--- a/src/bios/exp/FUNC_SYS.ASM
+++ b/src/bios/exp/FUNC_SYS.ASM
--- a/src/bios/exp/ZX_MEM.TXT
+++ b/src/bios/exp/ZX_MEM.TXT
--- a/src/bios/loader/bitstream_header.inc
+++ b/src/bios/loader/bitstream_header.inc
--- a/src/bios/loader/loader.asm
+++ b/src/bios/loader/loader.asm
@ -143,7 +143,7 @@
 .STRING:	DB	ACEX.RELOAD_STRING
-.Conf_header:           include 'src/bios/Loader/bitstream_header.inc'
+.Conf_header:           include 'bios/Loader/bitstream_header.inc'
 .Conf_header.length     EQU $-.Conf_header
 ;----------------------;
--- a/src/bios/logo/Projects/LOGO.PAK
+++ b/src/bios/logo/Projects/LOGO.PAK
--- a/src/bios/logo/Projects/LOGO.bmp
+++ b/src/bios/logo/Projects/LOGO.bmp
--- a/src/bios/logo/Projects/MAIN.xcf
+++ b/src/bios/logo/Projects/MAIN.xcf
--- a/src/bios/logo/Projects/NY_Kokoshnik.PAK
+++ b/src/bios/logo/Projects/NY_Kokoshnik.PAK
--- a/src/bios/logo/Projects/NY_Kokoshnik.bmp
+++ b/src/bios/logo/Projects/NY_Kokoshnik.bmp
--- a/src/bios/logo/Projects/NY_mustache.PAK
+++ b/src/bios/logo/Projects/NY_mustache.PAK
--- a/src/bios/logo/Projects/NY_mustache.bmp
+++ b/src/bios/logo/Projects/NY_mustache.bmp
--- a/src/bios/logo/Projects/test.png
+++ b/src/bios/logo/Projects/test.png
--- a/src/bios/logo/Set_Pictures.asm
+++ b/src/bios/logo/Set_Pictures.asm
@ -101,8 +101,8 @@ days_table:
 .November	EQU		0
 .December:	DZ		31
-NewYear:	INCLUDE	'./src/bios/logo/use/New_Year.inc'
+NewYear:	INCLUDE	'./bios/logo/use/New_Year.inc'
-;.March8:	INCLUDE	'./src/bios/logo/use/March_8.inc'
+;.March8:	INCLUDE	'./bios/logo/use/March_8.inc'
 ENDIF
--- a/src/bios/logo/clean.cmd
+++ b/src/bios/logo/clean.cmd
--- a/src/bios/logo/compile.log
+++ b/src/bios/logo/compile.log
--- a/src/bios/logo/make.cmd
+++ b/src/bios/logo/make.cmd
--- a/src/bios/logo/peters.bmp
+++ b/src/bios/logo/peters.bmp
--- a/src/bios/logo/pfathers.bmp
+++ b/src/bios/logo/pfathers.bmp
--- a/src/bios/logo/psclean.bmp
+++ b/src/bios/logo/psclean.bmp
--- a/src/bios/logo/psfathers.bmp
+++ b/src/bios/logo/psfathers.bmp
--- a/src/bios/logo/use/LOGO.bmp
+++ b/src/bios/logo/use/LOGO.bmp
--- a/src/bios/logo/use/NY_Kokoshnik.bmp
+++ b/src/bios/logo/use/NY_Kokoshnik.bmp
--- a/src/bios/logo/use/NY_Kokoshnik_DAT.BIN
+++ b/src/bios/logo/use/NY_Kokoshnik_DAT.BIN
--- a/src/bios/logo/use/NY_mustache.bmp
+++ b/src/bios/logo/use/NY_mustache.bmp
--- a/src/bios/logo/use/NY_mustache_DAT.BIN
+++ b/src/bios/logo/use/NY_mustache_DAT.BIN
--- a/bios/logo/use/New_Year.inc
+++ b/bios/logo/use/New_Year.inc
@ -0,0 +1,16 @@
 MODULE _mNewYear
  LUA PASS1
 	make_pic_files ("./bios/logo/use/NY_Kokoshnik", 0, 1)
 	make_pic_files ("./bios/logo/use/NY_mustache", 0, 1)
 	print()
  ENDLUA
 	BYTE	2				; ª®«¨ç¥áâ¢® á¯à ©â®¢
 	EasterTable	48, 42, 13, 2, sprite1
 	EasterTable 37, 6, 69, 26, sprite2
 sprite1:	INCBIN './bios/logo/use/NY_Kokoshnik_DAT.bin'
 sprite2:	INCBIN './bios/logo/use/NY_mustache_DAT.bin'
 ENDMODULE
 ;
--- a/src/bios/mem_map.txt
+++ b/src/bios/mem_map.txt
--- a/src/bios/rom/BIOS.inc
+++ b/src/bios/rom/BIOS.inc
--- a/src/bios/rom/MEM_MAP.inc
+++ b/src/bios/rom/MEM_MAP.inc
--- a/src/bios/rom/ROM.asm
+++ b/src/bios/rom/ROM.asm
@ -194,7 +194,7 @@ SETUP_MAIN:
 DEPACK_DATA:
                DISP   DEPACKER.WorkAddr
                MODULE UnPacker
-                 INCLUDE 'src/bios/ROM/SETUP/DEHRUST.asm'                ; !TODO á¤¥« âì   LUA  ¢â®¢ë¡®à ¤¥ª®¬¯à¥áá®à  ¨ ª®¬¯à¥áá®à 
+                 INCLUDE 'bios/ROM/SETUP/DEHRUST.asm'                ; !TODO á¤¥« âì   LUA  ¢â®¢ë¡®à ¤¥ª®¬¯à¥áá®à  ¨ ª®¬¯à¥áá®à 
 PackedMAIN:      INCBIN 'Build/Bin/temp/MAIN.PAK'
                ENDMODULE
                ENT
@ -205,7 +205,7 @@ DEPACK_DATA.length      EQU $-DEPACK_DATA
        ELSE
                DISP COMPILE_ADDR.SETUP
                 ShowInfo 'Setup block DISP start', 1            ; !!!!! test
-SETUP_MAIN:      INCLUDE 'src/bios/ROM/SETUP/Main.asm'
+SETUP_MAIN:      INCLUDE 'bios/ROM/SETUP/Main.asm'
 SETUP_MAIN.Size	 EQU	$-SETUP_MAIN
                 ShowInfo 'Setup block DISP end', 1              ; !!!!! test
                ENT
--- a/src/bios/rom/SETUP/AUTOIDE.asm
+++ b/src/bios/rom/SETUP/AUTOIDE.asm
--- a/src/bios/rom/SETUP/IM2_INT.asm
+++ b/src/bios/rom/SETUP/IM2_INT.asm
--- a/src/bios/rom/SETUP/KEY.asm
+++ b/src/bios/rom/SETUP/KEY.asm
--- a/src/bios/rom/SETUP/MAIN.asm
+++ b/src/bios/rom/SETUP/MAIN.asm
@ -48,7 +48,7 @@
 ;  ENCODING "DOS"
  DEVICE	ZXSPECTRUM4096                                          ; ¬®¤¥«ì á 4 ¬¥âà ¬¨ ¯ ¬ïâ¨
  MMU		2 e, 0                                                  ; áâà ¨æ  0 ¢ ¡ ªã 2 ¨ ¯à®¢¥àª    £à ¨æë.
-  INCLUDE 'src/bios/shared/includes.inc'
+  INCLUDE 'bios/shared/includes.inc'
  ORG	COMPILE_ADDR.MAIN
  OUTPUT 'Build/Bin/temp/MAIN.BIN'
 ENDIF
@ -1845,7 +1845,7 @@ init_zx_roms:	DI
 ;---------------------------------------
- INCLUDE 'src/bios/ROM/SETUP/messages.z80'
+ INCLUDE 'bios/ROM/SETUP/messages.z80'
 ;---------------------------------------
 ;
@ -1873,7 +1873,7 @@ STACK           EQU #C000
 	DISPLAY '-----[Set_Pictures Prebuild start]-----'
 	MMU		1 e, 0						; áâà ¨æ  0 ¢ ¡ ªã 0 ¨ ¯à®¢¥àª    £à ¨æë.
 	ORG		ROM_MAP.LOGO
-	INCLUDE 'src/bios/logo/Set_Pictures.asm'
+	INCLUDE 'bios/logo/Set_Pictures.asm'
 	DISPLAY '-----[Set_Pictures Prebuild done ]-----'
 ELSE
 MAIN_END_CODE_ADDRESS	EQU	$-1
--- a/src/bios/rom/SETUP/SETTINGS.asm
+++ b/src/bios/rom/SETUP/SETTINGS.asm
--- a/src/bios/rom/SETUP/VIDEO_IO.asm
+++ b/src/bios/rom/SETUP/VIDEO_IO.asm
--- a/src/bios/rom/SETUP/messages.z80
+++ b/src/bios/rom/SETUP/messages.z80
--- a/src/bios/rom/SETUP/startup_sound.asm
+++ b/src/bios/rom/SETUP/startup_sound.asm
--- a/src/bios/rom/ZX/ZX_FUNC.ASM
+++ b/src/bios/rom/ZX/ZX_FUNC.ASM
--- a/src/bios/rom/ZX/ZX_MENU.ASM
+++ b/src/bios/rom/ZX/ZX_MENU.ASM
--- a/src/bios/rom/_not_used/DEHRUST.asm
+++ b/src/bios/rom/_not_used/DEHRUST.asm
--- a/src/bios/rom/_not_used/EasterSprites.asm
+++ b/src/bios/rom/_not_used/EasterSprites.asm
--- a/src/bios/rom/_not_used/LZ4_DEC.asm
+++ b/src/bios/rom/_not_used/LZ4_DEC.asm
--- a/src/bios/rom/_not_used/Logo_Depacker.asm
+++ b/src/bios/rom/_not_used/Logo_Depacker.asm
--- a/src/bios/rom/_not_used/ayfxplay.asm
+++ b/src/bios/rom/_not_used/ayfxplay.asm
--- a/src/bios/rom/_not_used/netherworld_8.afx
+++ b/src/bios/rom/_not_used/netherworld_8.afx
--- a/src/bios/shared/CompMacro.asm
+++ b/src/bios/shared/CompMacro.asm
--- a/src/bios/shared/DEFINES.INC
+++ b/src/bios/shared/DEFINES.INC
@ -10,7 +10,7 @@ RELEASEhotFIX	EQU			2			;
 DEFINE		SP2000_Loader_Flag	#0107			;
 DEFINE		IDE_Optimization	1			; á«¥£ª  ®¯â¨¬¨§¨àã¥â ¥ª®â®àë¥ ¯à®æ¥¤ãàë à ¡®âë á HDD
 DEFINE		NeedSafePort_Y		1			; ¥á«¨ 0, â® ¢ à¥¦¨¬¥ ¡¥§  ªá¥«ï ¥ª®â®àë¥ ¯à®æ¥¤ãàë ¬®£ãâ § áà âì íªà 
- DEFINE		PICTURE_FILE './src/bios/logo/psfathers.bmp'	;
+ DEFINE		PICTURE_FILE './bios/logo/psfathers.bmp'	;
 DEFINE		StandartCGApallete	1			; <20>®¤ª«îç âì ¯ «¨âàã ¨§ standart_colors.inc
 DEFINE		BitStream_SizeInPages	4			;
 DEFINE		USE_E1_SCANCODE		0			;
--- a/src/bios/shared/RECOVERY.IMG
+++ b/src/bios/shared/RECOVERY.IMG
--- a/src/bios/shared/VERSION.inc
+++ b/src/bios/shared/VERSION.inc
--- a/src/bios/shared/includes.inc
+++ b/src/bios/shared/includes.inc
@ -1,17 +1,17 @@
 ;
 ;---------[All shared includes]---------
-	INCLUDE 'src/bios/shared/DEFINES.INC'                           ; Shared defines
+	INCLUDE 'bios/shared/DEFINES.INC'                           ; Shared defines
 	INCLUDE 'Shared_Includes/structures/FileSystem.inc'
 	INCLUDE 'Shared_Includes/structures/ATA_ATAPI.inc'
-	INCLUDE 'src/bios/Loader/Loader.asm'                            ; Bitstream loader as macros
+	INCLUDE 'bios/Loader/Loader.asm'                            ; Bitstream loader as macros
-	INCLUDE 'src/bios/shared/CompMacro.asm'                         ; ¬ ªà®áë
+	INCLUDE 'bios/shared/CompMacro.asm'                         ; ¬ ªà®áë
 	INCLUDE 'Shared_Includes/constants/SP2000.inc'                  ; ª®áâ âë
 	INCLUDE 'Shared_Includes/constants/zx_char_codes.inc'           ; ª®áâ âë
 	INCLUDE 'Shared_Includes/constants/zx_vars.inc'			; 
 	INCLUDE 'Shared_Includes/macroses/macros.z80'
-	INCLUDE 'src/bios/ROM/MEM_MAP.inc'                              ; ª àâ  ¯ ¬ïâ¨
+	INCLUDE 'bios/ROM/MEM_MAP.inc'                              ; ª àâ  ¯ ¬ïâ¨
-	INCLUDE 'src/bios/shared/VERSION.inc'                           ; ‚¥àá¨ï EXP ¨ ROM
+	INCLUDE 'bios/shared/VERSION.inc'                           ; ‚¥àá¨ï EXP ¨ ROM
 	INCLUDE 'Shared_Includes/constants/BIOS_EQU.inc'
-	INCLUDE 'src/bios/ROM/BIOS.inc'	
+	INCLUDE 'bios/ROM/BIOS.inc'	
 ;---------------------------------------
 ;
--- a/src/doc/CDLOADER.TXT
+++ b/src/doc/CDLOADER.TXT
--- a/src/doc/SETUP.REV
+++ b/src/doc/SETUP.REV
--- a/src/doc/_BIOS.REV
+++ b/src/doc/_BIOS.REV
--- a/src/doc/changes.txt
+++ b/src/doc/changes.txt
--- a/src/doc/перехваты
+++ b/src/doc/перехваты
--- a/src/altera/acex/k30/ACCELER.ACF
+++ b/src/altera/acex/k30/ACCELER.ACF
@ -1,568 +0,0 @@
 --
 --  Copyright (C) 1988-2000 Altera Corporation
 --  Any megafunction design, and related net list (encrypted or decrypted),
 --  support information, device programming or simulation file, and any other
 --  associated documentation or information provided by Altera or a partner
 --  under Altera's Megafunction Partnership Program may be used only to
 --  program PLD devices (but not masked PLD devices) from Altera.  Any other
 --  use of such megafunction design, net list, support information, device
 --  programming or simulation file, or any other related documentation or
 --  information is prohibited for any other purpose, including, but not
 --  limited to modification, reverse engineering, de-compiling, or use with
 --  any other silicon devices, unless such use is explicitly licensed under
 --  a separate agreement with Altera or a megafunction partner.  Title to
 --  the intellectual property, including patents, copyrights, trademarks,
 --  trade secrets, or maskworks, embodied in any such megafunction design,
 --  net list, support information, device programming or simulation file, or
 --  any other related documentation or information provided by Altera or a
 --  megafunction partner, remains with Altera, the megafunction partner, or
 --  their respective licensors.  No other licenses, including any licenses
 --  needed under any third party's intellectual property, are provided herein.
 --
 CHIP acceler
 BEGIN
 	DEVICE = EP1K30QC208-3;
 END;
 DEFAULT_DEVICES
 BEGIN
 	AUTO_DEVICE = EP1K100FC484-1;
 	AUTO_DEVICE = EP1K100FC256-1;
 	AUTO_DEVICE = EP1K100QC208-1;
 	AUTO_DEVICE = EP1K50FC484-1;
 	AUTO_DEVICE = EP1K50FC256-1;
 	AUTO_DEVICE = EP1K50QC208-1;
 	AUTO_DEVICE = EP1K50TC144-1;
 	AUTO_DEVICE = EP1K30FC256-1;
 	AUTO_DEVICE = EP1K30QC208-1;
 	AUTO_DEVICE = EP1K30TC144-1;
 	ASK_BEFORE_ADDING_EXTRA_DEVICES = ON;
 END;
 TIMING_POINT
 BEGIN
 	DEVICE_FOR_TIMING_SYNTHESIS = EP1K30QC208-3;
 	FREQUENCY = 200MHz;
 	MAINTAIN_STABLE_SYNTHESIS = OFF;
 	CUT_ALL_CLEAR_PRESET = ON;
 	CUT_ALL_BIDIR = ON;
 END;
 IGNORED_ASSIGNMENTS
 BEGIN
 	FIT_IGNORE_TIMING = OFF;
 	DEMOTE_SPECIFIC_LCELL_ASSIGNMENTS_TO_LAB_ASSIGNMENTS = OFF;
 	IGNORE_LOCAL_ROUTING_ASSIGNMENTS = OFF;
 	IGNORE_DEVICE_ASSIGNMENTS = OFF;
 	IGNORE_LC_ASSIGNMENTS = OFF;
 	IGNORE_PIN_ASSIGNMENTS = OFF;
 	IGNORE_CHIP_ASSIGNMENTS = OFF;
 	IGNORE_TIMING_ASSIGNMENTS = OFF;
 	IGNORE_LOGIC_OPTION_ASSIGNMENTS = OFF;
 	IGNORE_CLIQUE_ASSIGNMENTS = OFF;
 END;
 GLOBAL_PROJECT_DEVICE_OPTIONS
 BEGIN
 	MAX7000B_ENABLE_VREFB = OFF;
 	MAX7000B_ENABLE_VREFA = OFF;
 	MAX7000B_VCCIO_IOBANK2 = 3.3V;
 	MAX7000B_VCCIO_IOBANK1 = 3.3V;
 	CONFIG_EPROM_PULLUP_RESISTOR = ON;
 	CONFIG_EPROM_USER_CODE = FFFFFFFF;
 	FLEX_CONFIGURATION_EPROM = AUTO;
 	MAX7000AE_ENABLE_JTAG = ON;
 	MAX7000AE_USER_CODE = FFFFFFFF;
 	FLEX6000_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX10KA_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = ON;
 	FLEX10K_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX6000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME_FLEX_6000 = PASSIVE_SERIAL;
 	MULTIVOLT_IO = OFF;
 	MAX7000S_ENABLE_JTAG = ON;
 	FLEX10K_ENABLE_LOCK_OUTPUT = OFF;
 	MAX7000S_USER_CODE = FFFF;
 	CONFIG_SCHEME_10K = PASSIVE_SERIAL;
 	FLEX10K_JTAG_USER_CODE = 7F;
 	ENABLE_INIT_DONE_OUTPUT = OFF;
 	ENABLE_CHIP_WIDE_OE = OFF;
 	ENABLE_CHIP_WIDE_RESET = OFF;
 	nCEO = UNRESERVED;
 	CLKUSR = UNRESERVED;
 	ADD17 = UNRESERVED;
 	ADD16 = UNRESERVED;
 	ADD15 = UNRESERVED;
 	ADD14 = UNRESERVED;
 	ADD13 = UNRESERVED;
 	ADD0_TO_ADD12 = UNRESERVED;
 	SDOUT = RESERVED_DRIVES_OUT;
 	RDCLK = UNRESERVED;
 	RDYnBUSY = UNRESERVED;
 	nWS_nRS_nCS_CS = UNRESERVED;
 	DATA1_TO_DATA7 = UNRESERVED;
 	DATA0 = RESERVED_TRI_STATED;
 	FLEX8000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME = ACTIVE_SERIAL;
 	DISABLE_TIME_OUT = OFF;
 	ENABLE_DCLK_OUTPUT = OFF;
 	RELEASE_CLEARS = OFF;
 	AUTO_RESTART = OFF;
 	USER_CLOCK = OFF;
 	SECURITY_BIT = OFF;
 	RESERVED_PINS_PERCENT = 0;
 	RESERVED_LCELLS_PERCENT = 0;
 END;
 GLOBAL_PROJECT_SYNTHESIS_ASSIGNMENT_OPTIONS
 BEGIN
 	STYLE = FAST;
 	DEVICE_FAMILY = ACEX1K;
 	MULTI_LEVEL_SYNTHESIS_MAX9000 = ON;
 	AUTO_IMPLEMENT_IN_EAB = OFF;
 	AUTO_OPEN_DRAIN_PINS = ON;
 	ONE_HOT_STATE_MACHINE_ENCODING = OFF;
 	AUTO_REGISTER_PACKING = OFF;
 	AUTO_FAST_IO = OFF;
 	AUTO_GLOBAL_OE = ON;
 	AUTO_GLOBAL_PRESET = ON;
 	AUTO_GLOBAL_CLEAR = ON;
 	AUTO_GLOBAL_CLOCK = ON;
 	MULTI_LEVEL_SYNTHESIS_MAX5000_7000 = OFF;
 	OPTIMIZE_FOR_SPEED = 5;
 END;
 COMPILER_PROCESSING_CONFIGURATION
 BEGIN
 	USE_QUARTUS_FITTER = ON;
 	PRESERVE_ALL_NODE_NAME_SYNONYMS = OFF;
 	FITTER_SETTINGS = NORMAL;
 	SMART_RECOMPILE = OFF;
 	GENERATE_AHDL_TDO_FILE = OFF;
 	RPT_FILE_USER_ASSIGNMENTS = ON;
 	RPT_FILE_LCELL_INTERCONNECT = ON;
 	RPT_FILE_HIERARCHY = ON;
 	RPT_FILE_EQUATIONS = ON;
 	LINKED_SNF_EXTRACTOR = OFF;
 	OPTIMIZE_TIMING_SNF = OFF;
 	TIMING_SNF_EXTRACTOR = ON;
 	FUNCTIONAL_SNF_EXTRACTOR = OFF;
 	DESIGN_DOCTOR_RULES = EPLD;
 	DESIGN_DOCTOR = OFF;
 END;
 COMPILER_INTERFACES_CONFIGURATION
 BEGIN
 	NETLIST_OUTPUT_TIME_SCALE = 0.1ns;
 	EDIF_INPUT_SHOW_LMF_MAPPING_MESSAGES = OFF;
 	EDIF_BUS_DELIMITERS = [];
 	EDIF_FLATTEN_BUS = OFF;
 	EDIF_OUTPUT_FORCE_0NS_DELAYS = OFF;
 	EDIF_OUTPUT_INCLUDE_SPECIAL_PRIM = OFF;
 	EDIF_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	EDIF_OUTPUT_DELAY_CONSTRUCTS = EDO_FILE;
 	EDIF_OUTPUT_USE_EDC = OFF;
 	EDIF_INPUT_USE_LMF2 = OFF;
 	EDIF_INPUT_USE_LMF1 = OFF;
 	EDIF_OUTPUT_GND = GND;
 	EDIF_OUTPUT_VCC = VCC;
 	EDIF_INPUT_GND = GND;
 	EDIF_INPUT_VCC = VCC;
 	EDIF_OUTPUT_EDC_FILE = *.edc;
 	EDIF_INPUT_LMF2 = *.lmf;
 	EDIF_INPUT_LMF1 = *.lmf;
 	VHDL_GENERATE_CONFIGURATION_DECLARATION = OFF;
 	VHDL_OUTPUT_DELAY_CONSTRUCTS = VHO_FILE;
 	VERILOG_OUTPUT_DELAY_CONSTRUCTS = VO_FILE;
 	VHDL_FLATTEN_BUS = OFF;
 	VERILOG_FLATTEN_BUS = OFF;
 	EDIF_TRUNCATE_HIERARCHY_PATH = OFF;
 	VHDL_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	VHDL_WRITER_VERSION = VHDL87;
 	VHDL_READER_VERSION = VHDL87;
 	SYNOPSYS_MAPPING_EFFORT = MEDIUM;
 	SYNOPSYS_BOUNDARY_OPTIMIZATION = OFF;
 	SYNOPSYS_HIERARCHICAL_COMPILATION = ON;
 	SYNOPSYS_DESIGNWARE = OFF;
 	SYNOPSYS_COMPILER = DESIGN;
 	USE_SYNOPSYS_SYNTHESIS = OFF;
 	VHDL_NETLIST_WRITER = OFF;
 	VERILOG_NETLIST_WRITER = OFF;
 	XNF_GENERATE_AHDL_TDX_FILE = ON;
 	XNF_TRANSLATE_INTERNAL_NODE_NAMES = ON;
 	XNF_EMULATE_TRI_STATE_BUSES = INTERNAL_LOGIC;
 	EDIF_OUTPUT_VERSION = 200;
 	EDIF_NETLIST_WRITER = OFF;
 END;
 CUSTOM_DESIGN_DOCTOR_RULES
 BEGIN
 	MASTER_RESET = OFF;
 	EXPANDER_NETWORKS = ON;
 	RACE_CONDITIONS = ON;
 	DELAY_CHAINS = ON;
 	ASYNCHRONOUS_INPUTS = ON;
 	PRESET_CLEAR_NETWORKS = ON;
 	STATIC_HAZARDS_AFTER_SYNTHESIS = OFF;
 	STATIC_HAZARDS_BEFORE_SYNTHESIS = ON;
 	MULTI_CLOCK_NETWORKS = ON;
 	MULTI_LEVEL_CLOCKS = ON;
 	GATED_CLOCKS = ON;
 	RIPPLE_CLOCKS = ON;
 END;
 SIMULATOR_CONFIGURATION
 BEGIN
 	END_TIME = 5.0us;
 	BIDIR_PIN = STRONG;
 	START_TIME = 0.0ns;
 	GLITCH_TIME = 0.0ns;
 	GLITCH = OFF;
 	OSCILLATION_TIME = 0.0ns;
 	OSCILLATION = OFF;
 	CHECK_OUTPUTS = OFF;
 	SETUP_HOLD = OFF;
 	USE_DEVICE = OFF;
 END;
 TIMING_ANALYZER_CONFIGURATION
 BEGIN
 	ANALYSIS_MODE = REGISTERED_PERFORMANCE;
 	CUT_OFF_RAM_REGISTERED_WE_PATHS = OFF;
 	LIST_PATH_FREQUENCY = 10MHz;
 	LIST_PATH_COUNT = 10;
 	REGISTERED_PERFORMANCE_OPTIONS = NUMBER_OF_PATHS;
 	INCLUDE_PATHS_LESS_THAN_VALUE = 214.7483647ms;
 	INCLUDE_PATHS_LESS_THAN = OFF;
 	INCLUDE_PATHS_GREATER_THAN_VALUE = 0.0ns;
 	INCLUDE_PATHS_GREATER_THAN = OFF;
 	DELAY_MATRIX_OPTIONS = SHOW_ALL_PATHS;
 	CELL_WIDTH = 18;
 	LIST_ONLY_LONGEST_PATH = ON;
 	CUT_OFF_CLEAR_AND_PRESET_PATHS = ON;
 	CUT_OFF_IO_PIN_FEEDBACK = ON;
 	AUTO_RECALCULATE = OFF;
 END;
 OTHER_CONFIGURATION
 BEGIN
 	LAST_MAXPLUS2_VERSION = 10.0;
 	ROW_PINS_LCELL_INSERT = ON;
 	CARRY_OUT_PINS_LCELL_INSERT = OFF;
 	NORMAL_LCELL_INSERT = ON;
 	EXPLICIT_FAMILY = 1;
 	FLEX_10K_52_COLUMNS = 40;
 	DEFAULT_9K_EXP_PER_LCELL = 1/2;
 	LOCAL_INTERCONNECT_PER_LAB_PERCENT = 100;
 	LCELLS_PER_ROW_PERCENT = 100;
 	FAN_IN_PER_LCELL_PERCENT = 100;
 	EXP_PER_LCELL_PERCENT = 100;
 	ROW_PINS_PERCENT = 50;
 	ORIGINAL_MAXPLUS2_VERSION = 9.6;
 	COMPILER_DATA = "1,1,0,1,0,0,0,1,1,1,1,0,1,1,1";
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 	MINIMIZATION = FULL;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 	MINIMIZATION = FULL;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	PARALLEL_EXPANDERS = ON;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 	MINIMIZATION = FULL;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.FLEX8000
 BEGIN
 	CARRY_CHAIN_LENGTH = 32;
 	CASCADE_CHAIN_LENGTH = 2;
 	REGISTER_OPTIMIZATION = ON;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	CARRY_CHAIN = AUTO;
 	CASCADE_CHAIN = AUTO;
 	MINIMIZATION = FULL;
 	IGNORE_SOFT_BUFFERS = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = MANUAL;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = MANUAL;
 END;
--- a/src/altera/acex/k30/ACCELER.INC
+++ b/src/altera/acex/k30/ACCELER.INC
@ -1,26 +0,0 @@
 -- Copyright (C) 1988-2000 Altera Corporation
 -- Any megafunction design, and related net list (encrypted or decrypted),
 -- support information, device programming or simulation file, and any other
 -- associated documentation or information provided by Altera or a partner
 -- under Altera's Megafunction Partnership Program may be used only to
 -- program PLD devices (but not masked PLD devices) from Altera.  Any other
 -- use of such megafunction design, net list, support information, device
 -- programming or simulation file, or any other related documentation or
 -- information is prohibited for any other purpose, including, but not
 -- limited to modification, reverse engineering, de-compiling, or use with
 -- any other silicon devices, unless such use is explicitly licensed under
 -- a separate agreement with Altera or a megafunction partner.  Title to
 -- the intellectual property, including patents, copyrights, trademarks,
 -- trade secrets, or maskworks, embodied in any such megafunction design,
 -- net list, support information, device programming or simulation file, or
 -- any other related documentation or information provided by Altera or a
 -- megafunction partner, remains with Altera, the megafunction partner, or
 -- their respective licensors.  No other licenses, including any licenses
 -- needed under any third party's intellectual property, are provided herein.
 -- MAX+plus II Include File
 -- Version 10.0 9/14/2000
 -- Created: Fri Jan 25 12:59:19 2002
 FUNCTION acceler (clk42, /reset, ct[2..0], ras, cas, clk_z80, mc_end, mc_begin, mc_type, mc_write, ai[15..0], di[7..0], /io, /rd, /wr, /mr, /rf, /m1, /iom, dcp[7..0], mdi[15..0], acc_ena, hddr[7..0], hdd_flip)
    RETURNS (continue, ao[15..0], do[7..0], mdo[15..0], md[7..0], g_line[7..0], glisser, acc_on, double_cas, acc_dir[7..0]);
--- a/src/altera/acex/k30/ACCELER.TDF
+++ b/src/altera/acex/k30/ACCELER.TDF
@ -1,374 +0,0 @@
 	TITLE "ACCELERATOR";
 INCLUDE "lpm_ram_dp";
 SUBDESIGN acceler
 	(
 	CLK42		: INPUT;
 	/RESET		: INPUT;
 	CT[2..0]	: INPUT;
 	RAS			: INPUT;
 	CAS			: INPUT;
 	CLK_Z80		: INPUT;
 	CONTINUE	: OUTPUT;
 	MC_END		: INPUT;
 	MC_BEGIN	: INPUT;
 	MC_TYPE		: INPUT;
 	MC_WRITE	: INPUT;
 --	MCA[1..0]	: INPUT;
 	AI[15..0]	: INPUT;
 	DI[7..0]	: INPUT;
 	AO[15..0]	: OUTPUT;
 	DO[7..0]	: OUTPUT;
 	/IO			: INPUT;
 	/RD			: INPUT;
 	/WR			: INPUT;
 	/MR			: INPUT;
 	/RF			: INPUT;
 	/M1			: INPUT;
 	/IOM		: INPUT;
 	DCP[7..0]	: INPUT;
 	MDI[15..0]	: INPUT;
 	MDO[15..0]	: OUTPUT;
 	MD[7..0]	: OUTPUT;
 	G_LINE[7..0]: OUTPUT;
 	GLISSER		: OUTPUT;
 	ACC_ON		: OUTPUT;
 	ACC_ENA		: INPUT;
 	DOUBLE_CAS	: OUTPUT;
 	HDDR[7..0]	: INPUT;
 	HDD_FLIP	: INPUT;
 	ACC_DIR[7..0]	: OUTPUT;
 	)
 VARIABLE
 	RAM			: LPM_RAM_DP WITH (LPM_WIDTH=16,LPM_WIDTHAD=8);
 	DO[7..0]	: DFFE;
 	MDO[15..0]	: DFFE;
 	PRF_CMD		: DFFE;
 	ED_CMD		: DFFE;
 	CB_CMD		: DFFE;
 	ID_CMD		: DFFE;
 	IN_OUT_CMD	: DFFE;
 	CORRECT_1F	: NODE;
 	ACC_BLK		: DFF;
 	RETI		: DFFE;
 	RETN		: DFFE;
 	AA[15..0]	: DFFE;
 	RGACC[7..0]	: DFFE;
 	AGR[7..0]	: DFFE;
 	ACC_CNT[7..0] : DFFE;
 	START_ACC	: NODE;
 	ACC_END		: DFFE;
 	FN_ACC[2..0]: DFFE;
 	ACC_MODE[3..0]	: DFFE;
 	MD[7..0]	: LCELL;
 	XMD[7..0]	: DFF;
 	XMDH[7..0]	: DFF;
 	ACC_DIR[7..0]	: LCELL;
 	/M1M		: NODE;
 	ACC_GO		: NODE;
 	ACC_GO_1	: NODE;
 	RAM_WR		: NODE;
 	STATE_EI	: DFFE;
 --	HDDR[7..0]	: DFFE;
 	XAGR[7..0]		: DFFE;
 	AAGR[9..0]		: DFFE;
 	XCNT[7..0]		: DFFE;
 	ALT_ACC			: NODE;
 	RAM_ADR[7..0]	: NODE;
 	ACC_C		: NODE;
 	WR_C7		: NODE;
 	XCNT_AGR[15..0]	: NODE;
 	MDOX[7..0]	: DFF;
 	MDOY[7..0]	: DFF;
 	GLISS_R		: DFF;
 	ACC_TIME	: NODE;
 BEGIN
 	ACC_ON		= ACC_DIR0;
 	/M1M		= DFF(!/M1,CLK_Z80,/RESET,);
 	PRF_CMD.clk		= /MR;
 	PRF_CMD.ena		= /M1M;
 	PRF_CMD.d		= (DI[] == B"11XX1XX1") &
 							   ((DI[] == B"XX00X01X") or  -- CB
 					  			(DI[] == B"XX01X10X") or  -- DD
 					  			(DI[] == B"XX10X10X") or  -- ED
 					  			(DI[] == B"XX11X10X"));	  -- FD
 --	=== interrupt === 0 - disable; 1 - enable
 	STATE_EI.clk	= /MR;
 	STATE_EI.ena	= /M1M & !PRF_CMD & (DI[] == B"1111X011");
 	STATE_EI.d		= DI3;
 --	RETI comand
 	ED_CMD.clk		= /MR;
 	ED_CMD.ena		= /M1M;
 	ED_CMD.d		= (DI[] == H"ED");
 	RETI.clk		= /MR;
 	RETI.ena		= /M1M;
 	RETI.d			= ED_CMD & (DI[] == H"4D");
 --	"1" on the RETI triger is the end of interupt sycle.
 	RETN.clk		= /MR;
 	RETN.ena		= /M1M;
 	RETN.d			= ED_CMD & (DI[] == H"45");
 --	The end of NMI sycle.
 	ACC_BLK.clk		= /M1;
 	ACC_BLK.d		= DFF(((/IO & ACC_BLK) or (!ACC_BLK & RETI)),CLK_Z80,,);
 	ACC_BLK.prn		= /RESET & ACC_MODE3;
 	CB_CMD.clk		= /MR;
 	ID_CMD.clk		= /MR;
 	CB_CMD.ena		= /M1M;
 	ID_CMD.ena		= /M1M;
 	CB_CMD.d		= (DI[] == H"CB");
 	ID_CMD.d		= (DI[] == B"11X11101");
 	IN_OUT_CMD.clk	= /MR;
 	IN_OUT_CMD.ena	= /M1M;
 	IN_OUT_CMD.d	= (DI[] == B"1101X011") & !PRF_CMD;  -- D3/DB
 	IN_OUT_CMD.clrn	= /IO;
 	CORRECT_1F		= LCELL(IN_OUT_CMD & (DO[] == H"1F") & !/MR & !/RD);
 	DO[4..3].clrn	= !CORRECT_1F;
 	ACC_GO			= DFFE((CAS or START_ACC),CLK42,,(!/MR & /M1),CT1);
 	ACC_GO_1		= DFF(ACC_GO,CLK42,,);
 --	== accelerator number ==
 	RGACC[].clk		= /MR;
 	RGACC[].ena		= DFF((/M1 & /RF & ACC_DIR3),CLK_Z80,,);
 	RGACC[].d 		= DI[];
 --  == accelerator grafic line ==
 	AGR[].clk	= CLK42;
 	AGR[].ena	= !DFF((/IOM or /WR or !DFF((DCP[] == B"1100X100"),CLK42,,)),CLK42,,) or
 					!(!ACC_DIR4 or ACC_GO or !ACC_GO_1);
 	CASE DFF(START_ACC,CLK42,,) IS
 		WHEN 0 => AGR[].d = AGR[] + 1;
 		WHEN 1 => AGR[].d = DI[];
 	END CASE;
 	AGR[].clrn	= /RESET;
 	G_LINE[]	= AGR[];
 --  == accelerator counter ==
 	ACC_C			= (!ACC_GO & DFF(((CT0 & !/RD) or (CT1 & !/WR)),CLK42,,));
 	ACC_CNT[].clk	= CLK42;
 --	ACC_CNT[].ena	= START_ACC or (ACC_C & ACC_DIR2);
 	ACC_CNT[].ena	= LCELL(START_ACC or (ACC_C & ACC_DIR2));
 	CASE DFF(START_ACC,CLK42,,) IS
 		WHEN 1 => ACC_CNT[].d = RGACC[];
 		WHEN 0 => ACC_CNT[].d = ACC_CNT[] - 1;
 	END CASE;
 	WR_C7	= DFF((/IOM or DFF(!/IOM,CLK42,,) or /WR or DFF(!(DCP[] == B"1100X111"),CLK42,,)),CLK42,,);
 	ALT_ACC	= DFF(VCC,WR_C7,/RESET,);
 	(AAGR[].ena,XCNT[].ena,XAGR[].ena)	= LCELL(!WR_C7 or (ACC_DIR1 & ACC_C));
 	(AAGR[].clk,XCNT[].clk,XAGR[].clk)	= CLK42;
 	XCNT_AGR[15..0] = (XCNT[],XAGR[]) + (B"000000",AAGR[]);
 	CASE !DFF(START_ACC,CLK42,,) IS
 		WHEN 1 => AAGR[].d	= AAGR[];
 				  (XCNT[].d,XAGR[].d) = XCNT_AGR[15..0];
 		WHEN 0 => AAGR[].d = (AI9,AI8,DI[]);
 				  (XCNT[].d,XAGR[].d) = (B"00",AI[15..10],B"00000000");
 	END CASE;
 --	== accelerator dir ==
 	START_ACC = LCELL(LCELL(/MR or !/M1 or !/RF or !ACC_BLK) or (!ACC_DIR0 or MC_TYPE));
 	DOUBLE_CAS= LCELL(ACC_DIR6 & !START_ACC);
 	ACC_END.clk	= CLK42;
 	ACC_END.ena	= !ACC_GO & ACC_GO_1;
 	ACC_END.prn	= /M1;
 	ACC_END.d	= (ACC_CNT[] == 1) or !ACC_DIR2;
 	CONTINUE	= ACC_END;
 	CASE ACC_MODE[2..0] IS
 		WHEN 0 => ACC_DIR[] = B"00000000"; % LD B,B %
 		WHEN 1 => ACC_DIR[] = B"00100101"; % LD C,C % % fill by constant %
 		WHEN 2 => ACC_DIR[] = B"00001001"; % LD D,D % % load count accelerator %
 		WHEN 3 => ACC_DIR[] = B"00010101"; % LD E,E % % fill by constant VERTICAL %
 		WHEN 4 => ACC_DIR[] = B"01000001"; % LD H,H % % duble byte fn %
 		WHEN 5 => ACC_DIR[] = B"00100111"; % LD L,L % % copy line %
 		WHEN 6 => ACC_DIR[] = B"00000000"; % HALT   %
 		WHEN 7 => ACC_DIR[] = B"00010111"; % LD A,A % % copy line VERTICAL %
 	END CASE;
 --	== accelerator mode ==
 	ACC_MODE[].clk	= /MR;
 	ACC_MODE[].ena	= DFF((!/M1 & !PRF_CMD &
 								  LCELL((DI[] == B"XXX00X00") or
 		  	   				 			(DI[] == B"XXX01X01") or
 			   				 			(DI[] == B"XXX10X10") or
 			   				 			(DI[] == B"XXX11X11")) &
 								  LCELL((DI[] == B"010XX0XX") or
 							 			(DI[] == B"011XX1XX"))),CLK_Z80,,);
 	ACC_MODE[].d = (VCC,DI[2..0]);
 	ACC_MODE[2..0].clrn	= /RESET & ACC_ENA;
 	ACC_MODE[3].clrn = /RESET & !DFF(ACC_MODE3,CLK_Z80,,);
 --  == accelerator datas ==
 	CASE DFFE(AA0,CLK42,,,(CT2 & CT1)) IS
 		WHEN 0 => MD[] = MDI[7..0];
 --				  GLISSER = DFF((MDO[7..0] == H"FF"),CLK42,,);
 		WHEN 1 => MD[] = MDI[15..8];
 --				  GLISSER = DFF((MDO[15..8] == H"FF"),CLK42,,);
 	END CASE;
 	GLISS_R.clk	= CLK42;
 	CASE ACC_DIR1 IS
 		WHEN 0 => GLISS_R = LCELL(DI[] == H"FF");
 		WHEN 1 => GLISS_R = LCELL(RAM.q[7..4] == H"F") & LCELL(RAM.q[3..0] == H"F");
 	END CASE;
 	GLISSER	= GLISS_R;
 --	MDO[].clk	= !CLK42;
 	MDO[].clk	= CLK42;
 	MDO[].ena	= CAS;
 	MDOX[].clk	= CLK42;
 	MDOY[].clk	= CLK42;
 	CASE LCELL(MC_END & HDD_FLIP) IS
 		WHEN 0 => MDOX[7..0] = DI[];
 		WHEN 1 => MDOX[7..0] = HDDR[];
 	END CASE;
 	CASE ACC_DIR6 IS
 		WHEN 0 => MDOY[7..0] = DI[];
 		WHEN 1 => MDOY[7..0] = HDDR[];
 	END CASE;
 	CASE LCELL(/IO & ACC_DIR1) IS
 		WHEN 0 => MDO[].d = (MDOY[],MDOX[]);
 		WHEN 1 => MDO[].d = (RAM.q[7..0],RAM.q[7..0]);
 	END CASE;
 	DO[].clk		= DFF(MC_END,!CLK42,,);
 --	DO[].clk		= !CLK42;
 	DO[].ena		= VCC;
 --	DO[].ena		= DFF(!MC_END,CLK42,,);
 	DO[].d			= MD[];
 --	== accelerator functions ==
 	FN_ACC[].clk	= /MR;
 	FN_ACC[].ena	= /M1M;
 	FN_ACC[].d		= LCELL(DI7 & !DI6 & !PRF_CMD) & !(DI[5..3]);
 	XMDH[].clk		= !CLK42;
 	XMDH[]			= MDI[15..8];
 	XMD[].clk		= !CLK42;
 	CASE FN_ACC[1..0] IS
 		WHEN 0 =>
 			XMD[] = MD[];					% BE %
 		WHEN 1 =>
 			XMD[] = MD[] or RAM.q[7..0];	% B6 %
 		WHEN 2 =>
 			XMD[] = MD[] xor RAM.q[7..0];	% AE %
 		WHEN 3 =>
 			XMD[] = MD[] & RAM.q[7..0];		% A6 %
 	END CASE;
 	CASE ALT_ACC IS
 		WHEN 0 => RAM_ADR[] = ACC_CNT[];
 		WHEN 1 => RAM_ADR[] = XCNT[];
 	END CASE;
 	ACC_TIME		= LCELL((!ACC_END or !DFFE(ACC_END,CLK42,,,(CT1 & CT2))));
 --	RAM_WR			= DFF((!/RD & (!ACC_GO & CT0) & ACC_TIME),CLK42,,);
 	RAM_WR			= DFF((!/RD & (!ACC_GO & CT0) & ACC_DIR1),CLK42,,);
 	RAM.wren 		= RAM_WR;
 	RAM.data[] 		= (XMD[],XMD[]);
 --	RAM.wraddress[] = ACC_CNT[];
 	RAM.wraddress[] = RAM_ADR[];
 	RAM.wrclock		= CLK42;
 	RAM.wrclken		= VCC;
 	RAM.rden		= VCC;
 --	RAM.rdaddress[] = ACC_CNT[];
 	RAM.rdaddress[] = RAM_ADR[];
 	RAM.rdclock		= CLK42;
 	RAM.rdclken		= VCC;
 	AA[].clk	= CLK42;
 --	AA[].ena	= START_ACC or (ACC_DIR5 & !ACC_GO & ACC_GO_1);
 	AA[].ena	= LCELL(START_ACC or (ACC_DIR5 & !(CAS or START_ACC) & (ACC_GO or (ACC_GO_1 & ACC_DIR6))));
 	CASE DFF(START_ACC,CLK42,,) IS
 		WHEN 1 => AA[].d = AI[];
 --		WHEN 0 => AA[].d = AA[] + (B"00000000000000",ACC_DIR6,!ACC_DIR6);
 		WHEN 0 => AA[].d = AA[] + 1;
 	END CASE;
 	AO[] = (AA[15..0]);
 END;
--- a/src/altera/acex/k30/AY.ACF
+++ b/src/altera/acex/k30/AY.ACF
@ -1,578 +0,0 @@
 --
 --  Copyright (C) 1988-2000 Altera Corporation
 --  Any megafunction design, and related net list (encrypted or decrypted),
 --  support information, device programming or simulation file, and any other
 --  associated documentation or information provided by Altera or a partner
 --  under Altera's Megafunction Partnership Program may be used only to
 --  program PLD devices (but not masked PLD devices) from Altera.  Any other
 --  use of such megafunction design, net list, support information, device
 --  programming or simulation file, or any other related documentation or
 --  information is prohibited for any other purpose, including, but not
 --  limited to modification, reverse engineering, de-compiling, or use with
 --  any other silicon devices, unless such use is explicitly licensed under
 --  a separate agreement with Altera or a megafunction partner.  Title to
 --  the intellectual property, including patents, copyrights, trademarks,
 --  trade secrets, or maskworks, embodied in any such megafunction design,
 --  net list, support information, device programming or simulation file, or
 --  any other related documentation or information provided by Altera or a
 --  megafunction partner, remains with Altera, the megafunction partner, or
 --  their respective licensors.  No other licenses, including any licenses
 --  needed under any third party's intellectual property, are provided herein.
 --
 CHIP ay
 BEGIN
 	DEVICE = EP1K30QC208-3;
 END;
 DEFAULT_DEVICES
 BEGIN
 	AUTO_DEVICE = EP1K100FC484-1;
 	AUTO_DEVICE = EP1K100FC256-1;
 	AUTO_DEVICE = EP1K100QC208-1;
 	AUTO_DEVICE = EP1K50FC484-1;
 	AUTO_DEVICE = EP1K50FC256-1;
 	AUTO_DEVICE = EP1K50QC208-1;
 	AUTO_DEVICE = EP1K50TC144-1;
 	AUTO_DEVICE = EP1K30FC256-1;
 	AUTO_DEVICE = EP1K30QC208-1;
 	AUTO_DEVICE = EP1K30TC144-1;
 	AUTO_DEVICE = EP1K10FC256-1;
 	AUTO_DEVICE = EP1K10QC208-1;
 	AUTO_DEVICE = EP1K10TC144-1;
 	AUTO_DEVICE = EP1K10TC100-1;
 	ASK_BEFORE_ADDING_EXTRA_DEVICES = ON;
 END;
 TIMING_POINT
 BEGIN
 	DEVICE_FOR_TIMING_SYNTHESIS = EP1K30QC208-3;
 	FREQUENCY = 100MHz;
 	MAINTAIN_STABLE_SYNTHESIS = OFF;
 	CUT_ALL_CLEAR_PRESET = ON;
 	CUT_ALL_BIDIR = ON;
 END;
 IGNORED_ASSIGNMENTS
 BEGIN
 	FIT_IGNORE_TIMING = ON;
 	DEMOTE_SPECIFIC_LCELL_ASSIGNMENTS_TO_LAB_ASSIGNMENTS = OFF;
 	IGNORE_LOCAL_ROUTING_ASSIGNMENTS = OFF;
 	IGNORE_DEVICE_ASSIGNMENTS = OFF;
 	IGNORE_LC_ASSIGNMENTS = OFF;
 	IGNORE_PIN_ASSIGNMENTS = OFF;
 	IGNORE_CHIP_ASSIGNMENTS = OFF;
 	IGNORE_TIMING_ASSIGNMENTS = OFF;
 	IGNORE_LOGIC_OPTION_ASSIGNMENTS = OFF;
 	IGNORE_CLIQUE_ASSIGNMENTS = OFF;
 END;
 GLOBAL_PROJECT_DEVICE_OPTIONS
 BEGIN
 	MAX7000B_ENABLE_VREFB = OFF;
 	MAX7000B_ENABLE_VREFA = OFF;
 	MAX7000B_VCCIO_IOBANK2 = 3.3V;
 	MAX7000B_VCCIO_IOBANK1 = 3.3V;
 	CONFIG_EPROM_PULLUP_RESISTOR = ON;
 	CONFIG_EPROM_USER_CODE = FFFFFFFF;
 	FLEX_CONFIGURATION_EPROM = AUTO;
 	MAX7000AE_ENABLE_JTAG = ON;
 	MAX7000AE_USER_CODE = FFFFFFFF;
 	FLEX6000_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX10KA_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = ON;
 	FLEX10K_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX6000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME_FLEX_6000 = PASSIVE_SERIAL;
 	MULTIVOLT_IO = OFF;
 	MAX7000S_ENABLE_JTAG = ON;
 	FLEX10K_ENABLE_LOCK_OUTPUT = OFF;
 	MAX7000S_USER_CODE = FFFF;
 	CONFIG_SCHEME_10K = PASSIVE_SERIAL;
 	FLEX10K_JTAG_USER_CODE = 7F;
 	ENABLE_INIT_DONE_OUTPUT = OFF;
 	ENABLE_CHIP_WIDE_OE = OFF;
 	ENABLE_CHIP_WIDE_RESET = OFF;
 	nCEO = UNRESERVED;
 	CLKUSR = UNRESERVED;
 	ADD17 = UNRESERVED;
 	ADD16 = UNRESERVED;
 	ADD15 = UNRESERVED;
 	ADD14 = UNRESERVED;
 	ADD13 = UNRESERVED;
 	ADD0_TO_ADD12 = UNRESERVED;
 	SDOUT = RESERVED_DRIVES_OUT;
 	RDCLK = UNRESERVED;
 	RDYnBUSY = UNRESERVED;
 	nWS_nRS_nCS_CS = UNRESERVED;
 	DATA1_TO_DATA7 = UNRESERVED;
 	DATA0 = RESERVED_TRI_STATED;
 	FLEX8000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME = ACTIVE_SERIAL;
 	DISABLE_TIME_OUT = OFF;
 	ENABLE_DCLK_OUTPUT = OFF;
 	RELEASE_CLEARS = OFF;
 	AUTO_RESTART = OFF;
 	USER_CLOCK = OFF;
 	SECURITY_BIT = OFF;
 	RESERVED_PINS_PERCENT = 0;
 	RESERVED_LCELLS_PERCENT = 0;
 END;
 GLOBAL_PROJECT_SYNTHESIS_ASSIGNMENT_OPTIONS
 BEGIN
 	MULTI_LEVEL_SYNTHESIS_MAX9000 = ON;
 	AUTO_IMPLEMENT_IN_EAB = OFF;
 	AUTO_OPEN_DRAIN_PINS = ON;
 	ONE_HOT_STATE_MACHINE_ENCODING = OFF;
 	AUTO_REGISTER_PACKING = OFF;
 	DEVICE_FAMILY = ACEX1K;
 	STYLE = NORMAL;
 	AUTO_FAST_IO = OFF;
 	AUTO_GLOBAL_OE = ON;
 	AUTO_GLOBAL_PRESET = ON;
 	AUTO_GLOBAL_CLEAR = ON;
 	AUTO_GLOBAL_CLOCK = ON;
 	MULTI_LEVEL_SYNTHESIS_MAX5000_7000 = OFF;
 	OPTIMIZE_FOR_SPEED = 5;
 END;
 COMPILER_PROCESSING_CONFIGURATION
 BEGIN
 	USE_QUARTUS_FITTER = ON;
 	PRESERVE_ALL_NODE_NAME_SYNONYMS = OFF;
 	FITTER_SETTINGS = NORMAL;
 	SMART_RECOMPILE = OFF;
 	GENERATE_AHDL_TDO_FILE = OFF;
 	RPT_FILE_USER_ASSIGNMENTS = ON;
 	RPT_FILE_LCELL_INTERCONNECT = ON;
 	RPT_FILE_HIERARCHY = ON;
 	RPT_FILE_EQUATIONS = ON;
 	LINKED_SNF_EXTRACTOR = OFF;
 	OPTIMIZE_TIMING_SNF = OFF;
 	TIMING_SNF_EXTRACTOR = ON;
 	FUNCTIONAL_SNF_EXTRACTOR = OFF;
 	DESIGN_DOCTOR_RULES = EPLD;
 	DESIGN_DOCTOR = OFF;
 END;
 COMPILER_INTERFACES_CONFIGURATION
 BEGIN
 	NETLIST_OUTPUT_TIME_SCALE = 0.1ns;
 	EDIF_INPUT_SHOW_LMF_MAPPING_MESSAGES = OFF;
 	EDIF_BUS_DELIMITERS = [];
 	EDIF_FLATTEN_BUS = OFF;
 	EDIF_OUTPUT_FORCE_0NS_DELAYS = OFF;
 	EDIF_OUTPUT_INCLUDE_SPECIAL_PRIM = OFF;
 	EDIF_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	EDIF_OUTPUT_DELAY_CONSTRUCTS = EDO_FILE;
 	EDIF_OUTPUT_USE_EDC = OFF;
 	EDIF_INPUT_USE_LMF2 = OFF;
 	EDIF_INPUT_USE_LMF1 = OFF;
 	EDIF_OUTPUT_GND = GND;
 	EDIF_OUTPUT_VCC = VCC;
 	EDIF_INPUT_GND = GND;
 	EDIF_INPUT_VCC = VCC;
 	EDIF_OUTPUT_EDC_FILE = *.edc;
 	EDIF_INPUT_LMF2 = *.lmf;
 	EDIF_INPUT_LMF1 = *.lmf;
 	VHDL_GENERATE_CONFIGURATION_DECLARATION = OFF;
 	VHDL_OUTPUT_DELAY_CONSTRUCTS = VHO_FILE;
 	VERILOG_OUTPUT_DELAY_CONSTRUCTS = VO_FILE;
 	VHDL_FLATTEN_BUS = OFF;
 	VERILOG_FLATTEN_BUS = OFF;
 	EDIF_TRUNCATE_HIERARCHY_PATH = OFF;
 	VHDL_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	VHDL_WRITER_VERSION = VHDL93;
 	VHDL_READER_VERSION = VHDL93;
 	SYNOPSYS_MAPPING_EFFORT = MEDIUM;
 	SYNOPSYS_BOUNDARY_OPTIMIZATION = OFF;
 	SYNOPSYS_HIERARCHICAL_COMPILATION = ON;
 	SYNOPSYS_DESIGNWARE = OFF;
 	SYNOPSYS_COMPILER = DESIGN;
 	USE_SYNOPSYS_SYNTHESIS = OFF;
 	VHDL_NETLIST_WRITER = OFF;
 	VERILOG_NETLIST_WRITER = OFF;
 	XNF_GENERATE_AHDL_TDX_FILE = ON;
 	XNF_TRANSLATE_INTERNAL_NODE_NAMES = ON;
 	XNF_EMULATE_TRI_STATE_BUSES = INTERNAL_LOGIC;
 	EDIF_OUTPUT_VERSION = 200;
 	EDIF_NETLIST_WRITER = OFF;
 END;
 CUSTOM_DESIGN_DOCTOR_RULES
 BEGIN
 	MASTER_RESET = OFF;
 	EXPANDER_NETWORKS = ON;
 	RACE_CONDITIONS = ON;
 	DELAY_CHAINS = ON;
 	ASYNCHRONOUS_INPUTS = ON;
 	PRESET_CLEAR_NETWORKS = ON;
 	STATIC_HAZARDS_AFTER_SYNTHESIS = OFF;
 	STATIC_HAZARDS_BEFORE_SYNTHESIS = ON;
 	MULTI_CLOCK_NETWORKS = ON;
 	MULTI_LEVEL_CLOCKS = ON;
 	GATED_CLOCKS = ON;
 	RIPPLE_CLOCKS = ON;
 END;
 SIMULATOR_CONFIGURATION
 BEGIN
 	BIDIR_PIN = STRONG;
 	END_TIME = 0.0ns;
 	START_TIME = 0.0ns;
 	GLITCH_TIME = 0.0ns;
 	GLITCH = OFF;
 	OSCILLATION_TIME = 0.0ns;
 	OSCILLATION = OFF;
 	CHECK_OUTPUTS = OFF;
 	SETUP_HOLD = OFF;
 	USE_DEVICE = OFF;
 END;
 TIMING_ANALYZER_CONFIGURATION
 BEGIN
 	ANALYSIS_MODE = REGISTERED_PERFORMANCE;
 	CUT_OFF_RAM_REGISTERED_WE_PATHS = OFF;
 	LIST_PATH_FREQUENCY = 10MHz;
 	LIST_PATH_COUNT = 10;
 	REGISTERED_PERFORMANCE_OPTIONS = NUMBER_OF_PATHS;
 	INCLUDE_PATHS_LESS_THAN_VALUE = 214.7483647ms;
 	INCLUDE_PATHS_LESS_THAN = OFF;
 	INCLUDE_PATHS_GREATER_THAN_VALUE = 0.0ns;
 	INCLUDE_PATHS_GREATER_THAN = OFF;
 	DELAY_MATRIX_OPTIONS = SHOW_ALL_PATHS;
 	CELL_WIDTH = 18;
 	LIST_ONLY_LONGEST_PATH = ON;
 	CUT_OFF_CLEAR_AND_PRESET_PATHS = ON;
 	CUT_OFF_IO_PIN_FEEDBACK = ON;
 	AUTO_RECALCULATE = OFF;
 END;
 OTHER_CONFIGURATION
 BEGIN
 	ROW_PINS_LCELL_INSERT = ON;
 	CARRY_OUT_PINS_LCELL_INSERT = OFF;
 	NORMAL_LCELL_INSERT = ON;
 	EXPLICIT_FAMILY = 1;
 	LAST_MAXPLUS2_VERSION = 10.0;
 	FLEX_10K_52_COLUMNS = 40;
 	DEFAULT_9K_EXP_PER_LCELL = 1/2;
 	LOCAL_INTERCONNECT_PER_LAB_PERCENT = 100;
 	LCELLS_PER_ROW_PERCENT = 100;
 	FAN_IN_PER_LCELL_PERCENT = 100;
 	EXP_PER_LCELL_PERCENT = 100;
 	ROW_PINS_PERCENT = 50;
 	ORIGINAL_MAXPLUS2_VERSION = 10.0;
 	COMPILER_DATA = "1,1,0,1,0,0,0,1,1,1,1,0,1,1,1";
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = ON;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = AUTO;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = AUTO;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = MANUAL;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = MANUAL;
 END;
--- a/src/altera/acex/k30/AY.INC
+++ b/src/altera/acex/k30/AY.INC
@ -1,26 +0,0 @@
 -- Copyright (C) 1988-2000 Altera Corporation
 -- Any megafunction design, and related net list (encrypted or decrypted),
 -- support information, device programming or simulation file, and any other
 -- associated documentation or information provided by Altera or a partner
 -- under Altera's Megafunction Partnership Program may be used only to
 -- program PLD devices (but not masked PLD devices) from Altera.  Any other
 -- use of such megafunction design, net list, support information, device
 -- programming or simulation file, or any other related documentation or
 -- information is prohibited for any other purpose, including, but not
 -- limited to modification, reverse engineering, de-compiling, or use with
 -- any other silicon devices, unless such use is explicitly licensed under
 -- a separate agreement with Altera or a megafunction partner.  Title to
 -- the intellectual property, including patents, copyrights, trademarks,
 -- trade secrets, or maskworks, embodied in any such megafunction design,
 -- net list, support information, device programming or simulation file, or
 -- any other related documentation or information provided by Altera or a
 -- megafunction partner, remains with Altera, the megafunction partner, or
 -- their respective licensors.  No other licenses, including any licenses
 -- needed under any third party's intellectual property, are provided herein.
 -- MAX+plus II Include File
 -- Version 10.0 9/14/2000
 -- Created: Sat May 26 07:09:40 2001
 FUNCTION ay (/reset, clk42, ay_t[8..0], ay_d_wr, ay_a_wr, d[7..0], beeper)
    RETURNS (do[7..0], ay_ch_a[3..0], ay_ch_b[3..0], ay_ch_c[3..0], ay_ch_l[9..0], ay_ch_r[9..0], ay_ch_val);
--- a/src/altera/acex/k30/AY.MIF
+++ b/src/altera/acex/k30/AY.MIF
@ -1,154 +0,0 @@
 DEPTH = 256;	% Memory depth and width are required	%
 WIDTH = 8;		% Enter a decimal number	%
 ADDRESS_RADIX = HEX;	% Address and value radixes are optional	%
 DATA_RADIX = BIN;		% Enter BIN, DEC, HEX, or OCT; unless 	%
 						% otherwise specified, radixes = HEX	%
 -- Specify values for addresses, which can be single address or range
 CONTENT
 BEGIN
 	[0..7F]	: 00000000;
 	0	:	00000000 00000000
 			00000000 00000000
 			00000000 00000000
 			00000000 11111111
 			00000000 00000000
 			00000000 00000000
 			00000000 00000000
 			00000000 00000000
 			11111111 11111111
 			11111111 11111111
 			11111111 11111111
 			11111111 11111111
 			11111111 11111111
 			11111111 11111111
 			11111111 00000001
 			00000000 11111111
 	;
 	1E	:	00000000;
 	1F	:	11111111;
 	30	:	00000000
 			00000010
 			00000011
 			00000100
 			00000110
 			00001000
 			00001011
 			00010000
 			00010110
 			00100000
 			00101101
 			01000000
 			01011010
 			10000000
 			10110100
 			11111111;
 	[80..FF]: 00000000;
 %
 	000 - set CX, load & sub 1
 	001	- load
 	010	- save, if NZ,reset CX
 	011	- bit_out
 	100	- load & sub 1
 	101	- load & sub C
 	110	- if CX, save
 	111	- read states /RESET, AY_F_RES
 %
 	80	:
 			00010000  -- set C,CX load reg10 & sub C
 			01010000  -- save reg10 & reset CX if NZ
 			10110001  -- load reg11 & sub C
 			01010001  -- save reg11 & reset CX if NZ
 			00100000  -- set C load reg00 & sub C
 			11010000  -- save reg10 if CX
 			00100001  -- load reg01 & sub C
 			11010001  -- save reg11 if CX
 			00101000  -- load reg08
 			01100001  -- set AY_OUT1
 			00010010  -- set C,CX load reg12 & sub C
 			01010010  -- save reg12 & reset CX if NZ
 			10110011  -- load reg13 & sub C
 			01010011  -- save reg13 & reset CX if NZ
 			00100010  -- set C load reg02 & sub C
 			11010010  -- save reg12 if CX
 			00100011  -- load reg03 & reset CX if NZ
 			11010011  -- save reg13 if CX
 			00101001  -- load reg09
 			01100010  -- set AY_OUT2
 			00010100  -- set C,CX load reg14 & sub C
 			01010100  -- save reg14 & reset CX if NZ
 			10110101  -- load reg15 & sub C
 			01010101  -- save reg15 & reset CX if NZ
 			00100100  -- set C load reg04 & sub C
 			11010100  -- save reg14 if CX
 			00100101  -- load reg05 & reset CX if NZ
 			11010101  -- save reg15 if CX
 			00101010  -- load reg0A
 			01100011  -- set AY_OUT3
 			00010111  -- set C,CX load reg17 & dec 1
 			01010111  -- save reg17 & reset CX if NZ
 			00100110  -- load reg06 dec 1  		***********
 			11010111  -- save reg17 if CX
 			01100100  -- set AY_SH
 			00000000  -- NOP
 			00011000  -- set C,CX load reg18 & sub C
 			01011000  -- save reg18 & reset CX if NZ
 			10111001  -- load reg19 & sub C
 			01011001  -- save reg19 & reset CX if NZ
 			00101011  -- load reg0B & sub 1
 			11011000  -- save reg18 if CX
 			00101100  -- load reg0C & sub C
 			11011001  -- save reg19 if CX
 			01100101  -- set FORM_CLK
 			11100000  -- set CX = AY_F_RES
 --			00101011  -- load reg0B & sub 1
 --			11011000  -- save reg18 if CX
 --			00101100  -- load reg0C & sub C
 --			11011001  -- save reg19 if CX
 			11100001  -- set CX = /RESET
 			00111111  -- load reg1F - FF		***********
 			11000111  -- save reg07 if CX
 			00111110  -- load reg1E - 00		***********
 			11001101  -- save reg0D if CX
 			11001000  -- save reg08 if CX
 			11001001  -- save reg09 if CX
 			11001010  -- save reg0a if CX
 			00100111  -- load reg07				***********
 			01100110  -- set keys_bits
 			00101101  -- load reg0D             ***********
 			01100111  -- set keys_bits			SET-FORM-bits
 --			01100000  -- set AY_OUT_ALL
 		;
 END ;
--- a/src/altera/acex/k30/AY.TDF
+++ b/src/altera/acex/k30/AY.TDF
@ -1,368 +0,0 @@
 	TITLE "AY-3-8910";
 include "lpm_ram_dq";
 include "lpm_add_sub";
 SUBDESIGN ay
 	(
 	/RESET			: INPUT;
 	CLK42			: INPUT;	-- â ªâë 42
 	AY_T[8..0]		: INPUT;	-- ¢¥è¨© áç¥âç¨ª â ªâ®¢
 	AY_D_WR			: INPUT;
 	AY_A_WR			: INPUT;
 	D[7..0]			: INPUT;
 	DO[7..0]		: OUTPUT;
 	AY_CH_A[3..0]	: OUTPUT;
 	AY_CH_B[3..0]	: OUTPUT;
 	AY_CH_C[3..0]	: OUTPUT;
 	AY_CH_L[9..0]	: OUTPUT;
 	AY_CH_R[9..0]	: OUTPUT;
 	AY_CH_VAL		: OUTPUT;	-- chanels data valid
 	BEEPER			: INPUT;
 	)
 VARIABLE
 	BD[7..0]		: DFFE;
 	BWR				: DFFE;
 	AWR				: DFFE;
 	AY_DI[7..0]		: NODE;
 	AY_DO[7..0]		: NODE;
 	AY_F_RES		: NODE;
 	AY_F_R1			: NODE;
 	AY_ADR[7..0]	: DFF;
 	AY_AAX[1..0]	: DFF;
 	AY_X_[5..0] 	: DFFE;
 	AY_GF[3..0] 	: DFFE;
 	AY_OUT[3..1]	: DFFE;
 	AY_OUTS[3..1]	: NODE;
 	AY_CLK1			: NODE;
 	AY_SH[16..0]	: DFFE;
 	AY_AA[3..0]		: DFF;
 	AY_SH_Q			: NODE;
 	AY_ABLK			: NODE;
 	AY_BBLK         : NODE;
 	AY_AINV         : NODE;
 	AY_BINV         : NODE;
 	AY_ADRX[7..0]	: NODE;
 	AY_CCC[8..0]	: DFF;
 	AY_AX[7..0]		: NODE;
 	AY_C			: DFFE;
 	AY_CX			: DFFE;
 	AY_CXX			: DFFE;
 	AY_WR			: NODE;
 	AY_VA[3..0]		: DFFE;
 	AY_VAR			: DFFE;
 	AY_VX			: DFFE;
 	AY_DAT_WR		: DFF;
 	AY_DAT[7..0]	: DFFE;
 	AY_DQ1[3..0]	: DFFE;
 	AY_DQ2[3..0]	: DFFE;
 	AY_DQ3[3..0]	: DFFE;
 	AY_DQX[3..0]	: DFFE;
 	AY_OUTSX		: NODE;
 	AY_CH_MIX		: DFF;
 	AY_AMP[3..0]	: DFF;
 	AY_DD[7..0]		: DFFE;
 	AY_CH_A[3..0]	: DFF;
 	AY_CH_B[3..0]   : DFF;
 	AY_CH_C[3..0]   : DFF;
 	AY_CH_CS[8..0]	: DFF;
 	AY_CH_LX[10..0]	: DFFE;
 	AY_CH_RX[10..0]	: DFFE;
 --	AY_CH_L[9..0]	: DFF;
 --	AY_CH_R[9..0]	: DFF;
 	AY_CH_DIR[7..0]	: DFFE;
 	AY_OUTS1X		: NODE;
 	AY_OUTS2X       : NODE;
 	AY_OUTS3X       : NODE;
 	AY_OUTS1Y       : NODE;
 --	AY_OUTS2Y       : NODE;
 	AY_OUTS3Y       : NODE;
 BEGIN
 --	====== AY8910 III version =========
 	BD[].clk	= CLK42;
 	AWR.clk		= CLK42;
 	BWR.clk		= CLK42;
 	BD[].ena	= AY_CCC1;
 	BWR.ena		= AY_CCC1;
 	AWR.ena		= AY_CCC1;
 	BD[7..5].clrn = !((AY_ADR[3..0] == B"00X1") or -- ch 1,2
 					  (AY_ADR[3..0] == B"0101") or -- ch 3
 					  (AY_ADR[3..0] == B"0110")    -- ch shum
 					 );
 	BD4.clrn	  = !((AY_ADR[3..0] == B"00X1") or -- ch 1,2
 				  	  (AY_ADR[3..0] == B"0101")    -- ch 3
 					 );
 	BD[]		= D[];
 	AWR			= AY_A_WR;
 --	BWR			= (AY_D_WR or !(AY_ADR[5..4] == 0));
 	BWR			= AY_D_WR;
 	AY_CH_DIR[].clk	= AY_D_WR;
 	AY_CH_DIR[].ena	= (AY_ADR[] == B"XXX10000");
 	AY_CH_DIR[].d	= D[];
 	AY_CH_DIR[].clrn= /RESET;
 	AY_CCC[].clk	= CLK42;
 	AY_CCC[8..0].d	= AY_T[];
 	(AY_AAX[].clk,AY_ADR[].clk)	= AY_A_WR;
 	AY_ADR[].d		= D[];
 	-- Write to 0D register
 	AY_AAX0.d	= (D[3..0] == B"1101");
 	-- Write to AMP registers 08,09,0A
 	AY_AAX1.d	= (D[3..0] == B"1000") or (D[3..0] == B"1001") or (D[3..0] == B"1010");
 	-- reset signal for form generator
 --	AY_F_RES	= DFF(VCC,DFF((!((AY_DO[7..5] == B"111") & AY_CCC1 & !AY_DO0) or AY_F_RES),CLK42,,),LCELL(!(AY_AAX0 or (AY_AAX1 & BD4)) or BWR),);
 --	AY_F_R1		= DFF((!(AY_AAX0 or (AY_AAX1)) or BWR),CLK42,,);
 	AY_F_R1		= DFF((!AY_AAX0 or BWR),CLK42,,);
 	AY_F_RES	= DFF(DFF(VCC,AY_CCC7,AY_F_R1,),AY_CCC7,AY_F_R1,);
 	AY_X_[].prn	= VCC;
 --  	AY_GF[3..0].clrn = /RESET;
 --  	AY_GF[3..0].clk	 = AY_D_WR;
 --		AY_GF[3..0].ena = AY_ADR[] == B"XXXX1101";
 --		AY_GF[3..0].d  = D[3..0];
 	AY_DAT_WR.clk	= CLK42;
 	CASE AY_CCC[1..0] IS
 		WHEN B"00" =>
 			AY_AX[]		= (VCC,GND,AY_CCC[7..2]);	-- CMD adress
 			AY_WR		= GND;
 			AY_DI[]		= AY_DAT[];
 			AY_DAT_WR	= VCC;
 		WHEN B"01" =>
 			AY_AX[]		= (B"0000",AY_ADR[3..0]);
 			AY_WR		= !BWR;
 			AY_DI[]		= BD[];
 			AY_DAT_WR	= VCC;
 		WHEN B"1X" =>
 			AY_AX[] 	= (GND,GND,GND,AY_DO[4..0]);
 			AY_DAT_WR	= AY_DO6;
 			AY_WR		= !LCELL(!(AY_DO[7..5] == B"010") &
 								!((AY_DO[7..5] == B"110") & AY_CXX));
 --								!((AY_DO[7..5] == B"110") & AY_CX));
 			AY_DI[]		= AY_DAT[];
 	END CASE;
 	AY_DD[].clk	= CLK42;
 	AY_DD[].ena	= !AY_CCC1 & !AY_CCC0;
 	AY_DD[]	= AY_DO[];
 	AY_DO[] = lpm_ram_dq(AY_DI[],AY_AX[],AY_WR,CLK42,CLK42)
 		WITH (lpm_width=8,lpm_widthad=8,lpm_file="AY.MIF");
 --	AY_CX.prn	= !DFF((((AY_DO[7..5] == B"00X") & AY_CCC1) & (!AY_DO5 or AY_C)),CLK42,,);
 	AY_CX.prn	= !DFF(((AY_DO[7..5] == B"000") & AY_CCC1),CLK42,,);
 	AY_CXX.prn	= !DFF(((AY_DO[7..5] == B"000") & AY_CCC1),CLK42,,);
 	AY_C.prn	= VCC;
 	AY_CX.clk	= CLK42;
 	AY_CXX.clk	= CLK42;
 	(AY_CXX.ena,AY_CX.ena)	= DFF((((AY_DO[7..5] == B"010") or (AY_DO[7..5] == B"111")) & AY_CCC1),CLK42,,);
 	IF DFF(((AY_DO[7..5] == B"010")),CLK42,,) THEN
 		AY_CX = (LCELL(AY_DAT[] == 0) & AY_CX);
 --		AY_CXX = (LCELL(AY_DAT[] == 0) & AY_CXX);
 --		AY_CX  = (LCELL(AY_DAT[] == 0) & AY_CX) or (AY_C & DFF(AY_DO0,CLK42,,));
 		AY_CXX = (LCELL(AY_DAT[] == 0) & AY_CXX) or (AY_C & DFF(AY_DO0,CLK42,,));
 	ELSE
 		AY_CXX = DFF(((!/RESET & AY_DO0) or (!AY_F_RES & !AY_DO0)),CLK42,,);
 		AY_CX  = DFF(((!/RESET & AY_DO0) or (!AY_F_RES & !AY_DO0)),CLK42,,);
 	END IF;
 	(AY_C.clk,AY_DAT[].clk)	= CLK42;
 	(AY_C.ena,AY_DAT[].ena)	= !DFF(AY_DAT_WR,CLK42,,);
 	(AY_C,AY_DAT[])	= (GND,AY_DO[]) - (B"00000000",DFF((DFF(!AY_DO5,CLK42,,) or (AY_C & DFF(AY_DO7,CLK42,,))),CLK42,,));
 	AY_OUT[].clk = CLK42;
 	AY_AMP[].clk = CLK42;
 	AY_AMP[] 	 = ((AY_DAT[3..0] or AY_DAT[4]) & (AY_AA[] or !AY_DAT[4]));
 	AY_DQ1[].clk = CLK42;
 	AY_OUTS1 	 = DFF(((AY_DO[7..0] == B"011XX001") & AY_CCC1),CLK42,,);
 	AY_OUT1.ena	 = AY_OUTS1;
 	AY_OUT1 	 = AY_CX xor AY_OUT1;
 	AY_DQ1[].ena = AY_OUTS1;
 	AY_DQ1[]	 = AY_AMP[] & LCELL((AY_OUT1 or AY_X_0) & (AY_X_3 or AY_SH0));
 	AY_DQ2[].clk = CLK42;
 	AY_OUTS2 	 = DFF(((AY_DO[7..0] == B"011XX010") & AY_CCC1),CLK42,,);
 	AY_OUT2.ena	 = AY_OUTS2;
 	AY_OUT2 	 = AY_CX xor AY_OUT2;
 	AY_DQ2[].ena = AY_OUTS2;
 	AY_DQ2[] 	 = AY_AMP[] & LCELL((AY_OUT2 or AY_X_1) & (AY_X_4 or AY_SH0));
 	AY_DQ3[].clk = CLK42;
 	AY_OUTS3 	 = DFF(((AY_DO[7..0] == B"011XX011") & AY_CCC1),CLK42,,);
 	AY_OUT3.ena	 = AY_OUTS3;
 	AY_OUT3 	 = AY_CX xor AY_OUT3;
 	AY_DQ3[].ena = AY_OUTS3;
 	AY_DQ3[] 	 = AY_AMP[] & LCELL((AY_OUT3 or AY_X_2) & (AY_X_5 or AY_SH0));
 	AY_OUTSX	 = DFF((((AY_DO[7..0] == B"011XX01X") or
 				   	 (AY_DO[7..0] == B"011XX0X1")) & AY_CCC1),CLK42,,);
 	AY_DQX[].clk = CLK42;
 	AY_DQX[].ena = AY_OUTSX;
 	AY_DQX[]	 = AY_AMP[] & AY_CH_MIX;
 	AY_DQX[].clrn = !AY_SH_Q;
 	AY_DQX[].prn = (B"0010") or !DFF((AY_SH_Q & BEEPER),CLK42,,);
 	AY_CH_MIX.clk = CLK42;
 	CASE AY_DO[1..0] IS
 		WHEN 0,1 => AY_CH_MIX = LCELL((AY_OUT1 or AY_X_0) & (AY_X_3 or AY_SH0));
 		WHEN 2 => AY_CH_MIX = LCELL((AY_OUT2 or AY_X_1) & (AY_X_4 or AY_SH0));
 		WHEN 3 => AY_CH_MIX = LCELL((AY_OUT3 or AY_X_2) & (AY_X_5 or AY_SH0));
 	END CASE;
 	AY_SH_Q		= DFF(((AY_DO[7..0] == B"011XX100") & AY_CCC1),CLK42,,);
 	AY_SH[].clk	 = CLK42;
 	AY_SH[].prn  = /RESET;
 	AY_SH[].ena	 = AY_SH_Q & AY_CXX;
 	AY_SH[] 	 = ((AY_SH3 xor AY_SH0),AY_SH[16..1]);
 	AY_VAR.clk	= CLK42;
 	AY_VX.clk	= CLK42;
 	AY_VA[].clk	= CLK42;
 	(AY_VAR.clrn,AY_VA[].clrn) = AY_F_RES;
 	AY_VX.clrn	= AY_F_RES;
 	(AY_VX.ena,AY_VA[].ena,AY_VAR.ena) = DFF(((AY_DO[7..0] == B"011XX101") & AY_CCC1 & !AY_BBLK & AY_CX),CLK42,,);
 	(AY_VX,AY_VA[],AY_VAR) = (AY_VX,AY_VA[],AY_VAR) + 1;
 	AY_X_[].clk	= CLK42;
 	AY_X_[].ena = DFF(((AY_DO[7..0] == B"011XX110") & AY_CCC1),CLK42,,);
 	AY_X_[] 	= AY_DAT[5..0];
 	AY_GF[].clk	= CLK42;
 	AY_GF[].ena	= DFF(((AY_DO[7..0] == B"011XX111") & AY_CCC1),CLK42,,);
 	AY_GF[]		= AY_DAT[3..0];
 	-- block count when 1-st period end
 	AY_BBLK		= DFF((AY_VX & (AY_GF0 or !AY_GF3)),CLK42,,); -- VA_COUNT_STOP
 	-- set ALL ZERO when 1-st period end
 	AY_ABLK		= DFF((!AY_GF3 & AY_VX),CLK42,,);
 	-- inverse 2-nd-s periods
 	AY_BINV		= DFF((AY_VX & ((AY_GF[] == B"1X10") or (AY_GF == B"1X01"))),CLK42,,);
 	-- inverse ALL
 	AY_AINV		= AY_GF2;
 	AY_AA[].clrn= VCC;
 	AY_AA[].clk	= CLK42;
 	AY_AA[].d	= (AY_VA[] xor AY_BINV xor !AY_AINV) & !AY_ABLK;
 %
 	AY_AA[].clrn= VCC;
 	AY_AA[].prn	= GND;
 	AY_AA[].clk	= CLK42;
 	AY_AA[]		= VCC;
 %
 	AY_CH_A[3..0].clk = AY_CCC7;
 	AY_CH_B[3..0].clk = AY_CCC7;
 	AY_CH_C[3..0].clk = AY_CCC7;
 	AY_CH_A[3..0] = AY_DQ1[3..0];
 	AY_CH_B[3..0] = AY_DQ2[3..0];
 	AY_CH_C[3..0] = AY_DQ3[3..0];
 	DO[7..0]	= AY_DD[];
 	AY_CH_CS[].clk	= CLK42;
 	CASE AY_DQX[] IS
 		WHEN 15 => AY_CH_CS[] = 360 ;
 		WHEN 14 => AY_CH_CS[] = 255 ;
 		WHEN 13 => AY_CH_CS[] = 180 ;
 		WHEN 12 => AY_CH_CS[] = 127 ;
 		WHEN 11 => AY_CH_CS[] = 90  ;
 		WHEN 10 => AY_CH_CS[] = 64  ;
 		WHEN 9  => AY_CH_CS[] = 45  ;
 		WHEN 8  => AY_CH_CS[] = 32  ;
 		WHEN 7  => AY_CH_CS[] = 22  ;
 		WHEN 6  => AY_CH_CS[] = 16  ;
 		WHEN 5  => AY_CH_CS[] = 11  ;
 		WHEN 4  => AY_CH_CS[] = 8   ;
 		WHEN 3  => AY_CH_CS[] = 6   ;
 		WHEN 2  => AY_CH_CS[] = 4   ;
 		WHEN 1  => AY_CH_CS[] = 2   ;
 		WHEN 0  => AY_CH_CS[] = 0   ;
 	END CASE;
 	AY_OUTS1X = DFF(AY_OUTS1,CLK42,,);
 	AY_OUTS2X = DFF((AY_OUTS2 or AY_SH_Q),CLK42,,);
 	AY_OUTS3X = DFF(AY_OUTS3,CLK42,,);
 	AY_OUTS1Y = DFF(AY_OUTS1 or AY_OUTS1X,CLK42,,);
 --	AY_OUTS2Y = DFF(AY_OUTS2 or AY_OUTS2X,CLK42,,);
 	AY_OUTS3Y = DFF(AY_OUTS3 or AY_OUTS3X,CLK42,,);
 	(AY_CH_LX[].clrn,AY_CH_RX[].clrn)	= !DFF((AY_CCC[7..2] == 0),CLK42,,);
 	(AY_CH_LX[],,) = LPM_ADD_SUB (,AY_CH_LX[],(B"00",AY_CH_CS[]),,,,)
 					WITH(LPM_WIDTH=11,LPM_REPRESENTATION="UNSIGNED");
 	(AY_CH_RX[],,) = LPM_ADD_SUB (,AY_CH_RX[],(B"00",AY_CH_CS[]),,,,)
 					WITH (LPM_WIDTH=11,LPM_REPRESENTATION="UNSIGNED");
 	AY_CH_LX[].clk	= CLK42;
 	AY_CH_RX[].clk	= CLK42;
 	AY_CH_LX[].ena = DFF(DFF((AY_OUTS1 or AY_OUTS1Y or AY_OUTS2X or AY_OUTS2),CLK42,,),CLK42,,);
 	AY_CH_RX[].ena = DFF(DFF((AY_OUTS3 or AY_OUTS3Y or AY_OUTS2X or AY_OUTS2),CLK42,,),CLK42,,);
 	AY_CH_VAL	= DFF((AY_CCC[7..2] == B"111100"),CLK42,,);
 --	AY_CH_L[].clk = AY_CH_VAL;
 --	AY_CH_R[].clk = AY_CH_VAL;
 	AY_CH_L[] = AY_CH_LX[10..1];
 	AY_CH_R[] = AY_CH_RX[10..1];
 END;
--- a/src/altera/acex/k30/DCP.ACF
+++ b/src/altera/acex/k30/DCP.ACF
@ -1,568 +0,0 @@
 --
 --  Copyright (C) 1988-2000 Altera Corporation
 --  Any megafunction design, and related net list (encrypted or decrypted),
 --  support information, device programming or simulation file, and any other
 --  associated documentation or information provided by Altera or a partner
 --  under Altera's Megafunction Partnership Program may be used only to
 --  program PLD devices (but not masked PLD devices) from Altera.  Any other
 --  use of such megafunction design, net list, support information, device
 --  programming or simulation file, or any other related documentation or
 --  information is prohibited for any other purpose, including, but not
 --  limited to modification, reverse engineering, de-compiling, or use with
 --  any other silicon devices, unless such use is explicitly licensed under
 --  a separate agreement with Altera or a megafunction partner.  Title to
 --  the intellectual property, including patents, copyrights, trademarks,
 --  trade secrets, or maskworks, embodied in any such megafunction design,
 --  net list, support information, device programming or simulation file, or
 --  any other related documentation or information provided by Altera or a
 --  megafunction partner, remains with Altera, the megafunction partner, or
 --  their respective licensors.  No other licenses, including any licenses
 --  needed under any third party's intellectual property, are provided herein.
 --
 CHIP dcp
 BEGIN
 	DEVICE = EP1K30FC256-3;
 END;
 DEFAULT_DEVICES
 BEGIN
 	AUTO_DEVICE = EP1K100FC484-1;
 	AUTO_DEVICE = EP1K100FC256-1;
 	AUTO_DEVICE = EP1K100QC208-1;
 	AUTO_DEVICE = EP1K50FC484-1;
 	AUTO_DEVICE = EP1K50FC256-1;
 	AUTO_DEVICE = EP1K50QC208-1;
 	AUTO_DEVICE = EP1K50TC144-1;
 	AUTO_DEVICE = EP1K30FC256-1;
 	AUTO_DEVICE = EP1K30QC208-1;
 	AUTO_DEVICE = EP1K30TC144-1;
 	ASK_BEFORE_ADDING_EXTRA_DEVICES = ON;
 END;
 TIMING_POINT
 BEGIN
 	DEVICE_FOR_TIMING_SYNTHESIS = EP1K30FC256-3;
 	FREQUENCY = 200MHz;
 	MAINTAIN_STABLE_SYNTHESIS = OFF;
 	CUT_ALL_CLEAR_PRESET = ON;
 	CUT_ALL_BIDIR = ON;
 END;
 IGNORED_ASSIGNMENTS
 BEGIN
 	FIT_IGNORE_TIMING = OFF;
 	DEMOTE_SPECIFIC_LCELL_ASSIGNMENTS_TO_LAB_ASSIGNMENTS = OFF;
 	IGNORE_LOCAL_ROUTING_ASSIGNMENTS = OFF;
 	IGNORE_DEVICE_ASSIGNMENTS = OFF;
 	IGNORE_LC_ASSIGNMENTS = OFF;
 	IGNORE_PIN_ASSIGNMENTS = OFF;
 	IGNORE_CHIP_ASSIGNMENTS = OFF;
 	IGNORE_TIMING_ASSIGNMENTS = OFF;
 	IGNORE_LOGIC_OPTION_ASSIGNMENTS = OFF;
 	IGNORE_CLIQUE_ASSIGNMENTS = OFF;
 END;
 GLOBAL_PROJECT_DEVICE_OPTIONS
 BEGIN
 	MAX7000B_ENABLE_VREFB = OFF;
 	MAX7000B_ENABLE_VREFA = OFF;
 	MAX7000B_VCCIO_IOBANK2 = 3.3V;
 	MAX7000B_VCCIO_IOBANK1 = 3.3V;
 	CONFIG_EPROM_PULLUP_RESISTOR = ON;
 	CONFIG_EPROM_USER_CODE = FFFFFFFF;
 	FLEX_CONFIGURATION_EPROM = AUTO;
 	MAX7000AE_ENABLE_JTAG = ON;
 	MAX7000AE_USER_CODE = FFFFFFFF;
 	FLEX6000_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX10KA_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = ON;
 	FLEX10K_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX6000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME_FLEX_6000 = PASSIVE_SERIAL;
 	MULTIVOLT_IO = OFF;
 	MAX7000S_ENABLE_JTAG = ON;
 	FLEX10K_ENABLE_LOCK_OUTPUT = OFF;
 	MAX7000S_USER_CODE = FFFF;
 	CONFIG_SCHEME_10K = PASSIVE_SERIAL;
 	FLEX10K_JTAG_USER_CODE = 7F;
 	ENABLE_INIT_DONE_OUTPUT = OFF;
 	ENABLE_CHIP_WIDE_OE = OFF;
 	ENABLE_CHIP_WIDE_RESET = OFF;
 	nCEO = UNRESERVED;
 	CLKUSR = UNRESERVED;
 	ADD17 = UNRESERVED;
 	ADD16 = UNRESERVED;
 	ADD15 = UNRESERVED;
 	ADD14 = UNRESERVED;
 	ADD13 = UNRESERVED;
 	ADD0_TO_ADD12 = UNRESERVED;
 	SDOUT = RESERVED_DRIVES_OUT;
 	RDCLK = UNRESERVED;
 	RDYnBUSY = UNRESERVED;
 	nWS_nRS_nCS_CS = UNRESERVED;
 	DATA1_TO_DATA7 = UNRESERVED;
 	DATA0 = RESERVED_TRI_STATED;
 	FLEX8000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME = ACTIVE_SERIAL;
 	DISABLE_TIME_OUT = OFF;
 	ENABLE_DCLK_OUTPUT = OFF;
 	RELEASE_CLEARS = OFF;
 	AUTO_RESTART = OFF;
 	USER_CLOCK = OFF;
 	SECURITY_BIT = OFF;
 	RESERVED_PINS_PERCENT = 0;
 	RESERVED_LCELLS_PERCENT = 0;
 END;
 GLOBAL_PROJECT_SYNTHESIS_ASSIGNMENT_OPTIONS
 BEGIN
 	STYLE = FAST;
 	MULTI_LEVEL_SYNTHESIS_MAX9000 = ON;
 	AUTO_IMPLEMENT_IN_EAB = OFF;
 	AUTO_OPEN_DRAIN_PINS = ON;
 	ONE_HOT_STATE_MACHINE_ENCODING = OFF;
 	AUTO_REGISTER_PACKING = OFF;
 	DEVICE_FAMILY = ACEX1K;
 	AUTO_FAST_IO = OFF;
 	AUTO_GLOBAL_OE = ON;
 	AUTO_GLOBAL_PRESET = ON;
 	AUTO_GLOBAL_CLEAR = ON;
 	AUTO_GLOBAL_CLOCK = ON;
 	MULTI_LEVEL_SYNTHESIS_MAX5000_7000 = OFF;
 	OPTIMIZE_FOR_SPEED = 5;
 END;
 COMPILER_PROCESSING_CONFIGURATION
 BEGIN
 	USE_QUARTUS_FITTER = ON;
 	PRESERVE_ALL_NODE_NAME_SYNONYMS = OFF;
 	FITTER_SETTINGS = NORMAL;
 	SMART_RECOMPILE = OFF;
 	GENERATE_AHDL_TDO_FILE = OFF;
 	RPT_FILE_USER_ASSIGNMENTS = ON;
 	RPT_FILE_LCELL_INTERCONNECT = ON;
 	RPT_FILE_HIERARCHY = ON;
 	RPT_FILE_EQUATIONS = ON;
 	LINKED_SNF_EXTRACTOR = OFF;
 	OPTIMIZE_TIMING_SNF = OFF;
 	TIMING_SNF_EXTRACTOR = ON;
 	FUNCTIONAL_SNF_EXTRACTOR = OFF;
 	DESIGN_DOCTOR_RULES = EPLD;
 	DESIGN_DOCTOR = OFF;
 END;
 COMPILER_INTERFACES_CONFIGURATION
 BEGIN
 	NETLIST_OUTPUT_TIME_SCALE = 0.1ns;
 	EDIF_INPUT_SHOW_LMF_MAPPING_MESSAGES = OFF;
 	EDIF_BUS_DELIMITERS = [];
 	EDIF_FLATTEN_BUS = OFF;
 	EDIF_OUTPUT_FORCE_0NS_DELAYS = OFF;
 	EDIF_OUTPUT_INCLUDE_SPECIAL_PRIM = OFF;
 	EDIF_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	EDIF_OUTPUT_DELAY_CONSTRUCTS = EDO_FILE;
 	EDIF_OUTPUT_USE_EDC = OFF;
 	EDIF_INPUT_USE_LMF2 = OFF;
 	EDIF_INPUT_USE_LMF1 = OFF;
 	EDIF_OUTPUT_GND = GND;
 	EDIF_OUTPUT_VCC = VCC;
 	EDIF_INPUT_GND = GND;
 	EDIF_INPUT_VCC = VCC;
 	EDIF_OUTPUT_EDC_FILE = *.edc;
 	EDIF_INPUT_LMF2 = *.lmf;
 	EDIF_INPUT_LMF1 = *.lmf;
 	VHDL_GENERATE_CONFIGURATION_DECLARATION = OFF;
 	VHDL_OUTPUT_DELAY_CONSTRUCTS = VHO_FILE;
 	VERILOG_OUTPUT_DELAY_CONSTRUCTS = VO_FILE;
 	VHDL_FLATTEN_BUS = OFF;
 	VERILOG_FLATTEN_BUS = OFF;
 	EDIF_TRUNCATE_HIERARCHY_PATH = OFF;
 	VHDL_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	VHDL_WRITER_VERSION = VHDL87;
 	VHDL_READER_VERSION = VHDL87;
 	SYNOPSYS_MAPPING_EFFORT = MEDIUM;
 	SYNOPSYS_BOUNDARY_OPTIMIZATION = OFF;
 	SYNOPSYS_HIERARCHICAL_COMPILATION = ON;
 	SYNOPSYS_DESIGNWARE = OFF;
 	SYNOPSYS_COMPILER = DESIGN;
 	USE_SYNOPSYS_SYNTHESIS = OFF;
 	VHDL_NETLIST_WRITER = OFF;
 	VERILOG_NETLIST_WRITER = OFF;
 	XNF_GENERATE_AHDL_TDX_FILE = ON;
 	XNF_TRANSLATE_INTERNAL_NODE_NAMES = ON;
 	XNF_EMULATE_TRI_STATE_BUSES = INTERNAL_LOGIC;
 	EDIF_OUTPUT_VERSION = 200;
 	EDIF_NETLIST_WRITER = OFF;
 END;
 CUSTOM_DESIGN_DOCTOR_RULES
 BEGIN
 	MASTER_RESET = OFF;
 	EXPANDER_NETWORKS = ON;
 	RACE_CONDITIONS = ON;
 	DELAY_CHAINS = ON;
 	ASYNCHRONOUS_INPUTS = ON;
 	PRESET_CLEAR_NETWORKS = ON;
 	STATIC_HAZARDS_AFTER_SYNTHESIS = OFF;
 	STATIC_HAZARDS_BEFORE_SYNTHESIS = ON;
 	MULTI_CLOCK_NETWORKS = ON;
 	MULTI_LEVEL_CLOCKS = ON;
 	GATED_CLOCKS = ON;
 	RIPPLE_CLOCKS = ON;
 END;
 SIMULATOR_CONFIGURATION
 BEGIN
 	END_TIME = 5.0us;
 	BIDIR_PIN = STRONG;
 	START_TIME = 0.0ns;
 	GLITCH_TIME = 0.0ns;
 	GLITCH = OFF;
 	OSCILLATION_TIME = 0.0ns;
 	OSCILLATION = OFF;
 	CHECK_OUTPUTS = OFF;
 	SETUP_HOLD = OFF;
 	USE_DEVICE = OFF;
 END;
 TIMING_ANALYZER_CONFIGURATION
 BEGIN
 	ANALYSIS_MODE = REGISTERED_PERFORMANCE;
 	CUT_OFF_RAM_REGISTERED_WE_PATHS = OFF;
 	LIST_PATH_FREQUENCY = 10MHz;
 	LIST_PATH_COUNT = 10;
 	REGISTERED_PERFORMANCE_OPTIONS = NUMBER_OF_PATHS;
 	INCLUDE_PATHS_LESS_THAN_VALUE = 214.7483647ms;
 	INCLUDE_PATHS_LESS_THAN = OFF;
 	INCLUDE_PATHS_GREATER_THAN_VALUE = 0.0ns;
 	INCLUDE_PATHS_GREATER_THAN = OFF;
 	DELAY_MATRIX_OPTIONS = SHOW_ALL_PATHS;
 	CELL_WIDTH = 18;
 	LIST_ONLY_LONGEST_PATH = ON;
 	CUT_OFF_CLEAR_AND_PRESET_PATHS = ON;
 	CUT_OFF_IO_PIN_FEEDBACK = ON;
 	AUTO_RECALCULATE = OFF;
 END;
 OTHER_CONFIGURATION
 BEGIN
 	LAST_MAXPLUS2_VERSION = 10.0;
 	EXPLICIT_FAMILY = 1;
 	ROW_PINS_LCELL_INSERT = ON;
 	CARRY_OUT_PINS_LCELL_INSERT = OFF;
 	NORMAL_LCELL_INSERT = ON;
 	FLEX_10K_52_COLUMNS = 40;
 	DEFAULT_9K_EXP_PER_LCELL = 1/2;
 	LOCAL_INTERCONNECT_PER_LAB_PERCENT = 100;
 	LCELLS_PER_ROW_PERCENT = 100;
 	FAN_IN_PER_LCELL_PERCENT = 100;
 	EXP_PER_LCELL_PERCENT = 100;
 	ROW_PINS_PERCENT = 50;
 	ORIGINAL_MAXPLUS2_VERSION = 9.6;
 	COMPILER_DATA = "1,1,0,1,0,0,0,1,1,1,1,0,1,1,1";
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = ON;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.FLEX8000
 BEGIN
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = AUTO;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = AUTO;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = MANUAL;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = MANUAL;
 END;
--- a/src/altera/acex/k30/DCP.INC
+++ b/src/altera/acex/k30/DCP.INC
@ -1,27 +0,0 @@
 -- Copyright (C) 1988-2000 Altera Corporation
 -- Any megafunction design, and related net list (encrypted or decrypted),
 -- support information, device programming or simulation file, and any other
 -- associated documentation or information provided by Altera or a partner
 -- under Altera's Megafunction Partnership Program may be used only to
 -- program PLD devices (but not masked PLD devices) from Altera.  Any other
 -- use of such megafunction design, net list, support information, device
 -- programming or simulation file, or any other related documentation or
 -- information is prohibited for any other purpose, including, but not
 -- limited to modification, reverse engineering, de-compiling, or use with
 -- any other silicon devices, unless such use is explicitly licensed under
 -- a separate agreement with Altera or a megafunction partner.  Title to
 -- the intellectual property, including patents, copyrights, trademarks,
 -- trade secrets, or maskworks, embodied in any such megafunction design,
 -- net list, support information, device programming or simulation file, or
 -- any other related documentation or information provided by Altera or a
 -- megafunction partner, remains with Altera, the megafunction partner, or
 -- their respective licensors.  No other licenses, including any licenses
 -- needed under any third party's intellectual property, are provided herein.
 -- MAX+plus II Include File
 -- Version 10.0 9/14/2000
 -- Created: Thu Feb 07 21:14:23 2002
 FUNCTION dcp (clk42, /reset, ct[2..0], continue, a[15..0], di[7..0], turbo_hand, /io, /rd, /wr, /mr, /rf, /m1, md[7..0], dos, refresh, g_line[9..0], test_r, acc_on, double_cas, blk_mem)
    WITH (UPDATE)
    RETURNS (/res, ras, cas, mc_end, mc_begin, mc_type, mc_write, do[7..0], ma[11..0], mca[1..0], clk_z80, turbo, /wait, /iom, /iomm, ra[17..14], page[11..0], type[3..0], cs_rom, cs_ram, v_ram, port, wr_dwg, wr_tm9, wr_awg, rd_kp11, kp11_mix, ga[9..0], graf, sp_scr, sp_sa, scr128, hdd_data, hdd_flip, ram, blk_r, pn4q, dcpp[7..0]);
--- a/src/altera/acex/k30/DCP.MIF
+++ b/src/altera/acex/k30/DCP.MIF
@ -1,119 +0,0 @@
 DEPTH = 256;	% Memory depth and width are required	%
 WIDTH = 16;		% Enter a decimal number	%
 ADDRESS_RADIX = HEX;	% Address and value radixes are optional	%
 DATA_RADIX = HEX;		% Enter BIN, DEC, HEX, or OCT; unless 	%
 						% otherwise specified, radixes = HEX	%
 -- Specify values for addresses, which can be single address or range
 CONTENT
 BEGIN
 	[0..FF]	: 1000;
 	0		: 1040	% DCP PAGE %;
 %
 	MA[11..0]	bit0 - WG_A5
 				bit1 - WG_A6
 				bit2 - MUX_KP11, 0 - WG,CMOS	1 - KMPS,TM9
 				bit3 - RD/WR	 0 - WRITE		1 - READ
 				bit4 - CS_WG93 or WR_TM9
 				bit5 - HDD/CMOS strobe
 				bit6,7	- 	00 - FDD/Scr switches
 							01 - HDD Switch/ Reset
 							10 - HDD1/HDD2
 							11 - CMOS
 				bit8 - HDD CS1/CS3 or CMOS data/adr
 				bit9,10,11 - HDD_A[2..0]
 %
 	10		:
 			7018 % RD WG93 1F,0F %
 			7019 % RD WG93 3F %
 			701A % RD WG93 5F %
 			701B % RD WG93 7F %
 			7017 % WR_PDOS FF %
 			701F % RD_KEYS/ WR_A20 %
 			7023 % Set 720  %
 			7027 % Set 1440 %;
 --	18		:
 --			1000 % No_function %
 --	1B		: 1000;	% ISA_A20 WR %
 	1C		: 71D8 % CMOS_DAT_RD %;
 	1D		: 70D4 % CMOS_ADR_WR %;
 	1E		: 71D4 % CMOS_DAT_WR %;
 	20		:
 			60A8 % HD_CS1 ports %
 			62A8
 			64A8
 			66A8
 			68A8
 			6AA8
 			6CA8
 			6EA8
 			6DA8 % HD_CS3 3F6 port %
 			6FA8 % HD_CS3 3F7 port %
 			7060 % Set HDD1 %
 			7064 % Set HDD2 %
 			7120 % Set 320 Lines %
 			7124 % Set 312 Lines %
 			7160 % Soft Reset %
 			7164 % ??? %;
 	30		:
 			7000 % slot 1 ports %
 			7001 % slot 2 ports %
 			7002 % slot 1 mem   %
 			7003 % slot 2 mem   %
 			;
 	40		: 4000; % kb read %
 	52		: 3000;	-- AY_D READ
 	58		: 5000;	-- KEMPSTON-Mouse
 	[80..FF]:	C000;
 	88		:	2000; -- COVOX
 	89		:	2000; -- COVOX-Mode
 	8C		: 	3000;	-- AY_D READ
 	8D		:	2000;	-- AY_A WRITE
 	8E		:	2000;	-- AY_D WRITE
 	8F		:   2000;	-- port for ROM_WRITE
 --	80		: 7F 7F 7F 7F 7F 7F 7F 7F % KBD_DAT %;
 --	90		: 7F % PORT FF %;
 	90		: 	3030 3031 2032 2033 2034 2035 2036 2037
 				2038 2039 203A 203B 203C 203D 203E 203F; % RAM PAGES %
 	B0		: 	2020 2021 2022 2023 2024 2025 2026 2027
 				2028 2029 202A 202B 202C 202D 202E 202F; % RAM PAGES %
 	[C0..CF]: 	2000 % SYS PORTS COPYES %;
 	D0		: 	2010 2011 2012 2013 2014 2015 2016 2017
 				2018 2019 201A 201B 201C 201D 201E 201F; % RAM PAGES %
 	E0		: 	2041 2041 2041 2041 2041 2041 2041 2041
 				2000 2005 2002 2041 20FF 2000 2000 2041; % ROM PAGES %
 --	E0		: 41 42 43 44 45 46 47 48 00 05 02 E0 F0 00 00 E8; % ROM PAGES %
 	F0		: 	2000 2001 2002 2003 2004 2005 2006 2007
 				2008 2009 200A 200B 200C 200D 200E 200F; % RAM PAGES %
 END ;
--- a/src/altera/acex/k30/DCP.TDF
+++ b/src/altera/acex/k30/DCP.TDF
@ -1,750 +0,0 @@
 	TITLE "DCP";
 PARAMETERS
 	(
 	UPDATE = 1
 	);
 INCLUDE "lpm_ram_dp";
 -- INCLUDE "DC_PORT2";
 SUBDESIGN dcp
 	(
 	CLK42		: INPUT;
 	/RESET		: INPUT;
 	/RES		: OUTPUT;
 	CT[2..0]	: INPUT;
 	CONTINUE	: INPUT;
 	RAS			: OUTPUT;
 	CAS			: OUTPUT;
 	MC_END		: OUTPUT;
 	MC_BEGIN	: OUTPUT;
 	MC_TYPE		: OUTPUT;
 	MC_WRITE	: OUTPUT;
 	A[15..0]	: INPUT;
 	DI[7..0]	: INPUT;
 	DO[7..0]	: OUTPUT;
 	MA[11..0]	: OUTPUT;
 	MCA[1..0]	: OUTPUT;
 	TURBO_HAND	: INPUT;
 	CLK_Z80		: OUTPUT;
 	TURBO		: OUTPUT;
 	/IO			: INPUT;
 	/RD			: INPUT;
 	/WR			: INPUT;
 	/MR			: INPUT;
 	/RF			: INPUT;
 	/M1			: INPUT;
 	/WAIT		: OUTPUT;
 	/IOM		: OUTPUT;
 	/IOMM		: OUTPUT;
 	MD[7..0]	: INPUT;
 	RA[17..14]	: OUTPUT;
 	PAGE[11..0]	: OUTPUT;
 	TYPE[3..0]	: OUTPUT;
 	CS_ROM		: OUTPUT;
 	CS_RAM		: OUTPUT;
 	V_RAM		: OUTPUT;
 	PORT		: OUTPUT;
 --	DOS			: OUTPUT;
 	DOS			: INPUT;
 	WR_DWG		: OUTPUT;
 	WR_TM9		: OUTPUT;
 	WR_AWG		: OUTPUT;
 	RD_KP11		: OUTPUT;
 	KP11_MIX	: OUTPUT;
 	REFRESH		: INPUT;
 	G_LINE[9..0]: INPUT;
 	GA[9..0]	: OUTPUT;
 	GRAF		: OUTPUT;
 	SP_SCR		: OUTPUT;
 	SP_SA		: OUTPUT;
 	SCR128		: OUTPUT;
 	TEST_R		: INPUT;
 	HDD_DATA	: OUTPUT;
 	HDD_FLIP	: OUTPUT;
 	RAM			: OUTPUT;
 	BLK_R		: OUTPUT;
 	PN4Q		: OUTPUT;
 	ACC_ON		: INPUT;	-- asselerator state - 1 - present
 	DCPP[7..0]	: OUTPUT;
 	DOUBLE_CAS	: INPUT;
 	BLK_MEM		: INPUT;
 	)
 VARIABLE
 	CLK21		: NODE;
 --	DC			: DC_PORT2;
 	CLK84		: NODE;
 	CLK42X		: NODE;
 	CTZ[1..0]	: DFF;
 --	CT[2..0]	: DFF;
 	MEM			: LPM_RAM_DP WITH (LPM_WIDTH=16,LPM_WIDTHAD=8,LPM_FILE="DCP.MIF");
 	D[7..0]		: NODE;
 	ADR8_MEM	: NODE;
 	MEM_D[15..0]: NODE;
 	MEM_WR		: NODE;
 	DCP_CX		: NODE;
 	SC_LCELL	: NODE;
 	PG3[5..0]	: NODE;
 	PG0[5..0]	: NODE;
 	MPGS[7..0]	: LCELL;
 	PGS[7..0]	: DFF;
 --	PGS[7..0]	: NODE;
 	PN[7..0]	: DFFE;
 	SC[7..0]	: DFFE;
 	SYS			: DFFE;
 	CNF[7..0]	: DFFE;
 	AROM16		: DFFE;
 	TB_SW		: DFFE;
 	CASH_ON		: NODE;
 	NMI_ENA		: NODE;
 	DD[7..0]	: DFFE;
 	STARTING	: NODE;
 --	DOS_		: NODE;
 --	DOS			: NODE;
 --	DOS_ON_		: NODE;
 	MC_RQ		: NODE;
 	MC_END		: DFFE;
 	MC_BEGIN	: DFFE;
 	MC_TYPE		: DFFE;
 	MC_WRITE	: DFFE;
 	RAS			: DFFE;
 	CAS			: DFFE;
 	MA_[11..0]	: DFFE;
 	MCA[1..0]	: DFFE;
 	/IOM		: DFFE;
 	/IOMM		: DFFE;
 	/IOMX		: DFFE;
 	/IOMY		: DFFE;
 	WT_CT[3..0]	: DFFE;
 	W_TAB[3..0]	: LCELL;
 	HDD_W[3..0]	: NODE;
 	/IO_WAIT	: NODE;
 	/MR_WAIT	: NODE;
 	MEM_RW		: NODE;
 	IO_RW		: NODE;
 	IO_RWM		: NODE;
 	MA_CT[1..0]	: DFFE;
 	WR_TM9		: DFFE;
 	RD_KP11		: DFFE;
 	/RES		: NODE;
 	RFT			: DFF;
 	RFC			: DFFE;
 	GRAF		: DFFE;
 	GRAF_X		: NODE;
 	GA[9..0]	: LCELL;
 	SP_SCR		: LCELL;
 	SP_SA		: LCELL;
 	HDD_FLIP	: DFFE;
 	/IOMZ		: DFFE;
 	HDD_DATA	: NODE;
 	HDD_ENA		: NODE;
 	BLK_C		: NODE;
 	/CASH		: NODE;
 	DCPP[7..0]	: DFFE;
 	PORTS_X		: NODE;
 	NO_IO_WAIT	: NODE;
 	DCP_RES		: NODE;
 	HDD_A[3..0]	: DFF;
 	X_ADR[11..0]: LCELL;
 	X_MA_[11..0]: LCELL;
 	WR_AWGX		: NODE;
 	/IOWR		: NODE;
 	RA[17..14]	: LCELL;
 --	SPR_[1..0]	: NODE;
 	SPR_[1..0]	: LCELL;
 	SYS_ENA		: NODE;
 BEGIN
 %
 -- 	DC.CLK42	= CLK42;
 -- 	DC./RESET	= /RESET;
 -- 
 -- 	DC.A[15..0]	= A[15..0];
 -- 
 -- 	DC./IO		= /IO;
 -- 	DC./WR		= /WR;
 -- 	DC./M1		= /M1;
 -- 
 -- --	DC./IOM;
 -- --	DC./IOMM;
 -- --	DC.DCP[7..0];
 -- 
 -- 	DC.DOS		= DOS;
 -- 	DC.CNF[1..0]= CNF[4..3];
 -- 
 -- 	DC.SYS		= SYS;
 -- 
 -- --	DC.PORT_X;
 %
 --	==============================================================
 %
 -- 	CT[].clk	= CLK42;
 -- 
 -- 	IF CT1 THEN
 -- 		CT[1..0] 	= GND;
 -- 		CT2			= !CT2;
 -- 	ELSE
 -- 		CT[1..0]	= CT[1..0]+1;
 -- 		CT2			= CT2;
 -- 	END IF;
 %
 	/RES	= DFFE(VCC,CLK42,,,CT0);
 --	==============================================================
 --	TURBO	= DFFE((TB_SW & TURBO_HAND),CLK42,,/RESET,CLK_Z80);
 	TURBO	= DFF(DFFE((TB_SW & TURBO_HAND),CLK_Z80,,/RESET,!/RF),CLK42,,);
 	CLK84	= CLK42 xor LCELL(CLK42X);
 	CLK42X	= DFF(!CLK42X,CLK84,,);
 	CTZ[].clk	= CLK84 xor CTZ1;
 	CTZ[]	= CTZ[]+1;
 --	CLK_Z80	= CTZ1;
 --	CLK_Z80	= DFF((!CLK21 & TURBO) or (TFF((CT2 & CT1),CLK42,,) & !TURBO),!CLK42,,);
 --	CLK_Z80	= DFF((CLK21 & TURBO) or (TFF((CT2 & CT1),CLK42,,) & !TURBO),!CLK42,,);
 	CLK_Z80	= DFF((CLK21 & TURBO) or (TFF((!CT2 & CT1),CLK42,,) & !TURBO),!CLK42,,);
 --	CLK_Z80	= DFF((!CLK21 & TURBO) or (TFF((!CT2 & CT1),CLK42,,) & !TURBO),!CLK42,,);
 --	==============================================================
 	CLK21	= DFF((!CT0 xor CT2),CLK42,,);
 --	=== Adress Multiplexer =======================================
 	MA_[].clk	= CLK42;
 --	MA_[].ena	= (CT2 xor CT0);
 	MA_[].ena	= CLK21;
 	WR_TM9.clk	= CLK42;
 --	WR_TM9.ena	= (CT2 xor CT0);
 	WR_TM9.ena	= CLK21;
 	WR_TM9.prn	= /RES;
 	RD_KP11.clk	= !CLK42;
 --	RD_KP11.ena	= (CT2 xor CT0);
 	RD_KP11.ena	= CLK21;
 	RD_KP11.prn	= /RES;
 	RD_KP11.d	= !(MA_CT[] == 0);
 --	WR_AWGX		= DFF((WR_TM9 or CLK21),!CLK42,,);
 	WR_AWGX		= DFF(GND,!WR_TM9,,DFF(WR_AWGX,CLK42,,));
 --	WR_TM9	= (!MA_CT1 or (!IO_RW & !PORTS_X));
 	WR_TM9	= (!MA_CT1 or (!/IO & !PORTS_X));
 	WR_AWG		= WR_AWGX;
 	KP11_MIX	= TFF(VCC,RD_KP11,,);
 	WR_DWG		= !MC_BEGIN;
 --	WR_DWG		= DFF(!MC_BEGIN,CLK42,,);
 --	WR_DWG		= LCELL(!MC_BEGIN);
 --	MA_CT[].ena	= (CT2 xor CT0);
 	MA_CT[].ena	= CLK21;
 	MA_CT[].clk	= CLK42;
 	IF !LCELL(CT2 & !CT1) THEN
 		MA_CT[] = MA_CT[]+1;
 	ELSE
 		MA_CT[] = GND;
 	END IF;
 %
 --	MA_[11..0]	bit0 - WG_A5
 --				bit1 - WG_A6
 --				bit2 - MUX_KP11, 0 - WG,CMOS	1 - KMPS,TM9
 --				bit3 - RD/WR	 0 - WRITE		1 - READ
 --				bit4 - CS_WG93 or WR_TM9
 --				bit5 - HDD/CMOS strobe
 --				bit7,6	- 	00 - not
 --							01 - ????
 --							10 - HDD1/2
 --							11 - CMOS
 --				bit8 - HDD CS1/CS3 or CMOS data/adr
 --				bit9,10,11 - HDD_A[2..0]
 %
 	CASE A[15..14] IS
 		WHEN 0 => SP_SCR = GND;		SP_SA = GND;
 		WHEN 1 => SP_SCR = !GRAF;	SP_SA = GND;
 		WHEN 2 => SP_SCR = GND;		SP_SA = PG3[1];
 		WHEN 3 => SP_SCR = !GRAF & LCELL(PG3[] == B"1101X1"); SP_SA = PG3[1];
 	END CASE;
 	CASE GRAF IS
 		WHEN 0 => GA[] = (GND,GND,MEM.q[3..0],A[13..10]);
 --		WHEN 1 => GA[] = (VCC,(G_LINE[8..0] + (B"00000",A[13..10])));
 		WHEN 1 => GA[] = (VCC,G_LINE[8..0]);
 	END CASE;
 	CASE (IO_RW,MA_CT0) IS
 		WHEN 0 => X_ADR[] = (GND,CNF4,PN5,DOS,/WR,A15,A14,A[6..5],A13,A7,A[2]);
 		WHEN 1 => X_ADR[] = (GND,GND,CNF[4..3],B"01000000");
 		WHEN 2 => X_ADR[] = (GND,GA3,GA[1..0],A[9..2]);
 		WHEN 3 => X_ADR[] = (GND,GND,GA[3..2],MEM.q[7..4],GA[7..4]);
 	END CASE;
 	CASE IO_RW IS
 		WHEN 0 => X_MA_[] = (HDD_A[2..0],MEM.q[8..6],((MEM.q[5..4]) & (!/IOMZ,!/IOMY)),/WR,MEM.q2,A[6..5]);
 		WHEN 1 => X_MA_[] = (HDD_A[2..0],B"00000",/WR,VCC,A[6..5]);
 	END CASE;
 %
 --	CASE MA_CT1 IS
 ----		WHEN 0 => MA_[] = X_ADR[];
 --		WHEN 0 => MA_[] = (GND,X_ADR[10..0]);
 --		WHEN 1 => MA_[] = (HDD_A[2..0],X_MA_[8..4],/WR,X_MA_[3],A[6..5]);
 --	END CASE;
 %
 	CASE (IO_RW,MA_CT1) IS
 		WHEN B"00" =>
 			MA_[] 	= (X_ADR[11..0]);
 		WHEN B"01" =>
 			MA_[] 	= (HDD_A[2..0],MEM.q[8..6],((MEM.q[5..4]) & (!/IOMZ,!/IOMY)),/WR,MEM.q2,A[6..5]);
 		WHEN B"10" =>
 			MA_[] 	= (X_ADR[11..0]);
 		WHEN B"11" =>
 			MA_[] 	= (HDD_A[2..0],B"00000",/WR,VCC,A[6..5]);
 	END CASE;
 	MA[]	= MA_[];
 	MCA[].ena	= CT2 & CT1;
 	MCA[].clk	= CLK42;
 	MCA[]		= A[1..0];	-- adress for CAS
 	HDD_A[].clk	= CLK42;
 	CASE (A[14],A[2..0]) IS
 		WHEN 0 => HDD_A[] = 0;
 		WHEN 1 => HDD_A[] = 1;
 		WHEN 2 => HDD_A[] = 2;
 		WHEN 3 => HDD_A[] = 3;
 		WHEN 4 => HDD_A[] = 4;
 		WHEN 5 => HDD_A[] = 5;
 		WHEN 6 => HDD_A[] = 0;
 		WHEN 7 => HDD_A[] = 0;
 		WHEN 8 => HDD_A[] = 0;
 		WHEN 9 => HDD_A[] = 0;
 		WHEN 10 => HDD_A[] = 6;
 		WHEN 11 => HDD_A[] = 7;
 		WHEN 12 => HDD_A[] = 14;
 		WHEN 13 => HDD_A[] = 15;
 		WHEN 14 => HDD_A[] = 0;
 		WHEN 15 => HDD_A[] = 0;
 	END CASE;
 --	=== Memory Sinchronizer ======================================
 %          RF | MEM | RF
 		____  |     |   _______
 /MR		    \__________/
 			  |     |
 		 _____|     |   _______
 MC_BEGIN      \________/
 			  |		|__
 MC_END  ____________/  \_______
 		______      |__________
 MC_TYPE       \_____/
 			  |     |
 RAS		__    _    ___    __
 		  \__/|\__/ | \__/
 		    ____    _    __
 CAS		\__/  | \__/|\__/
 			  |		|
 %
 --	MC_RQ		= DFF(((/MR & DFF(/IO,CLK42,,)) or (/RD & /WR)),CLK42,,);
 --	MC_RQ		= DFF(((/MR & DFFE(GND,!CLK42,,!/IO,CT0)) or (/RD & /WR)),!CLK42,,);
 --	MC_RQ		= DFF((((/MR or !/RF) & DFF(/IO,CLK42,,/M1)) or (/RD & /WR)),CLK42,,);
 --	MC_RQ		= DFF((((/MR or !/RF) & IO_RW) or (/RD & /WR)),CLK42,,);
 --	MC_RQ		= DFF(((MEM_RW & IO_RW) or (/RD & /WR)),CLK42,,);
 	MC_RQ		= DFF(((MEM_RW & DFF(DFF(IO_RW,CLK42,,!/IO),CLK42,,!/IO)) or (/RD & /WR)),!CLK42,,);
 	MC_BEGIN.clk= CLK42;
 	MC_BEGIN.ena= CT1 & CT2;
 	MC_BEGIN.d	= MC_RQ;
 	MC_BEGIN.prn= !(/MR & /IO);
 	MC_END.clk	= CLK42;
 	MC_END.d	= VCC;
 	MC_END.ena	= (CT0 & CT2) & !MC_BEGIN & CONTINUE & !BLK_C;
 	MC_END.clrn	= !(/MR & /IO);
 	MC_TYPE.clk	= CLK42;
 	MC_TYPE.ena	= CT1 & CT2;
 	MC_TYPE.d	= MC_RQ or MC_END;
 	MC_TYPE.prn	= /RES;
 	MC_WRITE.clk= CLK42;
 	MC_WRITE.ena= CT1 & CT2;
 	MC_WRITE.d	= MC_RQ or CS_RAM or /WR or MC_END;
 	MC_WRITE.prn= /RES;
 	RFT.clk		= REFRESH;
 	RFT.d		= GND;
 	RFT.prn		= RFC;
 --	RFT.prn		= VCC;
 	RFC.clk		= CLK42;
 	RFC.d		= !MC_RQ or RFT;
 --	RFC.d		= !MC_RQ;
 	RFC.ena		= CT1 & CT2;
 	RAS.ena		= (!(CT1 or (CT0 xor MC_TYPE))) & (!MC_TYPE or !RFC);
 	CAS.ena		= (!(CT1 or (CT0 xor !MC_TYPE))) & (!MC_TYPE or !RFC);
 --	RAS.ena		= (!(CT1 or (CT0 xor MC_TYPE)));
 --	CAS.ena		= (!(CT1 or (CT0 xor !MC_TYPE)));
 	RAS.clk		= CLK42;	CAS.clk		= CLK42;
 	RAS.d		= CT2;      CAS.d		= CT2 or BLK_C;
 	RAS.prn		= /RES;
 	CAS.prn		= /RES;
 --	CAS.prn		= !BLK_C;
 --	/MR_WAIT	= (MEM_RW or /CASH or DFF(MC_END,CLK42,!/MR,)) or (!TURBO & !ACC_ON);
 --	/MR_WAIT	= MC_END or LCELL(MEM_RW or /CASH or (!TURBO & !ACC_ON));
 	/MR_WAIT	= LCELL(MC_END or MEM_RW or /CASH or (!TURBO & !ACC_ON));
 --	MEM_RW		= LCELL(/MR or !/RF);
 	-- anti gluk!
 	MEM_RW		= DFF((!/RF or BLK_MEM),!/MR,,LCELL(MEM_RW or !/MR));
 	IO_RWM		= DFF(!/M1,!/IO,,LCELL(IO_RW or !/IO));
 	IO_RW		= DFF(/IO,CLK42,,/M1);
 	/IOMM.clk	= CLK42;
 --	/IOMM.ena	= CT0 xor CT2;
 	/IOMM.ena	= CLK21;
 	/IOMM.d		= IO_RW or !MC_END or DFF((WT_CT[] == 0),CLK42,,);
 	/IOMM.prn	= /RES;
 	/IOMX.clk	= CLK42;
 --	/IOMX.ena	= CT0 xor CT2;
 	/IOMX.ena	= CLK21;
 	/IOMX.d		= /IOMM;
 	/IOMX.prn	= /RES;
 	/IOMY.clk	= CLK42;
 --	/IOMY.ena	= CT0 xor CT2;
 	/IOMY.ena	= CLK21;
 	/IOMY.d		= /IOMX or !MC_END or DFF((WT_CT[] == B"000X"),CLK42,,);
 --	/IOMY.prn	= /RES;
 	/IOMY.prn	= PORTS_X;
 	PORTS_X		= DFF(((DCPP[7..4] == B"0010") or (DCPP[7..4] == B"0001")),CLK42,,);
 	/IOMZ.clk	= CLK42;
 --	/IOMZ.ena	= CT0 xor CT2;
 	/IOMZ.ena	= CLK21;
 	/IOMZ.d 	= (A8 xor /RD) or /IOMX or !MC_END or DFF((WT_CT[] == B"000X"),CLK42,,);
 	/IOMZ.prn	= PORTS_X;
 	HDD_DATA	= DFF((HDD_ENA & DFF((MEM.q[11..8] == 0),CLK42,,) & PORTS_X),CLK42,,);
 	HDD_ENA		= (MEM.q[7..5] == B"101");
 	HDD_FLIP.clk	= /IOM;
 	HDD_FLIP.ena	= HDD_ENA & DFF((DCPP[] == B"0010XXXX"),CLK42,,);
 	HDD_FLIP.d		= !HDD_FLIP & (MEM.q[11..8] == 0);
 	HDD_FLIP.clrn	= /RESET & DFF(GND,!DOUBLE_CAS,,HDD_FLIP);
 	/IOM.clk	= CLK42;
 --	/IOM.ena	= CT0 xor CT2;
 	/IOM.ena	= CLK21;
 	/IOM.d		= (/IOMX & /IOM);
 	/IOM.prn	= !/IO & /M1;
 --	/IO_WAIT	= LCELL(/IO or !/M1 or DFF(DFFE((WT_CT[] == 0),CLK42,,,CLK21),CLK42,,NO_IO_WAIT));
 	/IO_WAIT	= LCELL(IO_RWM or DFF(DFFE((WT_CT[] == 0),CLK42,,,CLK21),CLK42,,NO_IO_WAIT));
 	NO_IO_WAIT	= !DFF(((A[7..0] == B"111XX1XX") & !TURBO & DOS),CLK42,,);
 --	NO_IO_WAIT	= TURBO;
 	WT_CT[].clk	= CLK42;
 --	WT_CT[].ena	= (CT2 xor CT0);
 	WT_CT[].ena	= CLK21;
 --	WT_CT[].ena	= CT1;
 	WT_CT[].prn	= MC_END;
 	CASE (/IOM,DFF((WT_CT[] == 0),CLK42,,)) IS
 		WHEN B"1X" => WT_CT[].d	= W_TAB[];
 		WHEN B"00" => WT_CT[].d	= WT_CT[]-1;
 		WHEN B"01" => WT_CT[].d	= GND;
 	END CASE;
 	CASE (TURBO,MEM.q[14..12]) IS
 		WHEN 0 => W_TAB[] = 2;  WHEN  8 => W_TAB[] = 2;
 		WHEN 1 => W_TAB[] = 2;  WHEN  9 => W_TAB[] = 2;
 		WHEN 2 => W_TAB[] = 1;  WHEN 10 => W_TAB[] = 4;
 		WHEN 3 => W_TAB[] = 1;  WHEN 11 => W_TAB[] = 4;
 		WHEN 4 => W_TAB[] = 1;  WHEN 12 => W_TAB[] = 7;
 		WHEN 5 => W_TAB[] = 2;  WHEN 13 => W_TAB[] = 7;
 --		WHEN 6 => W_TAB[] = 10; WHEN 14 => W_TAB[] = 10;
 		WHEN 6 => W_TAB[] = 7;  WHEN 14 => W_TAB[] = 7;
 --		WHEN 6 => W_TAB[] = 13; WHEN 14 => W_TAB[] = 13;
 		WHEN 7 => W_TAB[] = 10; WHEN 15 => W_TAB[] = 10;
 	END CASE;
 	CASE LCELL(MEM.q[11..8] == 0) IS
 		WHEN 0 => HDD_W[] = 10;	-- registers wait
 		WHEN 1 => HDD_W[] = 4;  -- datas wait
 	END CASE;
 	/WAIT		= (/IO_WAIT & /MR_WAIT);
 --	=== Other Devicese CASHE, ISA, ROM... ===
 	V_RAM			= PN2;	-- for ORIGINAL Waits
 IF UPDATE == 1 GENERATE
 	-- all ROM/RAM switches in main .tdf
 	BLK_R	= SC4;
 	-- all cashes in main .tdf
 	/CASH 	= GND;
 	-- cashe dir in main .tdf
 	CASH_ON = GND;
 ELSE GENERATE
 	-- for blk wait
 	/CASH = DFF((MEM.q[7..4] == 15),!CLK42,BLK_R,);
 --	when BLK_R = 1 => Other Devices stay Active!
 	BLK_R = DFF(  (LCELL((MEM.q7 & MEM.q6 & RAM) or
 				   (MEM.q7 & LCELL(A14 & A15 & SC4))) &
 				   !DFF(DFF(MC_RQ,CLK42,,!/MR),CLK42,,!/MR)),!CLK42,!/MR,);
 	CASH_ON		= DFFE(A7,(/IO or /RD),/RESET,,DFF((DCPP[] == H"88"),CLK42,,));
 END GENERATE;
 	RAM	= !LCELL(A14 or A15 or (SC0 & SYS));
 	CS_ROM	= LCELL(/MR or !RAM or !/RF);
 	CS_RAM	= LCELL(/MR or  RAM or !/RF);
 -- ==============================================
 --	graf screen enable for pages
 	GRAF_X		= LCELL(MEM.q[7..4] == B"0101");
 	GRAF.clk	= CLK42;
 	GRAF.ena	= (CT0 & CT2);
 	GRAF.d 		= GRAF_X;
 	BLK_C 		= LCELL((GRAF_X xor GRAF) & !MC_TYPE);
 -----------------------------------------
 	SCR128		= PN3;
 	D[]			= DI[];
 	-- when not IO - reset DCPP!
 	DCP_RES		= DFF((STARTING & !/IO & /M1),CLK42,,);
 	DCPP[].clk	= CLK42;
 	DCPP[].ena	= !DFF(MC_END,CLK42,,);
 	DCPP[].clrn	= MC_END & DCP_RES;	-- not in/out when START
 	DCPP[].d	= MD[];
 --	DD[].clk	= !CLK42;
 --	DD[].ena	= !DFF(MC_END,!CLK42,,);
 	DD[].clk	= CLK42;
 	DD[].ena	= !DFF(MC_END,CLK42,,);
 	DD[].clrn	= MC_END & DCP_RES;
 	CASE LCELL(MD[7..4] == 15) IS
 		WHEN 0 => DD[].d = MD[];
 		WHEN 1 => DD[].d = (VCC,VCC,PG3[]);
 	END CASE;
 --	=== Port Decoder =============================================
 	DCP_CX		= (DCPP[] == B"1100XXXX");
 	SYS_ENA		= DFF((DCP_CX & (DCPP[] == B"XXXXX110")),CLK42,,);
 --	/IOWR		= DFF((/WR or /IO),CLK42,,!/IO);
 	/IOWR		= LCELL(/IO or /WR or !/M1);
    CNF[].ena 	= SYS_ENA; CNF[].d  = (DI[] & DI2) or (CNF[] & !DI2);
 	AROM16.ena 	= SYS_ENA; AROM16.d = (DI0 & !DI1) or (AROM16 & DI1);
 	TB_SW.ena 	= SYS_ENA; TB_SW.d  = (DI0 &  DI1) or (TB_SW & !DI1);
 	SYS.ena 	= SYS_ENA; SYS.d    = !A6;
 	SC[].ena 	= DFF((DCP_CX & (DCPP[] == B"XXXXX000")),CLK42,,)	;SC[].d   = DI[];
 	PN[].ena 	= DFF((DCP_CX & (DCPP[] == B"XXXXX001")),CLK42,,)	;PN[].d	  = DI[];
 	TB_SW.clk	= /IOWR;
 	AROM16.clk	= /IOWR;
 	PN[].clk	= /IOWR;
 	SC[].clk	= /IOWR;
 	SYS.clk		= /IOWR;
 	CNF[].clk	= /IOWR;
 	AROM16.clrn		= /RESET;
 	TB_SW.prn		= /RESET;
 	SYS.clrn		= /RESET;
 	CNF[].clrn		= /RESET;
 	SC[].clrn		= /RESET & !CNF6;	-- Scorpion-OFF
 	PN[5..0].clrn	= /RESET & !CNF5;	-- reset PN5
 	PN[7..6].clrn	= /RESET & CNF7;	-- set Pentagon-512
 	PN4Q	= PN4;
 --	====================================
 --	********** Pages decoder ***********
 --	====================================
 	PG3[]		= (!PN7,VCC,LCELL((SC4 & !CNF7) or (CNF7 & PN6)),PN[2..0]);
 --	SC0,SC1,SYS,DOS,PN4,AROM16,CASH_ON,NMI_ENA
 	PG0[]		= (VCC,GND,
 				  LCELL(SC0 or !SYS or CASH_ON or !NMI_ENA),
 				  LCELL(((AROM16 & !(SC0 & SYS)) or (CASH_ON & NMI_ENA))),
 				  LCELL((SPR_1 & SC_LCELL) or !SYS or !NMI_ENA),
 				  LCELL((SPR_0 & SC_LCELL) or !SYS or !NMI_ENA));
 --	SC_LCELL	= LCELL(!(SC0 & SYS) & !CASH_ON);
 	SC_LCELL	= (!(SC0 & SYS) & !CASH_ON);
 	NMI_ENA		= VCC;
 	SPR_[]	= !SC1 & (DOS,(PN4 or !DOS));	-- expansion/dos/basic128/basic48
 	CASE (TEST_R,SYS) IS
 		WHEN B"X0" => RA[] = (!AROM16,B"000");		-- system 0/1
 		WHEN B"01" => RA[] = (!AROM16,GND,SPR_[]);	-- expansion/dos/basic
 		WHEN B"11" => RA[] = (B"001",SPR_0);		-- test
 	END CASE;
 --	====================================
 	CASE A[15..14] IS
 		WHEN 0 => MPGS[5..0] = PG0[];
 		WHEN 1 => MPGS[5..0] = B"101001"; 	%H"E9"%
 		WHEN 2 => MPGS[5..0] = B"101010"; 	%H"EA"%
 		WHEN 3 => MPGS[5..0] = PG3[];
 	END CASE;
 	MPGS[7..6]	= VCC;
 --	STARTING = DFF(GND,VCC,/RESET,(/IO or /RD));
 	STARTING = LCELL(/RESET & (STARTING or !(/IO or /RD)));
 	PGS[].clk	= !CLK42;
 	CASE (LCELL(/IO & !(A14 & A15 & !STARTING)),MC_END) IS
 		WHEN B"1X" => PGS[]	= (VCC,VCC,MPGS[5..0]);
 		WHEN B"01" => PGS[] = DD[];
 		WHEN B"00" => PGS[] = GND;
 	END CASE;
 	MEM_WR	= DFFE((DCPP[7] & DCPP[6] & STARTING & DFF(DFF((MC_END & !/WR),CLK42,,),CLK42,,)),CLK42,!/IO,,CT1);
 	ADR8_MEM	= GND;
 	CASE ADR8_MEM IS
 		WHEN 1 => MEM_D[]	= (DI[],MEM.q[7..0]);	DO[] = MEM.q[15..8];
 		WHEN 0 => MEM_D[]	= (MEM.q[15..8],DI[]);	DO[] = MEM.q[7..0];
 	END CASE;
 	MEM.wren 		= MEM_WR;
 	MEM.data[] 		= MEM_D[];
 	MEM.wraddress[] = PGS[];
 	MEM.wrclock		= CLK42;
 	MEM.wrclken		= VCC;
 	MEM.rden		= VCC;
 	MEM.rdaddress[] = PGS[];
 	MEM.rdclock		= CLK42;
 	MEM.rdclken		= VCC;
 --					= MEM.q[];
 	PAGE[]			= MEM.q[11..0];
 	TYPE[]			= MEM.q[15..12];
 	PORT			= !(MEM.q[15..12] == 0) or /IO or (/RD & /WR);
 END;
--- a/src/altera/acex/k30/KBD.ACF
+++ b/src/altera/acex/k30/KBD.ACF
@ -1,568 +0,0 @@
 --
 --  Copyright (C) 1988-2000 Altera Corporation
 --  Any megafunction design, and related net list (encrypted or decrypted),
 --  support information, device programming or simulation file, and any other
 --  associated documentation or information provided by Altera or a partner
 --  under Altera's Megafunction Partnership Program may be used only to
 --  program PLD devices (but not masked PLD devices) from Altera.  Any other
 --  use of such megafunction design, net list, support information, device
 --  programming or simulation file, or any other related documentation or
 --  information is prohibited for any other purpose, including, but not
 --  limited to modification, reverse engineering, de-compiling, or use with
 --  any other silicon devices, unless such use is explicitly licensed under
 --  a separate agreement with Altera or a megafunction partner.  Title to
 --  the intellectual property, including patents, copyrights, trademarks,
 --  trade secrets, or maskworks, embodied in any such megafunction design,
 --  net list, support information, device programming or simulation file, or
 --  any other related documentation or information provided by Altera or a
 --  megafunction partner, remains with Altera, the megafunction partner, or
 --  their respective licensors.  No other licenses, including any licenses
 --  needed under any third party's intellectual property, are provided herein.
 --
 CHIP kbd
 BEGIN
 	DEVICE = EP1K30QC208-3;
 END;
 DEFAULT_DEVICES
 BEGIN
 	AUTO_DEVICE = EP1K100FC484-1;
 	AUTO_DEVICE = EP1K100FC256-1;
 	AUTO_DEVICE = EP1K100QC208-1;
 	AUTO_DEVICE = EP1K50FC484-1;
 	AUTO_DEVICE = EP1K50FC256-1;
 	AUTO_DEVICE = EP1K50QC208-1;
 	AUTO_DEVICE = EP1K50TC144-1;
 	AUTO_DEVICE = EP1K30FC256-1;
 	AUTO_DEVICE = EP1K30QC208-1;
 	AUTO_DEVICE = EP1K30TC144-1;
 	ASK_BEFORE_ADDING_EXTRA_DEVICES = ON;
 END;
 TIMING_POINT
 BEGIN
 	DEVICE_FOR_TIMING_SYNTHESIS = EP1K30QC208-3;
 	FREQUENCY = 100MHz;
 	MAINTAIN_STABLE_SYNTHESIS = OFF;
 	CUT_ALL_CLEAR_PRESET = ON;
 	CUT_ALL_BIDIR = ON;
 END;
 IGNORED_ASSIGNMENTS
 BEGIN
 	FIT_IGNORE_TIMING = OFF;
 	DEMOTE_SPECIFIC_LCELL_ASSIGNMENTS_TO_LAB_ASSIGNMENTS = OFF;
 	IGNORE_LOCAL_ROUTING_ASSIGNMENTS = OFF;
 	IGNORE_DEVICE_ASSIGNMENTS = OFF;
 	IGNORE_LC_ASSIGNMENTS = OFF;
 	IGNORE_PIN_ASSIGNMENTS = OFF;
 	IGNORE_CHIP_ASSIGNMENTS = OFF;
 	IGNORE_TIMING_ASSIGNMENTS = OFF;
 	IGNORE_LOGIC_OPTION_ASSIGNMENTS = OFF;
 	IGNORE_CLIQUE_ASSIGNMENTS = OFF;
 END;
 GLOBAL_PROJECT_DEVICE_OPTIONS
 BEGIN
 	MAX7000B_ENABLE_VREFB = OFF;
 	MAX7000B_ENABLE_VREFA = OFF;
 	MAX7000B_VCCIO_IOBANK2 = 3.3V;
 	MAX7000B_VCCIO_IOBANK1 = 3.3V;
 	CONFIG_EPROM_PULLUP_RESISTOR = ON;
 	CONFIG_EPROM_USER_CODE = FFFFFFFF;
 	FLEX_CONFIGURATION_EPROM = AUTO;
 	MAX7000AE_ENABLE_JTAG = ON;
 	MAX7000AE_USER_CODE = FFFFFFFF;
 	FLEX6000_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX10KA_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = ON;
 	FLEX10K_USE_LOW_VOLTAGE_CONFIGURATION_EPROM = OFF;
 	FLEX6000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME_FLEX_6000 = PASSIVE_SERIAL;
 	MULTIVOLT_IO = OFF;
 	MAX7000S_ENABLE_JTAG = ON;
 	FLEX10K_ENABLE_LOCK_OUTPUT = OFF;
 	MAX7000S_USER_CODE = FFFF;
 	CONFIG_SCHEME_10K = PASSIVE_SERIAL;
 	FLEX10K_JTAG_USER_CODE = 7F;
 	ENABLE_INIT_DONE_OUTPUT = OFF;
 	ENABLE_CHIP_WIDE_OE = OFF;
 	ENABLE_CHIP_WIDE_RESET = OFF;
 	nCEO = UNRESERVED;
 	CLKUSR = UNRESERVED;
 	ADD17 = UNRESERVED;
 	ADD16 = UNRESERVED;
 	ADD15 = UNRESERVED;
 	ADD14 = UNRESERVED;
 	ADD13 = UNRESERVED;
 	ADD0_TO_ADD12 = UNRESERVED;
 	SDOUT = RESERVED_DRIVES_OUT;
 	RDCLK = UNRESERVED;
 	RDYnBUSY = UNRESERVED;
 	nWS_nRS_nCS_CS = UNRESERVED;
 	DATA1_TO_DATA7 = UNRESERVED;
 	DATA0 = RESERVED_TRI_STATED;
 	FLEX8000_ENABLE_JTAG = OFF;
 	CONFIG_SCHEME = ACTIVE_SERIAL;
 	DISABLE_TIME_OUT = OFF;
 	ENABLE_DCLK_OUTPUT = OFF;
 	RELEASE_CLEARS = OFF;
 	AUTO_RESTART = OFF;
 	USER_CLOCK = OFF;
 	SECURITY_BIT = OFF;
 	RESERVED_PINS_PERCENT = 0;
 	RESERVED_LCELLS_PERCENT = 0;
 END;
 GLOBAL_PROJECT_SYNTHESIS_ASSIGNMENT_OPTIONS
 BEGIN
 	STYLE = FAST;
 	MULTI_LEVEL_SYNTHESIS_MAX9000 = ON;
 	AUTO_IMPLEMENT_IN_EAB = OFF;
 	AUTO_OPEN_DRAIN_PINS = ON;
 	ONE_HOT_STATE_MACHINE_ENCODING = OFF;
 	AUTO_REGISTER_PACKING = OFF;
 	DEVICE_FAMILY = ACEX1K;
 	AUTO_FAST_IO = OFF;
 	AUTO_GLOBAL_OE = ON;
 	AUTO_GLOBAL_PRESET = ON;
 	AUTO_GLOBAL_CLEAR = ON;
 	AUTO_GLOBAL_CLOCK = ON;
 	MULTI_LEVEL_SYNTHESIS_MAX5000_7000 = OFF;
 	OPTIMIZE_FOR_SPEED = 5;
 END;
 COMPILER_PROCESSING_CONFIGURATION
 BEGIN
 	USE_QUARTUS_FITTER = ON;
 	PRESERVE_ALL_NODE_NAME_SYNONYMS = OFF;
 	FITTER_SETTINGS = NORMAL;
 	SMART_RECOMPILE = OFF;
 	GENERATE_AHDL_TDO_FILE = OFF;
 	RPT_FILE_USER_ASSIGNMENTS = ON;
 	RPT_FILE_LCELL_INTERCONNECT = ON;
 	RPT_FILE_HIERARCHY = ON;
 	RPT_FILE_EQUATIONS = ON;
 	LINKED_SNF_EXTRACTOR = OFF;
 	OPTIMIZE_TIMING_SNF = OFF;
 	TIMING_SNF_EXTRACTOR = ON;
 	FUNCTIONAL_SNF_EXTRACTOR = OFF;
 	DESIGN_DOCTOR_RULES = EPLD;
 	DESIGN_DOCTOR = OFF;
 END;
 COMPILER_INTERFACES_CONFIGURATION
 BEGIN
 	NETLIST_OUTPUT_TIME_SCALE = 0.1ns;
 	EDIF_INPUT_SHOW_LMF_MAPPING_MESSAGES = OFF;
 	EDIF_BUS_DELIMITERS = [];
 	EDIF_FLATTEN_BUS = OFF;
 	EDIF_OUTPUT_FORCE_0NS_DELAYS = OFF;
 	EDIF_OUTPUT_INCLUDE_SPECIAL_PRIM = OFF;
 	EDIF_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	EDIF_OUTPUT_DELAY_CONSTRUCTS = EDO_FILE;
 	EDIF_OUTPUT_USE_EDC = OFF;
 	EDIF_INPUT_USE_LMF2 = OFF;
 	EDIF_INPUT_USE_LMF1 = OFF;
 	EDIF_OUTPUT_GND = GND;
 	EDIF_OUTPUT_VCC = VCC;
 	EDIF_INPUT_GND = GND;
 	EDIF_INPUT_VCC = VCC;
 	EDIF_OUTPUT_EDC_FILE = *.edc;
 	EDIF_INPUT_LMF2 = *.lmf;
 	EDIF_INPUT_LMF1 = *.lmf;
 	VHDL_GENERATE_CONFIGURATION_DECLARATION = OFF;
 	VHDL_OUTPUT_DELAY_CONSTRUCTS = VHO_FILE;
 	VERILOG_OUTPUT_DELAY_CONSTRUCTS = VO_FILE;
 	VHDL_FLATTEN_BUS = OFF;
 	VERILOG_FLATTEN_BUS = OFF;
 	EDIF_TRUNCATE_HIERARCHY_PATH = OFF;
 	VHDL_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_TRUNCATE_HIERARCHY_PATH = OFF;
 	VERILOG_OUTPUT_MAP_ILLEGAL_CHAR = OFF;
 	VHDL_WRITER_VERSION = VHDL87;
 	VHDL_READER_VERSION = VHDL87;
 	SYNOPSYS_MAPPING_EFFORT = MEDIUM;
 	SYNOPSYS_BOUNDARY_OPTIMIZATION = OFF;
 	SYNOPSYS_HIERARCHICAL_COMPILATION = ON;
 	SYNOPSYS_DESIGNWARE = OFF;
 	SYNOPSYS_COMPILER = DESIGN;
 	USE_SYNOPSYS_SYNTHESIS = OFF;
 	VHDL_NETLIST_WRITER = OFF;
 	VERILOG_NETLIST_WRITER = OFF;
 	XNF_GENERATE_AHDL_TDX_FILE = ON;
 	XNF_TRANSLATE_INTERNAL_NODE_NAMES = ON;
 	XNF_EMULATE_TRI_STATE_BUSES = INTERNAL_LOGIC;
 	EDIF_OUTPUT_VERSION = 200;
 	EDIF_NETLIST_WRITER = OFF;
 END;
 CUSTOM_DESIGN_DOCTOR_RULES
 BEGIN
 	MASTER_RESET = OFF;
 	EXPANDER_NETWORKS = ON;
 	RACE_CONDITIONS = ON;
 	DELAY_CHAINS = ON;
 	ASYNCHRONOUS_INPUTS = ON;
 	PRESET_CLEAR_NETWORKS = ON;
 	STATIC_HAZARDS_AFTER_SYNTHESIS = OFF;
 	STATIC_HAZARDS_BEFORE_SYNTHESIS = ON;
 	MULTI_CLOCK_NETWORKS = ON;
 	MULTI_LEVEL_CLOCKS = ON;
 	GATED_CLOCKS = ON;
 	RIPPLE_CLOCKS = ON;
 END;
 SIMULATOR_CONFIGURATION
 BEGIN
 	BIDIR_PIN = STRONG;
 	END_TIME = 0.0ns;
 	START_TIME = 0.0ns;
 	GLITCH_TIME = 0.0ns;
 	GLITCH = OFF;
 	OSCILLATION_TIME = 0.0ns;
 	OSCILLATION = OFF;
 	CHECK_OUTPUTS = OFF;
 	SETUP_HOLD = OFF;
 	USE_DEVICE = OFF;
 END;
 TIMING_ANALYZER_CONFIGURATION
 BEGIN
 	ANALYSIS_MODE = REGISTERED_PERFORMANCE;
 	CUT_OFF_RAM_REGISTERED_WE_PATHS = OFF;
 	LIST_PATH_FREQUENCY = 10MHz;
 	LIST_PATH_COUNT = 10;
 	REGISTERED_PERFORMANCE_OPTIONS = NUMBER_OF_PATHS;
 	INCLUDE_PATHS_LESS_THAN_VALUE = 214.7483647ms;
 	INCLUDE_PATHS_LESS_THAN = OFF;
 	INCLUDE_PATHS_GREATER_THAN_VALUE = 0.0ns;
 	INCLUDE_PATHS_GREATER_THAN = OFF;
 	DELAY_MATRIX_OPTIONS = SHOW_ALL_PATHS;
 	CELL_WIDTH = 18;
 	LIST_ONLY_LONGEST_PATH = ON;
 	CUT_OFF_CLEAR_AND_PRESET_PATHS = ON;
 	CUT_OFF_IO_PIN_FEEDBACK = ON;
 	AUTO_RECALCULATE = OFF;
 END;
 OTHER_CONFIGURATION
 BEGIN
 	LAST_MAXPLUS2_VERSION = 10.0;
 	EXPLICIT_FAMILY = 1;
 	ROW_PINS_LCELL_INSERT = ON;
 	CARRY_OUT_PINS_LCELL_INSERT = OFF;
 	NORMAL_LCELL_INSERT = ON;
 	FLEX_10K_52_COLUMNS = 40;
 	DEFAULT_9K_EXP_PER_LCELL = 1/2;
 	LOCAL_INTERCONNECT_PER_LAB_PERCENT = 100;
 	LCELLS_PER_ROW_PERCENT = 100;
 	FAN_IN_PER_LCELL_PERCENT = 100;
 	EXP_PER_LCELL_PERCENT = 100;
 	ROW_PINS_PERCENT = 50;
 	ORIGINAL_MAXPLUS2_VERSION = 9.6;
 	COMPILER_DATA = "1,1,0,1,0,0,0,1,1,1,1,0,1,1,1";
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE NORMAL.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = ON;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = ON;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE FAST.FLEX8000
 BEGIN
 	SUBFACTOR_EXTRACTION = ON;
 	REFACTORIZATION = ON;
 	REGISTER_OPTIMIZATION = ON;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = ON;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = ON;
 	REDUCE_LOGIC = ON;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = FULL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = AUTO;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = AUTO;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX5000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.MAX7000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.CLASSIC
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = ON;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = ON;
 	SOFT_BUFFER_INSERTION = OFF;
 	FAST_IO = OFF;
 	IGNORE_SOFT_BUFFERS = OFF;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = ON;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = -1;
 	CARRY_CHAIN = IGNORE;
 	CASCADE_CHAIN_LENGTH = -1;
 	CASCADE_CHAIN = IGNORE;
 END;
 DEFINE_LOGIC_SYNTHESIS_STYLE WYSIWYG.FLEX8000
 BEGIN
 	REGISTER_OPTIMIZATION = OFF;
 	USE_LPM_FOR_AHDL_OPERATORS = OFF;
 	RESYNTHESIZE_NETWORK = OFF;
 	MULTI_LEVEL_FACTORING = OFF;
 	SUBFACTOR_EXTRACTION = OFF;
 	REFACTORIZATION = OFF;
 	NOT_GATE_PUSH_BACK = ON;
 	DUPLICATE_LOGIC_EXTRACTION = OFF;
 	REDUCE_LOGIC = OFF;
 	DECOMPOSE_GATES = OFF;
 	SOFT_BUFFER_INSERTION = ON;
 	IGNORE_SOFT_BUFFERS = ON;
 	PARALLEL_EXPANDERS = OFF;
 	TURBO_BIT = OFF;
 	XOR_SYNTHESIS = OFF;
 	SLOW_SLEW_RATE = OFF;
 	MINIMIZATION = PARTIAL;
 	CARRY_CHAIN_LENGTH = 32;
 	CARRY_CHAIN = MANUAL;
 	CASCADE_CHAIN_LENGTH = 2;
 	CASCADE_CHAIN = MANUAL;
 END;
--- a/src/altera/acex/k30/KBD.INC
+++ b/src/altera/acex/k30/KBD.INC
@ -1,26 +0,0 @@
 -- Copyright (C) 1988-2000 Altera Corporation
 -- Any megafunction design, and related net list (encrypted or decrypted),
 -- support information, device programming or simulation file, and any other
 -- associated documentation or information provided by Altera or a partner
 -- under Altera's Megafunction Partnership Program may be used only to
 -- program PLD devices (but not masked PLD devices) from Altera.  Any other
 -- use of such megafunction design, net list, support information, device
 -- programming or simulation file, or any other related documentation or
 -- information is prohibited for any other purpose, including, but not
 -- limited to modification, reverse engineering, de-compiling, or use with
 -- any other silicon devices, unless such use is explicitly licensed under
 -- a separate agreement with Altera or a megafunction partner.  Title to
 -- the intellectual property, including patents, copyrights, trademarks,
 -- trade secrets, or maskworks, embodied in any such megafunction design,
 -- net list, support information, device programming or simulation file, or
 -- any other related documentation or information provided by Altera or a
 -- megafunction partner, remains with Altera, the megafunction partner, or
 -- their respective licensors.  No other licenses, including any licenses
 -- needed under any third party's intellectual property, are provided herein.
 -- MAX+plus II Include File
 -- Version 10.0 9/14/2000
 -- Created: Thu May 03 21:43:31 2001
 FUNCTION kbd (clk42, clk_k, kbd_cc, kbd_dd, /rf, /io, /iom, /m1, a[15..8], ena, int_ena)
    RETURNS (kbo[7..0], kb_reset, kb_f12, kb_ctrl, kb_alt, kb_sh, int);
--- a/src/altera/acex/k30/KBD.TDF
+++ b/src/altera/acex/k30/KBD.TDF
@ -1,180 +0,0 @@
 	TITLE "ZX-Keyboard";
 INCLUDE "lpm_ram_dq";
 SUBDESIGN kbd
 	(
 	CLK42		: INPUT;	-- full sinc 42MHz
 	CLK_K		: INPUT;	-- sinc input 15KHz
 	KBD_CC		: INPUT;	-- sinc KBD
 	KBD_DD		: INPUT;	-- data KBD
 	/RF			: INPUT;	-- /rfsh
 	/IO			: INPUT;	-- /iorq
 	/IOM		: INPUT;
 	/M1			: INPUT;
 	A[15..8]	: INPUT;
 	KBO[7..0]	: OUTPUT;	-- output
 	KB_RESET	: OUTPUT;
 	KB_F12		: OUTPUT;
 	KB_CTRL		: OUTPUT;
 	KB_ALT		: OUTPUT;
 	KB_SH		: OUTPUT;
 	ENA			: INPUT;
 	INT_ENA		: INPUT;
 	INT			: OUTPUT;
 	)
 VARIABLE
 	KB_CT[2..0]		: DFF;
 	KB_D[10..0]		: DFF;
 	KB_OFF			: DFFE;
 	KB_EXT			: DFF;
 	KB_ALT			: DFF;
 	KB_CTRL			: DFF;
 	KB_SH			: DFF;
 	KB_CTRL_X		: NODE;
 	KB_ALT_X		: NODE;
 	KB_SH_X			: NODE;
 	KB_XXX			: NODE;
 	KB_RESET		: DFF;
 	RXA[1..0]		: DFFE;
 	K_CLK			: NODE;
 	KA[15..0]		: NODE;
 	KB_MA[2..0]		: DFF;
 	KB_MXA			: NODE;
 	KDCA[2..0]		: LCELL;
 	KDD[7..0]		: DFF;
 	KBD[5..0]		: DFF;
 	KD[7..0]		: NODE;
 	KDX[5..0]		: DFF;
 	KDXX[5..0]		: DFF;
 	WR_KBD			: NODE;
 	KB_OFL			: NODE;
 BEGIN
 	INT		= DFF((KB_CT[] == 0),CLK42,,INT_ENA);
 --	KB_CT[].clk	= DFF(CLK_K,CLK42,,);
 	KB_CT[].clk	= CLK_K;
 	KB_CT[].prn	= DFF(KBD_CC,CLK42,,);
 	CASE KB_CT[] IS
 		WHEN 0 => KB_CT[].d	= GND;
 		WHEN 1,2,3,4,5,6,7 => KB_CT[].d	= KB_CT[] - 1;
 	END CASE;
 	KB_D[].clk	= DFF(!KBD_CC,CLK42,,);
 	KB_D[].d	= (KBD_DD,KB_D[10..1]);
 	KB_OFF.ena	= !KB_EXT;
 	KB_OFF.clk	= DFF((KB_CT[] == 0),CLK42,,);
 	KB_OFF.d	= KB_D[] == B"XX11110000X";
 	KB_EXT.clk	= DFF((KB_CT[] == 1),CLK42,,);
 	KB_EXT.d	= KB_D[] == B"XX11100000X";
 	KB_CTRL.clk	= !KB_CT2;
 	KB_ALT.clk	= !KB_CT2;
 	KB_SH.clk	= !KB_CT2;
 	KB_CTRL_X	= LCELL(KB_D[] == B"XXXXX1X100X");
 	KB_ALT_X	= LCELL(KB_D[] == B"XXXXX1X001X");
 	KB_SH_X		= LCELL(KB_D[] == B"XX0X01X0XXX") &
 			   CASCADE((KB_D[] == B"XXX1XX1X01X") or (KB_D[] == B"XXX0XX0X10X"));
 	KB_XXX		= LCELL(KB_D[] == B"XX000X0XXXX");
 	CASE KB_OFF IS
 		WHEN 0 =>
 			KB_CTRL.d	= (KB_CTRL_X & KB_XXX) or KB_CTRL;
 			KB_ALT.d	= (KB_ALT_X  & KB_XXX) or KB_ALT;
 			KB_SH.d		= (KB_SH_X) or KB_SH;
 		WHEN 1 =>
 			KB_CTRL.d	= !(KB_CTRL_X & KB_XXX) & KB_CTRL;
 			KB_ALT.d	= !(KB_ALT_X  & KB_XXX) & KB_ALT;
 			KB_SH.d		= !(KB_SH_X) & KB_SH;
 	END CASE;
 	KB_F12	= DFF(!((KB_XXX & LCELL(KB_D[] == B"XXXXX0X111X")) & !KB_OFF),
 					!KB_CT2,,!(KB_CT[] == 1));
 	KB_RESET.clk	= !KB_CT2;
 	KB_RESET.d		= !(KB_ALT_X & (KB_D[] == B"XX011X0XXXX") & !KB_OFF & KB_CTRL & KB_ALT);
 	KB_RESET.prn	= !DFF((KB_CT[] == 1),CLK42,,);
 	K_CLK	= DFF(/RF,CLK42,,);
 	RXA[].ena	= VCC;
 	RXA[].clk	= K_CLK;
 	CASE DFF((!(KB_CT[] == B"01X") & (RXA[] == 0)),CLK42,,) IS
 		WHEN B"1" => RXA[] = GND;
 		WHEN B"0" => RXA[] = (RXA0,!RXA1);
 	END CASE;
 	CASE (DFF((/IO & (RXA[] == 0),CLK42,,)),LCELL(KDD7 & KDD6)) IS
 		WHEN B"0X" => KA[15..8]	= (B"101",KDCA[],B"11");
 		WHEN B"10" => KA[15..8]	= (B"110000",KDD7,KDD6);
 		WHEN B"11" => KA[15..8]	= KB_D[8..1];
 	END CASE;
 	KB_MA[].clk	= CLK42;
 	KB_MA[].d	= KB_MA[] + 1;
 	KB_MA[].clrn = !DFF(/IO,CLK42,,);
 	KB_MXA	= DFF((		(((KB_MA[] == 7) & A15) or ((KB_MA[] == 6) & A14))
 					or	(((KB_MA[] == 5) & A13) or ((KB_MA[] == 4) & A12))
 					or	(((KB_MA[] == 3) & A11) or ((KB_MA[] == 2) & A10))
 					or	(((KB_MA[] == 1) & A9 ) or ((KB_MA[] == 0) & A8 ))),CLK42,,);
 	IF !DFF(/IO,CLK42,,) THEN
 		KDCA[]	= KB_MA[];
 	ELSE
 		KDCA[]	= KDD[5..3];
 	END IF;
 	KDD[].clk		= RXA0;
 	KDD[].d			= KD[];
 	KDD[7..6].prn	= !KB_CT2;
 	KDXX[].clk		= RXA0;
 	KDXX[].d		= !((KD[2..0] == 5),(KD[2..0] == 4),
 						(KD[2..0] == 3),(KD[2..0] == 2),
 						(KD[2..0] == 1),(KD[2..0] == 0));
 	KDX[].clk		= RXA1;
 	CASE KB_OFF IS
 		WHEN B"0" => KDX[].d	= (KD[5..0] & KDXX[]);
 		WHEN B"1" => KDX[].d	= (KD[5..0] or !KDXX[]);
 	END CASE;
 --	==============================
 	WR_KBD	= K_CLK or !DFF((KB_CT[] == 2),CLK42,,) or !(RXA[] == 3);
 	KD[] = lpm_ram_dq((B"11",KDX[5..0]),KA[15..8],!WR_KBD,CLK42,)
 		WITH (lpm_width=8,lpm_widthad=8,lpm_file="KBD_INI2.MIF",
 		lpm_outdata="UNREGISTERED");
 	KBD[].clk	= CLK42;
 	KBD[].prn	= DFF(VCC,KB_MA2,(!/IO & ENA),);
 --	KBD[].prn	= DFF(!/IOM,CLK42,,);
 	KBD[].d		= KBD[] & (KD[5..0] or KB_MXA);
 	KBO[]		= (VCC,VCC,KBD[]);
 END;
--- a/src/altera/acex/k30/KBD_INI2.MIF
+++ b/src/altera/acex/k30/KBD_INI2.MIF
@ -1,167 +0,0 @@
 DEPTH = 256;	% Memory depth and width are required	%
 WIDTH = 8;	% Enter a decimal number	%
 ADDRESS_RADIX = HEX;	% Address and value radixes are optional	%
 DATA_RADIX = BIN;	% Enter BIN, DEC, HEX, or OCT; unless 	%
 			% otherwise specified, radixes = HEX	%
 -- Specify values for addresses, which can be single address or range
 CONTENT
 	BEGIN
 [0..FF]	: 11111111;
 0	:
 	11111111	% ..   %
 	00100001	% F9   %
 	11111111	% ..   %
 	00011100	% F5   %
 	00011010	% F3   %
 	00011000	% F1   %
 	00011001	% F2   %
 	11111111	% F12  %
 	11111111	% ..   %
 	00100000	% F10  %
 	00100010	% F8          %
 	00100100	% F6          %
    00011011	% F4          %
    01011000	% Tab         %
    10001000	% ~`          %
    11111111	% ..          %
    11111111	% ..          %
    01111001	% Alt         %
    11000000	% Left Shift  %
    11111111	% ..          %
    11111001	% Ctrl   %
    11010000	% 'Q'    %
    11011000	% '1'    %
    11111111	% ..     %
    11111111	% ..     %
    11111111	% ..     %
    11000001	% 'Z'    %
    11001001	% 'S'    %
    11001000	% 'A'    %
    11010001	% 'W'    %
    11011001	% '2'   	%
    01110000	% left WIN  %
    11111111	% ..     	%
    11000011	% 'C'    	%
    11000010	% 'X'    	%
    11001010	% 'D'    	%
    11010010	% 'E'    	%
    11011011	% '4'    	%
    11011010	% '3'    	%
    10110000	% Right WIN %
    11111111	% ..     		%
    11111000	% ' '    		%
    11000100	% 'V'    		%
    11001011	% 'F'    		%
    11010100	% 'T'    		%
    11010011	% 'R'    		%
    11011100	% '5'    		%
    10111000	% Right Mouse	%
    11111111	% ..     		%
    11111011	% 'N'    		%
    11111100	% 'B'    %
    11110100	% 'H'    %
    11001100	% 'G'    %
    11101100	% 'Y'    %
    11100100	% '6'    %
    11111111	% ..     %
    11111111	% ..     %
    11111111	% ..     %
    11111010	% 'M'    %
    11110011	% 'J'    %
    11101011	% 'U'    %
    11100011	% '7'    %
    11100010	% '8'    %
    11111111	% ..     %
    11111111	% ..     %
    10111011	% ','    %
    11110010	% 'K'    %
    11101010	% 'I'    %
    11101001	% 'O'    %
    11100000	% '0'    %
    11100001	% '9'    %
    11111111	% ..     %
    11111111	% ..     %
    10111010	% '.'    %
    10000100	% '/'    %
    11110001	% 'L'    %
    10101001	% ';'    %
    11101000	% 'P'    %
    10110011	% '-'    %
    11111111	% ..     %
    11111111	% ..           %
    11111111	% ..           %
    10101000	% "'"          %
    11111111	% ..           %
    10101100	% '['          %
    10110001	% '='          %
    11111111	% ..           %
    11111111	% ..           %
    01011001	% Caps Lock    %
    11000000	% Right SHIFT  %
    11110000	% ENTER    %
    10101011	% ']'      %
    11111111	% ..       %
    10001010	% '\'      %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    11111111	% ..       %
    01100000	% Back     %
    11111111	% ..       %
    11111111	% ..       %
    10010010	% End      %
    11111111	% ..       %
    01011100	% <-       %
    10010000	% Home     %
    11111111	% ..       %
 	11111111	% ..       			 %
    11111111	% ..       			 %
    10010001	% ins      			 %
    01100001	% DEL      			 %
    01100100	% Dn       			 %
    10101010	% grey 5 ; ctrl + I  %
    01100010	% ->       			 %
    01100011	% Up       			 %
    01111000	% ESC      			 %
    00111111	% Num      			 %
 	11111111	% F11                %
    10110010	% G+                 %
    01011011	% PDn	; caps + 4   %
    10110011	% G-                 %
    10111100	% G*                 %
    01011010	% PUp	; caps + 3   %
    00000000	% Scrol Lock         %
    11111111	% ..                 %
    11111111	% ..                 %
    11111111	% ..                 %
    11111111	% ..    %
    00100011	% F7    %	;
 %	!! DATA FOR CAPS !! %
 C0	:
 	11111101		% Function shift	%
 	11000000    	% Left Shift		%
 	11111001    	% Ctrl				%
 	11111111	;	% no shift			%
 END ;
--- a/Show More
+++ b/Show More
		`@ -1 +1 @@`
			`Subproject commit 2fec6202f716cfa3ed48fb9bfd79d1081cc2721b`				`Subproject commit 591d3212c9341f17d6dd034bf2b8da91bd2f6107`