diff --git a/cores/c64/C64_mist.qsf b/cores/c64/C64_mist.qsf
index 63b23f7..18c91de 100644
--- a/cores/c64/C64_mist.qsf
+++ b/cores/c64/C64_mist.qsf
@@ -166,7 +166,7 @@ set_global_assignment -name USE_CONFIGURATION_DEVICE OFF
 # SignalTap II Assignments
 # ========================
 set_global_assignment -name ENABLE_SIGNALTAP OFF
-set_global_assignment -name USE_SIGNALTAP_FILE output_files/sid.stp
+set_global_assignment -name USE_SIGNALTAP_FILE output_files/pll.stp
 
 # Power Estimation Assignments
 # ============================
@@ -320,6 +320,7 @@ set_instance_assignment -name CURRENT_STRENGTH_NEW 4MA -to CONF_DATA0
 set_global_assignment -name PARTITION_NETLIST_TYPE SOURCE -section_id Top
 set_global_assignment -name PARTITION_FITTER_PRESERVATION_LEVEL PLACEMENT_AND_ROUTING -section_id Top
 set_global_assignment -name PARTITION_COLOR 16764057 -section_id Top
+set_global_assignment -name AUTO_SHIFT_REGISTER_RECOGNITION OFF
 set_global_assignment -name VERILOG_FILE rtl/sid8580/sid_voice.v
 set_global_assignment -name VERILOG_FILE rtl/sid8580/sid_filters.v
 set_global_assignment -name VERILOG_FILE rtl/sid8580/sid_envelope.v
@@ -375,6 +376,11 @@ set_global_assignment -name VHDL_FILE rtl/t65/T65_Pack.vhd
 set_global_assignment -name VHDL_FILE rtl/t65/T65_MCode.vhd
 set_global_assignment -name VHDL_FILE rtl/t65/T65_ALU.vhd
 set_global_assignment -name VHDL_FILE rtl/t65/T65.vhd
-set_global_assignment -name AUTO_SHIFT_REGISTER_RECOGNITION OFF
 set_global_assignment -name SIGNALTAP_FILE output_files/sid.stp
+set_global_assignment -name QIP_FILE rtl/mist/pll.qip
+set_global_assignment -name QIP_FILE rtl/mist/pll_c64.qip
+set_global_assignment -name QIP_FILE rtl/mist/pll_c64_reconfig.qip
+set_global_assignment -name QIP_FILE rtl/mist/rom_reconfig_pal.qip
+set_global_assignment -name QIP_FILE rtl/mist/rom_reconfig_ntsc.qip
+set_global_assignment -name SIGNALTAP_FILE output_files/pll.stp
 set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top
\ No newline at end of file
diff --git a/cores/c64/C64_mist.sdc b/cores/c64/C64_mist.sdc
index 91b4b27..1095e6d 100644
--- a/cores/c64/C64_mist.sdc
+++ b/cores/c64/C64_mist.sdc
@@ -34,6 +34,8 @@ derive_clock_uncertainty
 
 # Clock groups
 set_clock_groups -asynchronous -group [get_clocks {SPI_SCK}] -group [get_clocks {pll|altpll_component|auto_generated|pll1|clk[*]}]
+set_clock_groups -asynchronous -group [get_clocks {SPI_SCK}] -group [get_clocks {pll_2|altpll_component|auto_generated|pll1|clk[*]}]
+set_clock_groups -asynchronous -group [get_clocks {pll_2|altpll_component|auto_generated|pll1|clk[0]}] -group [get_clocks {pll|altpll_component|auto_generated|pll1|clk[*]}]
 
 
 # Some relaxed constrain to the VGA pins. The signals should arrive together, the delay is not really important.
@@ -41,11 +43,11 @@ set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|cl
 set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[0]}] -min -5 [get_ports {VGA_*}]
 
 # SDRAM delays
-set_input_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[0]}] -max 6.4 [get_ports SDRAM_DQ[*]]
-set_input_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[0]}] -min 3.2 [get_ports SDRAM_DQ[*]]
+set_input_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[1]}] -max 6.4 [get_ports SDRAM_DQ[*]]
+set_input_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[1]}] -min 3.2 [get_ports SDRAM_DQ[*]]
 
-set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[0]}] -max 1.5 [get_ports {SDRAM_D* SDRAM_A* SDRAM_BA* SDRAM_n* SDRAM_CKE}]
-set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[0]}] -min -0.8 [get_ports {SDRAM_D* SDRAM_A* SDRAM_BA* SDRAM_n* SDRAM_CKE}]
+set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[1]}] -max 1.5 [get_ports {SDRAM_D* SDRAM_A* SDRAM_BA* SDRAM_n* SDRAM_CKE}]
+set_output_delay -clock [get_clocks {pll|altpll_component|auto_generated|pll1|clk[1]}] -min -0.8 [get_ports {SDRAM_D* SDRAM_A* SDRAM_BA* SDRAM_n* SDRAM_CKE}]
 
 set_multicycle_path -from {video_mixer:vmixer|scandoubler:scandoubler|Hq2x:Hq2x|*} -to {VGA_*[*]} -setup 4
 set_multicycle_path -from {video_mixer:vmixer|scandoubler:scandoubler|Hq2x:Hq2x|*} -to {VGA_*[*]} -hold 3
diff --git a/cores/c64/PLLJ_PLLSPE_INFO.txt b/cores/c64/PLLJ_PLLSPE_INFO.txt
deleted file mode 100644
index 9c5acfa..0000000
--- a/cores/c64/PLLJ_PLLSPE_INFO.txt
+++ /dev/null
@@ -1,5 +0,0 @@
-PLL_Name	pll:pll|altpll:altpll_component|pll_altpll:auto_generated|pll1
-PLLJITTER	25
-PLLSPEmax	84
-PLLSPEmin	-53
-
diff --git a/cores/c64/rtl/mist/c64_mist.vhd b/cores/c64/rtl/mist/c64_mist.vhd
index 5fbb291..565fba3 100644
--- a/cores/c64/rtl/mist/c64_mist.vhd
+++ b/cores/c64/rtl/mist/c64_mist.vhd
@@ -255,9 +255,9 @@ component cartridge port
 	IOE			: in  std_logic;									-- IOE signal &DE00
 	IOF			: in  std_logic;									-- IOF signal &DF00
 
-	clk32			: in  std_logic;									-- 32mhz clock source
-	reset			: in  std_logic;									-- reset signal
-	reset_out	: out std_logic;									-- reset signal
+	clk32		: in  std_logic;							-- 32mhz clock source
+	reset		: in  std_logic;							-- reset signal
+	reset_out	: out std_logic;							-- reset signal
 
 	cart_id		: in  std_logic_vector(15 downto 0);		-- cart ID or cart type
 	cart_exrom  : in  std_logic_vector(7 downto 0);			-- CRT file EXROM status
@@ -289,8 +289,27 @@ component cartridge port
 
 end component cartridge;
 
-	signal pll_locked_in: std_logic_vector(1 downto 0);
-	signal pll_locked: std_logic;
+	signal pll_locked_in : std_logic_vector(1 downto 0);
+	signal pll_locked : std_logic;
+	signal pll_areset : std_logic;
+	signal pll_scanclk : std_logic;
+	signal pll_scandata : std_logic;
+	signal pll_scanclkena : std_logic;
+	signal pll_configupdate : std_logic;
+	signal pll_scandataout : std_logic;
+	signal pll_scandone : std_logic;
+	signal pll_rom_address : std_logic_vector(7 downto 0);
+	signal pll_write_rom_ena : std_logic;
+	signal pll_write_from_rom : std_logic;
+	signal pll_reconfig : std_logic;
+	signal pll_reconfig_busy : std_logic;
+	signal pll_reconfig_reset : std_logic;
+	signal pll_reconfig_state : std_logic_vector(1 downto 0) := "00";
+	signal pll_reconfig_timeout : integer;
+	signal q_reconfig_pal : std_logic_vector(0 downto 0);
+	signal q_reconfig_ntsc : std_logic_vector(0 downto 0);
+	signal pll_rom_q : std_logic;
+
 	signal c1541_reset: std_logic;
 	signal idle: std_logic;
 	signal ces: std_logic_vector(3 downto 0);
@@ -407,16 +426,19 @@ end component cartridge;
 
 	signal tv15Khz_mode   : std_logic;
 	signal ypbpr          : std_logic;
-	signal ntsc_init_mode : std_logic;
+	signal ntsc_init_mode : std_logic := '0';
+	signal ntsc_init_mode_d: std_logic;
+	signal ntsc_init_mode_d2: std_logic;
+	signal ntsc_init_mode_d3: std_logic;
 
 	alias  c64_addr_int : unsigned is unsigned(c64_addr);
 	alias  c64_data_in_int   : unsigned is unsigned(c64_data_in);
 	signal c64_data_in16: std_logic_vector(15 downto 0);
 	alias  c64_data_out_int   : unsigned is unsigned(c64_data_out);
 
-	signal clk_ram : std_logic;
-	signal clk32 : std_logic;
-	signal clk16 : std_logic;
+	signal c64_clk : std_logic;	-- 31.527mhz (PAL), 32.727mhz(NTSC) clock source
+	signal clk_ram : std_logic; -- 2 x c64_clk
+	signal clk32   : std_logic; -- 32mhz
 	signal ce_8  : std_logic;
 	signal ce_4  : std_logic;
 	signal hq2x160 : std_logic;
@@ -465,7 +487,7 @@ begin
 	user_io_d : user_io
 	generic map (STRLEN => CONF_STR'length)
 	port map (
-		clk_sys => clk32,
+		clk_sys => c64_clk,
 		clk_sd  => clk32,
 
 		SPI_CLK => SPI_SCK,
@@ -503,7 +525,7 @@ begin
 
 	data_io_d: data_io
 	port map (
-		clk_sys => clk32,
+		clk_sys => c64_clk,
 		SPI_SCK => SPI_SCK,
 		SPI_SS2 => SPI_SS2,
 		SPI_DI => SPI_DI,
@@ -530,7 +552,7 @@ begin
 		mem_ce => not ram_ce,
 		mem_ce_out => mem_ce,
 
-	 	clk32 => clk32,			
+		clk32 => c64_clk,
 		reset => reset_n,
 		reset_out => reset_crt,
 		
@@ -579,9 +601,9 @@ begin
 	sdram_ce <= mem_ce when iec_cycle='0' else ioctl_iec_cycle_used;
 	sdram_we <= not ram_we when iec_cycle='0' else ioctl_iec_cycle_used;
 
-	process(clk32)
+	process(c64_clk)
 	begin
-		if falling_edge(clk32) then
+		if falling_edge(c64_clk) then
 
 			old_download <= ioctl_download;
 			iec_cycleD <= iec_cycle;
@@ -697,10 +719,9 @@ begin
 	c64rom_wr   <= ioctl_wr when (ioctl_index = 0) and (ioctl_addr(14) = '0') and (ioctl_download = '1') else '0';
 	c1541rom_wr <= ioctl_wr when (ioctl_index = 0) and (ioctl_addr(14) = '1') and (ioctl_download = '1') else '0';
 
-	process(clk32)
+	process(c64_clk)
 	begin
-		if rising_edge(clk32) then
-			clk16 <= not clk16;
+		if rising_edge(c64_clk) then
 			clkdiv <= std_logic_vector(unsigned(clkdiv)+1);
 			if(clkdiv(1 downto 0) = "00") then
 				ce_8 <= '1';
@@ -717,19 +738,114 @@ begin
 
 	ntsc_init_mode <= status(2);
 
-   -- second  to generate 64mhz clock and phase shifted ram clock	
-	pll : entity work.pll
+	pll_rom_pal : entity work.rom_reconfig_pal
 	port map(
-		inclk0 => CLOCK_27,
-		c0 => clk_ram,
-		c1 => SDRAM_CLK,
-		c2 => clk32,
-		locked => pll_locked
+		address => pll_rom_address,
+		clock => clk32,
+		rden => pll_write_rom_ena,
+		q => q_reconfig_pal
+	);
+
+	pll_rom_ntsc : entity work.rom_reconfig_ntsc
+	port map(
+		address => pll_rom_address,
+		clock => clk32,
+		rden => pll_write_rom_ena,
+		q => q_reconfig_ntsc
+	);
+
+	pll_rom_q <= q_reconfig_pal(0) when ntsc_init_mode_d2 = '0' else q_reconfig_ntsc(0);
+
+	pll_c64_reconfig : entity work.pll_c64_reconfig
+	port map (
+		busy => pll_reconfig_busy,
+		clock  => clk32,
+		counter_param => (others => '0'),
+		counter_type => (others => '0'),
+		data_in => (others => '0'),
+		pll_areset => pll_areset,
+		pll_areset_in  => '0',
+		pll_configupdate => pll_configupdate,
+		pll_scanclk => pll_scanclk,
+		pll_scanclkena => pll_scanclkena,
+		pll_scandata => pll_scandata,
+		pll_scandataout => pll_scandataout,
+        pll_scandone => pll_scandone,
+		read_param => '0',
+        reconfig => pll_reconfig,
+		reset => pll_reconfig_reset,
+		reset_rom_address => '0',
+		rom_address_out => pll_rom_address,
+		rom_data_in => pll_rom_q,
+		write_from_rom => pll_write_from_rom,
+		write_param  => '0',
+        write_rom_ena => pll_write_rom_ena
 	);
 
 	process(clk32)
 	begin
 		if rising_edge(clk32) then
+			ntsc_init_mode_d <= ntsc_init_mode;
+			ntsc_init_mode_d2 <= ntsc_init_mode_d;
+			pll_write_from_rom <= '0';
+			pll_reconfig <= '0';
+			pll_reconfig_reset <= '0';
+			case pll_reconfig_state is
+			when "00" =>
+				ntsc_init_mode_d3 <= ntsc_init_mode_d2;
+				if ntsc_init_mode_d3 /= ntsc_init_mode_d2 then
+					pll_write_from_rom <= '1';
+					pll_reconfig_state <= "01";
+				end if;
+			when "01" =>
+				pll_reconfig_state <= "10";
+			when "10" =>
+				if pll_reconfig_busy = '0' then
+					pll_reconfig <= '1';
+					pll_reconfig_state <= "11";
+					pll_reconfig_timeout <= 1000;
+				end if;
+			when "11" =>
+				pll_reconfig_timeout <= pll_reconfig_timeout - 1;
+				if pll_reconfig_timeout = 1 then
+					pll_reconfig_reset <= '1'; -- sometimes pll reconfig stuck in busy state
+					pll_reconfig_state <= "00";
+				end if;
+				if pll_reconfig = '0' and pll_reconfig_busy = '0' then
+					pll_reconfig_state <= "00";
+				end if;
+			when others => null;
+			end case;
+		end if;
+	end process;
+
+	-- clock for C64 and SDRAM
+	pll : entity work.pll_c64
+	port map(
+		inclk0 => CLOCK_27,
+		c0 => c64_clk,
+		c1 => clk_ram,
+		areset => pll_areset,
+		scanclk => pll_scanclk,
+		scandata => pll_scandata,
+		scanclkena => pll_scanclkena,
+		configupdate => pll_configupdate,
+		scandataout => pll_scandataout,
+		scandone => pll_scandone
+	);
+	SDRAM_CLK <= not clk_ram;
+
+	-- clock for 1541
+	pll_2 : entity work.pll
+	port map(
+		inclk0 => CLOCK_27,
+		c0 => clk32,
+		locked => pll_locked
+	);
+
+	process(c64_clk)
+	begin
+		if rising_edge(c64_clk) then
 			-- Reset by:
 			-- Button at device, IO controller reboot, OSD or FPGA startup
 			if status(0)='1' or pll_locked = '0' then
@@ -783,7 +899,7 @@ begin
 
 	dac : sigma_delta_dac
 	port map (
-		clk => clk32,
+		clk => c64_clk,
 		ldatasum => audio_data_l(17 downto 3),
 		rdatasum => audio_data_r(17 downto 3),
 		aleft => AUDIO_L,
@@ -793,7 +909,7 @@ begin
 
 	fpga64 : entity work.fpga64_sid_iec
 	port map(
-		clk32 => clk32,
+		clk32 => c64_clk,
 		reset_n => reset_n,
 		c64gs => status(11),-- not enough BRAM
 		kbd_clk => not ps2_clk,
@@ -863,12 +979,12 @@ begin
 	c1541_iec_data_i <= c64_iec_data_o;
 	c1541_iec_clk_i  <= c64_iec_clk_o;
 
-	process(clk32, reset_n)
+	process(c64_clk, reset_n)
 		variable reset_cnt : integer range 0 to 32000000;
 	begin
 		if reset_n = '0' then
 			reset_cnt := 100000;
-		elsif rising_edge(clk32) then
+		elsif rising_edge(c64_clk) then
 			if reset_cnt /= 0 then
 				reset_cnt := reset_cnt - 1;
 			end if;
@@ -887,7 +1003,7 @@ begin
 		clk32 => clk32,
 		reset => c1541_reset,
 
-		c1541rom_clk => clk32,
+		c1541rom_clk => c64_clk,
 		c1541rom_addr => ioctl_addr(13 downto 0),
 		c1541rom_data => ioctl_data,
 		c1541rom_wr => c1541rom_wr,
@@ -918,7 +1034,7 @@ begin
 
 	comp_sync : entity work.composite_sync
 	port map(
-		clk32 => clk32,
+		clk32 => c64_clk,
 		hsync => hsync,
 		vsync => vsync,
 		ntsc  => ntsc_init_mode,
@@ -935,9 +1051,9 @@ begin
 	hq2x <= status(9) xor status(8);
 	ce_pix_actual <= ce_4 when hq2x160='1' else ce_8;
 	
-	process(clk32)
+	process(c64_clk)
 	begin
-		if rising_edge(clk32) then
+		if rising_edge(c64_clk) then
 			if((old_vsync = '0') and (vsync_out = '1')) then
 				if(status(10 downto 8)="010") then
 					hq2x160 <= '1';
diff --git a/cores/c64/rtl/mist/pll.ppf b/cores/c64/rtl/mist/pll.ppf
new file mode 100644
index 0000000..547d702
--- /dev/null
+++ b/cores/c64/rtl/mist/pll.ppf
@@ -0,0 +1,10 @@
+<?xml version="1.0" encoding="UTF-8" ?>
+<!DOCTYPE pinplan>
+<pinplan intended_family="Cyclone III" variation_name="pll" megafunction_name="ALTPLL" specifies="all_ports">
+<global>
+<pin name="inclk0" direction="input" scope="external" source="clock"  />
+<pin name="c0" direction="output" scope="external" source="clock"  />
+<pin name="locked" direction="output" scope="external"  />
+
+</global>
+</pinplan>
diff --git a/cores/c64/rtl/mist/pll.qip b/cores/c64/rtl/mist/pll.qip
new file mode 100644
index 0000000..4866536
--- /dev/null
+++ b/cores/c64/rtl/mist/pll.qip
@@ -0,0 +1,4 @@
+set_global_assignment -name IP_TOOL_NAME "ALTPLL"
+set_global_assignment -name IP_TOOL_VERSION "13.1"
+set_global_assignment -name VHDL_FILE [file join $::quartus(qip_path) "pll.vhd"]
+set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll.ppf"]
diff --git a/cores/c64/rtl/mist/pll.vhd b/cores/c64/rtl/mist/pll.vhd
index 1e72638..a293a4f 100644
--- a/cores/c64/rtl/mist/pll.vhd
+++ b/cores/c64/rtl/mist/pll.vhd
@@ -14,7 +14,7 @@
 -- ************************************************************
 -- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
 --
--- 13.1.4 Build 182 03/12/2014 SJ Full Version
+-- 13.1.4 Build 182 03/12/2014 SJ Web Edition
 -- ************************************************************
 
 
@@ -44,8 +44,6 @@ ENTITY pll IS
 	(
 		inclk0		: IN STD_LOGIC  := '0';
 		c0		: OUT STD_LOGIC ;
-		c1		: OUT STD_LOGIC ;
-		c2		: OUT STD_LOGIC ;
 		locked		: OUT STD_LOGIC 
 	);
 END pll;
@@ -57,11 +55,9 @@ ARCHITECTURE SYN OF pll IS
 	SIGNAL sub_wire1	: STD_LOGIC ;
 	SIGNAL sub_wire2	: STD_LOGIC ;
 	SIGNAL sub_wire3	: STD_LOGIC ;
-	SIGNAL sub_wire4	: STD_LOGIC ;
-	SIGNAL sub_wire5	: STD_LOGIC ;
-	SIGNAL sub_wire6	: STD_LOGIC_VECTOR (1 DOWNTO 0);
-	SIGNAL sub_wire7_bv	: BIT_VECTOR (0 DOWNTO 0);
-	SIGNAL sub_wire7	: STD_LOGIC_VECTOR (0 DOWNTO 0);
+	SIGNAL sub_wire4	: STD_LOGIC_VECTOR (1 DOWNTO 0);
+	SIGNAL sub_wire5_bv	: BIT_VECTOR (0 DOWNTO 0);
+	SIGNAL sub_wire5	: STD_LOGIC_VECTOR (0 DOWNTO 0);
 
 
 
@@ -72,14 +68,6 @@ ARCHITECTURE SYN OF pll IS
 		clk0_duty_cycle		: NATURAL;
 		clk0_multiply_by		: NATURAL;
 		clk0_phase_shift		: STRING;
-		clk1_divide_by		: NATURAL;
-		clk1_duty_cycle		: NATURAL;
-		clk1_multiply_by		: NATURAL;
-		clk1_phase_shift		: STRING;
-		clk2_divide_by		: NATURAL;
-		clk2_duty_cycle		: NATURAL;
-		clk2_multiply_by		: NATURAL;
-		clk2_phase_shift		: STRING;
 		inclk0_input_frequency		: NATURAL;
 		intended_device_family		: STRING;
 		lpm_hint		: STRING;
@@ -138,33 +126,21 @@ ARCHITECTURE SYN OF pll IS
 	END COMPONENT;
 
 BEGIN
-	sub_wire7_bv(0 DOWNTO 0) <= "0";
-	sub_wire7    <= To_stdlogicvector(sub_wire7_bv);
-	sub_wire4    <= sub_wire0(2);
-	sub_wire3    <= sub_wire0(0);
-	sub_wire1    <= sub_wire0(1);
-	c1    <= sub_wire1;
+	sub_wire5_bv(0 DOWNTO 0) <= "0";
+	sub_wire5    <= To_stdlogicvector(sub_wire5_bv);
+	sub_wire1    <= sub_wire0(0);
+	c0    <= sub_wire1;
 	locked    <= sub_wire2;
-	c0    <= sub_wire3;
-	c2    <= sub_wire4;
-	sub_wire5    <= inclk0;
-	sub_wire6    <= sub_wire7(0 DOWNTO 0) & sub_wire5;
+	sub_wire3    <= inclk0;
+	sub_wire4    <= sub_wire5(0 DOWNTO 0) & sub_wire3;
 
 	altpll_component : altpll
 	GENERIC MAP (
 		bandwidth_type => "AUTO",
 		clk0_divide_by => 27,
 		clk0_duty_cycle => 50,
-		clk0_multiply_by => 64,
+		clk0_multiply_by => 32,
 		clk0_phase_shift => "0",
-		clk1_divide_by => 27,
-		clk1_duty_cycle => 50,
-		clk1_multiply_by => 64,
-		clk1_phase_shift => "-2604",
-		clk2_divide_by => 27,
-		clk2_duty_cycle => 50,
-		clk2_multiply_by => 32,
-		clk2_phase_shift => "0",
 		inclk0_input_frequency => 37037,
 		intended_device_family => "Cyclone III",
 		lpm_hint => "CBX_MODULE_PREFIX=pll",
@@ -197,8 +173,8 @@ BEGIN
 		port_scanread => "PORT_UNUSED",
 		port_scanwrite => "PORT_UNUSED",
 		port_clk0 => "PORT_USED",
-		port_clk1 => "PORT_USED",
-		port_clk2 => "PORT_USED",
+		port_clk1 => "PORT_UNUSED",
+		port_clk2 => "PORT_UNUSED",
 		port_clk3 => "PORT_UNUSED",
 		port_clk4 => "PORT_UNUSED",
 		port_clk5 => "PORT_UNUSED",
@@ -216,7 +192,7 @@ BEGIN
 		width_clock => 5
 	)
 	PORT MAP (
-		inclk => sub_wire6,
+		inclk => sub_wire4,
 		clk => sub_wire0,
 		locked => sub_wire2
 	);
@@ -245,14 +221,8 @@ END SYN;
 -- Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
 -- Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
 -- Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "9"
--- Retrieval info: PRIVATE: DIV_FACTOR1 NUMERIC "3"
--- Retrieval info: PRIVATE: DIV_FACTOR2 NUMERIC "1"
 -- Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
--- Retrieval info: PRIVATE: DUTY_CYCLE1 STRING "50.00000000"
--- Retrieval info: PRIVATE: DUTY_CYCLE2 STRING "50.00000000"
--- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "64.000000"
--- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE1 STRING "64.000000"
--- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE2 STRING "32.000000"
+-- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "32.000000"
 -- Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
 -- Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
 -- Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
@@ -273,34 +243,18 @@ END SYN;
 -- Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
 -- Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
 -- Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
--- Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT1 STRING "deg"
--- Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT2 STRING "ps"
 -- Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
 -- Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
--- Retrieval info: PRIVATE: MIRROR_CLK1 STRING "0"
--- Retrieval info: PRIVATE: MIRROR_CLK2 STRING "0"
 -- Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "48"
--- Retrieval info: PRIVATE: MULT_FACTOR1 NUMERIC "7"
--- Retrieval info: PRIVATE: MULT_FACTOR2 NUMERIC "1"
 -- Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "0"
--- Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "64.00000000"
--- Retrieval info: PRIVATE: OUTPUT_FREQ1 STRING "64.00000000"
--- Retrieval info: PRIVATE: OUTPUT_FREQ2 STRING "32.00000000"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "32.00000000"
 -- Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "1"
--- Retrieval info: PRIVATE: OUTPUT_FREQ_MODE1 STRING "1"
--- Retrieval info: PRIVATE: OUTPUT_FREQ_MODE2 STRING "1"
 -- Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
--- Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT1 STRING "MHz"
--- Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT2 STRING "MHz"
 -- Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
 -- Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
 -- Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
--- Retrieval info: PRIVATE: PHASE_SHIFT1 STRING "-60.00000000"
--- Retrieval info: PRIVATE: PHASE_SHIFT2 STRING "0.00000000"
 -- Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
 -- Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
--- Retrieval info: PRIVATE: PHASE_SHIFT_UNIT1 STRING "deg"
--- Retrieval info: PRIVATE: PHASE_SHIFT_UNIT2 STRING "ps"
 -- Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
 -- Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0"
 -- Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
@@ -323,33 +277,19 @@ END SYN;
 -- Retrieval info: PRIVATE: SPREAD_USE STRING "0"
 -- Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
 -- Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
--- Retrieval info: PRIVATE: STICKY_CLK1 STRING "1"
--- Retrieval info: PRIVATE: STICKY_CLK2 STRING "1"
 -- Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
 -- Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
 -- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
 -- Retrieval info: PRIVATE: USE_CLK0 STRING "1"
--- Retrieval info: PRIVATE: USE_CLK1 STRING "1"
--- Retrieval info: PRIVATE: USE_CLK2 STRING "1"
 -- Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
--- Retrieval info: PRIVATE: USE_CLKENA1 STRING "0"
--- Retrieval info: PRIVATE: USE_CLKENA2 STRING "0"
 -- Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
 -- Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
 -- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
 -- Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
 -- Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "27"
 -- Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
--- Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "64"
+-- Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "32"
 -- Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
--- Retrieval info: CONSTANT: CLK1_DIVIDE_BY NUMERIC "27"
--- Retrieval info: CONSTANT: CLK1_DUTY_CYCLE NUMERIC "50"
--- Retrieval info: CONSTANT: CLK1_MULTIPLY_BY NUMERIC "64"
--- Retrieval info: CONSTANT: CLK1_PHASE_SHIFT STRING "-2604"
--- Retrieval info: CONSTANT: CLK2_DIVIDE_BY NUMERIC "27"
--- Retrieval info: CONSTANT: CLK2_DUTY_CYCLE NUMERIC "50"
--- Retrieval info: CONSTANT: CLK2_MULTIPLY_BY NUMERIC "32"
--- Retrieval info: CONSTANT: CLK2_PHASE_SHIFT STRING "0"
 -- Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
 -- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
 -- Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
@@ -381,8 +321,8 @@ END SYN;
 -- Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
 -- Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
 -- Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
--- Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_USED"
--- Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
 -- Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
 -- Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
 -- Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
@@ -401,15 +341,11 @@ END SYN;
 -- Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
 -- Retrieval info: USED_PORT: @inclk 0 0 2 0 INPUT_CLK_EXT VCC "@inclk[1..0]"
 -- Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
--- Retrieval info: USED_PORT: c1 0 0 0 0 OUTPUT_CLK_EXT VCC "c1"
--- Retrieval info: USED_PORT: c2 0 0 0 0 OUTPUT_CLK_EXT VCC "c2"
 -- Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
 -- Retrieval info: USED_PORT: locked 0 0 0 0 OUTPUT GND "locked"
 -- Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
 -- Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
 -- Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
--- Retrieval info: CONNECT: c1 0 0 0 0 @clk 0 0 1 1
--- Retrieval info: CONNECT: c2 0 0 0 0 @clk 0 0 1 2
 -- Retrieval info: CONNECT: locked 0 0 0 0 @locked 0 0 0 0
 -- Retrieval info: GEN_FILE: TYPE_NORMAL pll.vhd TRUE
 -- Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE
diff --git a/cores/c64/rtl/mist/pll_c64.ppf b/cores/c64/rtl/mist/pll_c64.ppf
new file mode 100644
index 0000000..254d6a5
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64.ppf
@@ -0,0 +1,18 @@
+<?xml version="1.0" encoding="UTF-8" ?>
+<!DOCTYPE pinplan>
+<pinplan intended_family="Cyclone III" variation_name="pll_c64" megafunction_name="ALTPLL" specifies="all_ports">
+<global>
+<pin name="areset" direction="input" scope="external"  />
+<pin name="configupdate" direction="input" scope="external"  />
+<pin name="inclk0" direction="input" scope="external" source="clock"  />
+<pin name="scanclk" direction="input" scope="external" source="clock"  />
+<pin name="scanclkena" direction="input" scope="external"  />
+<pin name="scandata" direction="input" scope="external"  />
+<pin name="c0" direction="output" scope="external" source="clock"  />
+<pin name="c1" direction="output" scope="external" source="clock"  />
+<pin name="locked" direction="output" scope="external"  />
+<pin name="scandataout" direction="output" scope="external"  />
+<pin name="scandone" direction="output" scope="external"  />
+
+</global>
+</pinplan>
diff --git a/cores/c64/rtl/mist/pll_c64.qip b/cores/c64/rtl/mist/pll_c64.qip
new file mode 100644
index 0000000..8603569
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64.qip
@@ -0,0 +1,4 @@
+set_global_assignment -name IP_TOOL_NAME "ALTPLL"
+set_global_assignment -name IP_TOOL_VERSION "13.1"
+set_global_assignment -name VHDL_FILE [file join $::quartus(qip_path) "pll_c64.vhd"]
+set_global_assignment -name MISC_FILE [file join $::quartus(qip_path) "pll_c64.ppf"]
diff --git a/cores/c64/rtl/mist/pll_c64.vhd b/cores/c64/rtl/mist/pll_c64.vhd
new file mode 100644
index 0000000..509f190
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64.vhd
@@ -0,0 +1,436 @@
+-- megafunction wizard: %ALTPLL%
+-- GENERATION: STANDARD
+-- VERSION: WM1.0
+-- MODULE: altpll 
+
+-- ============================================================
+-- File Name: pll_c64.vhd
+-- Megafunction Name(s):
+-- 			altpll
+--
+-- Simulation Library Files(s):
+-- 			altera_mf
+-- ============================================================
+-- ************************************************************
+-- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
+--
+-- 13.1.4 Build 182 03/12/2014 SJ Web Edition
+-- ************************************************************
+
+
+--Copyright (C) 1991-2014 Altera Corporation
+--Your use of Altera Corporation's design tools, logic functions 
+--and other software and tools, and its AMPP partner logic 
+--functions, and any output files from any of the foregoing 
+--(including device programming or simulation files), and any 
+--associated documentation or information are expressly subject 
+--to the terms and conditions of the Altera Program License 
+--Subscription Agreement, Altera MegaCore Function License 
+--Agreement, or other applicable license agreement, including, 
+--without limitation, that your use is for the sole purpose of 
+--programming logic devices manufactured by Altera and sold by 
+--Altera or its authorized distributors.  Please refer to the 
+--applicable agreement for further details.
+
+
+LIBRARY ieee;
+USE ieee.std_logic_1164.all;
+
+LIBRARY altera_mf;
+USE altera_mf.all;
+
+ENTITY pll_c64 IS
+	PORT
+	(
+		areset		: IN STD_LOGIC  := '0';
+		configupdate		: IN STD_LOGIC  := '0';
+		inclk0		: IN STD_LOGIC  := '0';
+		scanclk		: IN STD_LOGIC  := '1';
+		scanclkena		: IN STD_LOGIC  := '0';
+		scandata		: IN STD_LOGIC  := '0';
+		c0		: OUT STD_LOGIC ;
+		c1		: OUT STD_LOGIC ;
+		locked		: OUT STD_LOGIC ;
+		scandataout		: OUT STD_LOGIC ;
+		scandone		: OUT STD_LOGIC 
+	);
+END pll_c64;
+
+
+ARCHITECTURE SYN OF pll_c64 IS
+
+	SIGNAL sub_wire0	: STD_LOGIC_VECTOR (4 DOWNTO 0);
+	SIGNAL sub_wire1	: STD_LOGIC ;
+	SIGNAL sub_wire2	: STD_LOGIC ;
+	SIGNAL sub_wire3	: STD_LOGIC ;
+	SIGNAL sub_wire4	: STD_LOGIC ;
+	SIGNAL sub_wire5	: STD_LOGIC ;
+	SIGNAL sub_wire6	: STD_LOGIC ;
+	SIGNAL sub_wire7	: STD_LOGIC_VECTOR (1 DOWNTO 0);
+	SIGNAL sub_wire8_bv	: BIT_VECTOR (0 DOWNTO 0);
+	SIGNAL sub_wire8	: STD_LOGIC_VECTOR (0 DOWNTO 0);
+
+
+
+	COMPONENT altpll
+	GENERIC (
+		bandwidth_type		: STRING;
+		clk0_divide_by		: NATURAL;
+		clk0_duty_cycle		: NATURAL;
+		clk0_multiply_by		: NATURAL;
+		clk0_phase_shift		: STRING;
+		clk1_divide_by		: NATURAL;
+		clk1_duty_cycle		: NATURAL;
+		clk1_multiply_by		: NATURAL;
+		clk1_phase_shift		: STRING;
+		compensate_clock		: STRING;
+		inclk0_input_frequency		: NATURAL;
+		intended_device_family		: STRING;
+		lpm_hint		: STRING;
+		lpm_type		: STRING;
+		operation_mode		: STRING;
+		pll_type		: STRING;
+		port_activeclock		: STRING;
+		port_areset		: STRING;
+		port_clkbad0		: STRING;
+		port_clkbad1		: STRING;
+		port_clkloss		: STRING;
+		port_clkswitch		: STRING;
+		port_configupdate		: STRING;
+		port_fbin		: STRING;
+		port_inclk0		: STRING;
+		port_inclk1		: STRING;
+		port_locked		: STRING;
+		port_pfdena		: STRING;
+		port_phasecounterselect		: STRING;
+		port_phasedone		: STRING;
+		port_phasestep		: STRING;
+		port_phaseupdown		: STRING;
+		port_pllena		: STRING;
+		port_scanaclr		: STRING;
+		port_scanclk		: STRING;
+		port_scanclkena		: STRING;
+		port_scandata		: STRING;
+		port_scandataout		: STRING;
+		port_scandone		: STRING;
+		port_scanread		: STRING;
+		port_scanwrite		: STRING;
+		port_clk0		: STRING;
+		port_clk1		: STRING;
+		port_clk2		: STRING;
+		port_clk3		: STRING;
+		port_clk4		: STRING;
+		port_clk5		: STRING;
+		port_clkena0		: STRING;
+		port_clkena1		: STRING;
+		port_clkena2		: STRING;
+		port_clkena3		: STRING;
+		port_clkena4		: STRING;
+		port_clkena5		: STRING;
+		port_extclk0		: STRING;
+		port_extclk1		: STRING;
+		port_extclk2		: STRING;
+		port_extclk3		: STRING;
+		self_reset_on_loss_lock		: STRING;
+		width_clock		: NATURAL;
+		scan_chain_mif_file		: STRING
+	);
+	PORT (
+			areset	: IN STD_LOGIC ;
+			configupdate	: IN STD_LOGIC ;
+			inclk	: IN STD_LOGIC_VECTOR (1 DOWNTO 0);
+			scanclk	: IN STD_LOGIC ;
+			scanclkena	: IN STD_LOGIC ;
+			scandata	: IN STD_LOGIC ;
+			scandataout	: OUT STD_LOGIC ;
+			scandone	: OUT STD_LOGIC ;
+			clk	: OUT STD_LOGIC_VECTOR (4 DOWNTO 0);
+			locked	: OUT STD_LOGIC 
+	);
+	END COMPONENT;
+
+BEGIN
+	sub_wire8_bv(0 DOWNTO 0) <= "0";
+	sub_wire8    <= To_stdlogicvector(sub_wire8_bv);
+	sub_wire2    <= sub_wire0(0);
+	sub_wire1    <= sub_wire0(1);
+	c1    <= sub_wire1;
+	c0    <= sub_wire2;
+	scandataout    <= sub_wire3;
+	scandone    <= sub_wire4;
+	locked    <= sub_wire5;
+	sub_wire6    <= inclk0;
+	sub_wire7    <= sub_wire8(0 DOWNTO 0) & sub_wire6;
+
+	altpll_component : altpll
+	GENERIC MAP (
+		bandwidth_type => "AUTO",
+		clk0_divide_by => 6,
+		clk0_duty_cycle => 50,
+		clk0_multiply_by => 7,
+		clk0_phase_shift => "0",
+		clk1_divide_by => 3,
+		clk1_duty_cycle => 50,
+		clk1_multiply_by => 7,
+		clk1_phase_shift => "0",
+		compensate_clock => "CLK0",
+		inclk0_input_frequency => 37037,
+		intended_device_family => "Cyclone III",
+		lpm_hint => "CBX_MODULE_PREFIX=pll_c64",
+		lpm_type => "altpll",
+		operation_mode => "NORMAL",
+		pll_type => "AUTO",
+		port_activeclock => "PORT_UNUSED",
+		port_areset => "PORT_USED",
+		port_clkbad0 => "PORT_UNUSED",
+		port_clkbad1 => "PORT_UNUSED",
+		port_clkloss => "PORT_UNUSED",
+		port_clkswitch => "PORT_UNUSED",
+		port_configupdate => "PORT_USED",
+		port_fbin => "PORT_UNUSED",
+		port_inclk0 => "PORT_USED",
+		port_inclk1 => "PORT_UNUSED",
+		port_locked => "PORT_USED",
+		port_pfdena => "PORT_UNUSED",
+		port_phasecounterselect => "PORT_UNUSED",
+		port_phasedone => "PORT_UNUSED",
+		port_phasestep => "PORT_UNUSED",
+		port_phaseupdown => "PORT_UNUSED",
+		port_pllena => "PORT_UNUSED",
+		port_scanaclr => "PORT_UNUSED",
+		port_scanclk => "PORT_USED",
+		port_scanclkena => "PORT_USED",
+		port_scandata => "PORT_USED",
+		port_scandataout => "PORT_USED",
+		port_scandone => "PORT_USED",
+		port_scanread => "PORT_UNUSED",
+		port_scanwrite => "PORT_UNUSED",
+		port_clk0 => "PORT_USED",
+		port_clk1 => "PORT_USED",
+		port_clk2 => "PORT_UNUSED",
+		port_clk3 => "PORT_UNUSED",
+		port_clk4 => "PORT_UNUSED",
+		port_clk5 => "PORT_UNUSED",
+		port_clkena0 => "PORT_UNUSED",
+		port_clkena1 => "PORT_UNUSED",
+		port_clkena2 => "PORT_UNUSED",
+		port_clkena3 => "PORT_UNUSED",
+		port_clkena4 => "PORT_UNUSED",
+		port_clkena5 => "PORT_UNUSED",
+		port_extclk0 => "PORT_UNUSED",
+		port_extclk1 => "PORT_UNUSED",
+		port_extclk2 => "PORT_UNUSED",
+		port_extclk3 => "PORT_UNUSED",
+		self_reset_on_loss_lock => "ON",
+		width_clock => 5,
+		scan_chain_mif_file => "pll_c64_pal.mif"
+	)
+	PORT MAP (
+		areset => areset,
+		configupdate => configupdate,
+		inclk => sub_wire7,
+		scanclk => scanclk,
+		scanclkena => scanclkena,
+		scandata => scandata,
+		clk => sub_wire0,
+		scandataout => sub_wire3,
+		scandone => sub_wire4,
+		locked => sub_wire5
+	);
+
+
+
+END SYN;
+
+-- ============================================================
+-- CNX file retrieval info
+-- ============================================================
+-- Retrieval info: PRIVATE: ACTIVECLK_CHECK STRING "0"
+-- Retrieval info: PRIVATE: BANDWIDTH STRING "1.000"
+-- Retrieval info: PRIVATE: BANDWIDTH_FEATURE_ENABLED STRING "1"
+-- Retrieval info: PRIVATE: BANDWIDTH_FREQ_UNIT STRING "MHz"
+-- Retrieval info: PRIVATE: BANDWIDTH_PRESET STRING "Low"
+-- Retrieval info: PRIVATE: BANDWIDTH_USE_AUTO STRING "1"
+-- Retrieval info: PRIVATE: BANDWIDTH_USE_PRESET STRING "0"
+-- Retrieval info: PRIVATE: CLKBAD_SWITCHOVER_CHECK STRING "0"
+-- Retrieval info: PRIVATE: CLKLOSS_CHECK STRING "0"
+-- Retrieval info: PRIVATE: CLKSWITCH_CHECK STRING "0"
+-- Retrieval info: PRIVATE: CNX_NO_COMPENSATE_RADIO STRING "0"
+-- Retrieval info: PRIVATE: CREATE_CLKBAD_CHECK STRING "0"
+-- Retrieval info: PRIVATE: CREATE_INCLK1_CHECK STRING "0"
+-- Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0"
+-- Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0"
+-- Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8"
+-- Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "6"
+-- Retrieval info: PRIVATE: DIV_FACTOR1 NUMERIC "3"
+-- Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000"
+-- Retrieval info: PRIVATE: DUTY_CYCLE1 STRING "50.00000000"
+-- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "31.500000"
+-- Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE1 STRING "63.000000"
+-- Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0"
+-- Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0"
+-- Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1"
+-- Retrieval info: PRIVATE: GLOCKED_FEATURE_ENABLED STRING "0"
+-- Retrieval info: PRIVATE: GLOCKED_MODE_CHECK STRING "0"
+-- Retrieval info: PRIVATE: GLOCK_COUNTER_EDIT NUMERIC "1048575"
+-- Retrieval info: PRIVATE: HAS_MANUAL_SWITCHOVER STRING "1"
+-- Retrieval info: PRIVATE: INCLK0_FREQ_EDIT STRING "27.000"
+-- Retrieval info: PRIVATE: INCLK0_FREQ_UNIT_COMBO STRING "MHz"
+-- Retrieval info: PRIVATE: INCLK1_FREQ_EDIT STRING "100.000"
+-- Retrieval info: PRIVATE: INCLK1_FREQ_EDIT_CHANGED STRING "1"
+-- Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_CHANGED STRING "1"
+-- Retrieval info: PRIVATE: INCLK1_FREQ_UNIT_COMBO STRING "MHz"
+-- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: PRIVATE: INT_FEEDBACK__MODE_RADIO STRING "1"
+-- Retrieval info: PRIVATE: LOCKED_OUTPUT_CHECK STRING "1"
+-- Retrieval info: PRIVATE: LONG_SCAN_RADIO STRING "1"
+-- Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE STRING "Not Available"
+-- Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0"
+-- Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg"
+-- Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT1 STRING "deg"
+-- Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any"
+-- Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0"
+-- Retrieval info: PRIVATE: MIRROR_CLK1 STRING "0"
+-- Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "7"
+-- Retrieval info: PRIVATE: MULT_FACTOR1 NUMERIC "7"
+-- Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "31.52000000"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ1 STRING "63.04000000"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ_MODE1 STRING "0"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz"
+-- Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT1 STRING "MHz"
+-- Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1"
+-- Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0"
+-- Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000"
+-- Retrieval info: PRIVATE: PHASE_SHIFT1 STRING "0.00000000"
+-- Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0"
+-- Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg"
+-- Retrieval info: PRIVATE: PHASE_SHIFT_UNIT1 STRING "deg"
+-- Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0"
+-- Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "1"
+-- Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1"
+-- Retrieval info: PRIVATE: PLL_ENHPLL_CHECK NUMERIC "0"
+-- Retrieval info: PRIVATE: PLL_FASTPLL_CHECK NUMERIC "0"
+-- Retrieval info: PRIVATE: PLL_FBMIMIC_CHECK STRING "0"
+-- Retrieval info: PRIVATE: PLL_LVDS_PLL_CHECK NUMERIC "0"
+-- Retrieval info: PRIVATE: PLL_PFDENA_CHECK STRING "0"
+-- Retrieval info: PRIVATE: PLL_TARGET_HARCOPY_CHECK NUMERIC "0"
+-- Retrieval info: PRIVATE: PRIMARY_CLK_COMBO STRING "inclk0"
+-- Retrieval info: PRIVATE: RECONFIG_FILE STRING "pll_c64_pal.mif"
+-- Retrieval info: PRIVATE: SACN_INPUTS_CHECK STRING "1"
+-- Retrieval info: PRIVATE: SCAN_FEATURE_ENABLED STRING "1"
+-- Retrieval info: PRIVATE: SELF_RESET_LOCK_LOSS STRING "1"
+-- Retrieval info: PRIVATE: SHORT_SCAN_RADIO STRING "0"
+-- Retrieval info: PRIVATE: SPREAD_FEATURE_ENABLED STRING "0"
+-- Retrieval info: PRIVATE: SPREAD_FREQ STRING "50.000"
+-- Retrieval info: PRIVATE: SPREAD_FREQ_UNIT STRING "KHz"
+-- Retrieval info: PRIVATE: SPREAD_PERCENT STRING "0.500"
+-- Retrieval info: PRIVATE: SPREAD_USE STRING "0"
+-- Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0"
+-- Retrieval info: PRIVATE: STICKY_CLK0 STRING "1"
+-- Retrieval info: PRIVATE: STICKY_CLK1 STRING "1"
+-- Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1"
+-- Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1"
+-- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
+-- Retrieval info: PRIVATE: USE_CLK0 STRING "1"
+-- Retrieval info: PRIVATE: USE_CLK1 STRING "1"
+-- Retrieval info: PRIVATE: USE_CLKENA0 STRING "0"
+-- Retrieval info: PRIVATE: USE_CLKENA1 STRING "0"
+-- Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0"
+-- Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0"
+-- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
+-- Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO"
+-- Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "6"
+-- Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50"
+-- Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "7"
+-- Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0"
+-- Retrieval info: CONSTANT: CLK1_DIVIDE_BY NUMERIC "3"
+-- Retrieval info: CONSTANT: CLK1_DUTY_CYCLE NUMERIC "50"
+-- Retrieval info: CONSTANT: CLK1_MULTIPLY_BY NUMERIC "7"
+-- Retrieval info: CONSTANT: CLK1_PHASE_SHIFT STRING "0"
+-- Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0"
+-- Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037"
+-- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: CONSTANT: LPM_TYPE STRING "altpll"
+-- Retrieval info: CONSTANT: OPERATION_MODE STRING "NORMAL"
+-- Retrieval info: CONSTANT: PLL_TYPE STRING "AUTO"
+-- Retrieval info: CONSTANT: PORT_ACTIVECLOCK STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_ARESET STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_CLKBAD0 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_CLKBAD1 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_CLKLOSS STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_CLKSWITCH STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_CONFIGUPDATE STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_FBIN STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_INCLK0 STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_INCLK1 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_LOCKED STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_PFDENA STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_PHASECOUNTERSELECT STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_PHASEDONE STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_PHASESTEP STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_PHASEUPDOWN STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_PLLENA STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_SCANACLR STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_SCANCLK STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_SCANCLKENA STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_SCANDATA STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_SCANDATAOUT STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_SCANDONE STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_SCANREAD STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_USED"
+-- Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena1 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena2 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena3 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena4 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_clkena5 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_extclk0 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_extclk1 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_extclk2 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: PORT_extclk3 STRING "PORT_UNUSED"
+-- Retrieval info: CONSTANT: SELF_RESET_ON_LOSS_LOCK STRING "ON"
+-- Retrieval info: CONSTANT: WIDTH_CLOCK NUMERIC "5"
+-- Retrieval info: CONSTANT: scan_chain_mif_file STRING "pll_c64_pal.mif"
+-- Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]"
+-- Retrieval info: USED_PORT: @inclk 0 0 2 0 INPUT_CLK_EXT VCC "@inclk[1..0]"
+-- Retrieval info: USED_PORT: areset 0 0 0 0 INPUT GND "areset"
+-- Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0"
+-- Retrieval info: USED_PORT: c1 0 0 0 0 OUTPUT_CLK_EXT VCC "c1"
+-- Retrieval info: USED_PORT: configupdate 0 0 0 0 INPUT GND "configupdate"
+-- Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0"
+-- Retrieval info: USED_PORT: locked 0 0 0 0 OUTPUT GND "locked"
+-- Retrieval info: USED_PORT: scanclk 0 0 0 0 INPUT_CLK_EXT VCC "scanclk"
+-- Retrieval info: USED_PORT: scanclkena 0 0 0 0 INPUT GND "scanclkena"
+-- Retrieval info: USED_PORT: scandata 0 0 0 0 INPUT GND "scandata"
+-- Retrieval info: USED_PORT: scandataout 0 0 0 0 OUTPUT VCC "scandataout"
+-- Retrieval info: USED_PORT: scandone 0 0 0 0 OUTPUT VCC "scandone"
+-- Retrieval info: CONNECT: @areset 0 0 0 0 areset 0 0 0 0
+-- Retrieval info: CONNECT: @configupdate 0 0 0 0 configupdate 0 0 0 0
+-- Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0
+-- Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0
+-- Retrieval info: CONNECT: @scanclk 0 0 0 0 scanclk 0 0 0 0
+-- Retrieval info: CONNECT: @scanclkena 0 0 0 0 scanclkena 0 0 0 0
+-- Retrieval info: CONNECT: @scandata 0 0 0 0 scandata 0 0 0 0
+-- Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0
+-- Retrieval info: CONNECT: c1 0 0 0 0 @clk 0 0 1 1
+-- Retrieval info: CONNECT: locked 0 0 0 0 @locked 0 0 0 0
+-- Retrieval info: CONNECT: scandataout 0 0 0 0 @scandataout 0 0 0 0
+-- Retrieval info: CONNECT: scandone 0 0 0 0 @scandone 0 0 0 0
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64.vhd TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64.ppf TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64.inc FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64.cmp FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64.bsf FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_inst.vhd FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_pal.mif TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_ntsc.mif TRUE
+-- Retrieval info: LIB_FILE: altera_mf
+-- Retrieval info: CBX_MODULE_PREFIX: ON
diff --git a/cores/c64/rtl/mist/pll_c64_ntsc.mif b/cores/c64/rtl/mist/pll_c64_ntsc.mif
new file mode 100644
index 0000000..b335402
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64_ntsc.mif
@@ -0,0 +1,174 @@
+-- Copyright (C) 1991-2014 Altera Corporation
+-- Your use of Altera Corporation's design tools, logic functions 
+-- and other software and tools, and its AMPP partner logic 
+-- functions, and any output files from any of the foregoing 
+-- (including device programming or simulation files), and any 
+-- associated documentation or information are expressly subject 
+-- to the terms and conditions of the Altera Program License 
+-- Subscription Agreement, Altera MegaCore Function License 
+-- Agreement, or other applicable license agreement, including, 
+-- without limitation, that your use is for the sole purpose of 
+-- programming logic devices manufactured by Altera and sold by 
+-- Altera or its authorized distributors.  Please refer to the 
+-- applicable agreement for further details.
+
+-- MIF file representing initial state of PLL Scan Chain
+--    Device Family: Cyclone III
+--    Device Part: -
+--    Device Speed Grade: 8
+--    PLL Scan Chain: Fast PLL (144 bits)
+--    File Name: /home/gyuri/git/mist-board/cores/c64/rtl/mist/pll_c64_ntsc.mif
+--    Generated: Sun Feb 10 18:12:08 2019
+
+WIDTH=1;
+DEPTH=144;
+
+ADDRESS_RADIX=UNS;
+DATA_RADIX=UNS;
+
+CONTENT BEGIN
+	0    :   0; -- Reserved Bits = 0 (1 bit(s))
+	1    :   0; -- Reserved Bits = 0 (1 bit(s))
+	2    :   0; -- Loop Filter Capacitance = 0 (2 bit(s)) (Setting 0)
+	3    :   0;
+	4    :   0; -- Loop Filter Resistance = 8 (5 bit(s)) (Setting 8)
+	5    :   1;
+	6    :   0;
+	7    :   0;
+	8    :   0;
+	9    :   0; -- VCO Post Scale = 0 (1 bit(s)) (VCO post-scale divider counter value = 2)
+	10   :   0; -- Reserved Bits = 0 (5 bit(s))
+	11   :   0;
+	12   :   0;
+	13   :   0;
+	14   :   0;
+	15   :   0; -- Charge Pump Current = 1 (3 bit(s)) (Setting 1)
+	16   :   0;
+	17   :   1;
+	18   :   0; -- N counter: Bypass = 0 (1 bit(s))
+	19   :   0; -- N counter: High Count = 3 (8 bit(s))
+	20   :   0;
+	21   :   0;
+	22   :   0;
+	23   :   0;
+	24   :   0;
+	25   :   1;
+	26   :   1;
+	27   :   1; -- N counter: Odd Division = 1 (1 bit(s))
+	28   :   0; -- N counter: Low Count = 2 (8 bit(s))
+	29   :   0;
+	30   :   0;
+	31   :   0;
+	32   :   0;
+	33   :   0;
+	34   :   1;
+	35   :   0;
+	36   :   0; -- M counter: Bypass = 0 (1 bit(s))
+	37   :   0; -- M counter: High Count = 49 (8 bit(s))
+	38   :   0;
+	39   :   1;
+	40   :   1;
+	41   :   0;
+	42   :   0;
+	43   :   0;
+	44   :   1;
+	45   :   1; -- M counter: Odd Division = 1 (1 bit(s))
+	46   :   0; -- M counter: Low Count = 48 (8 bit(s))
+	47   :   0;
+	48   :   1;
+	49   :   1;
+	50   :   0;
+	51   :   0;
+	52   :   0;
+	53   :   0;
+	54   :   0; -- clk0 counter: Bypass = 0 (1 bit(s))
+	55   :   0; -- clk0 counter: High Count = 8 (8 bit(s))
+	56   :   0;
+	57   :   0;
+	58   :   0;
+	59   :   1;
+	60   :   0;
+	61   :   0;
+	62   :   0;
+	63   :   0; -- clk0 counter: Odd Division = 0 (1 bit(s))
+	64   :   0; -- clk0 counter: Low Count = 8 (8 bit(s))
+	65   :   0;
+	66   :   0;
+	67   :   0;
+	68   :   1;
+	69   :   0;
+	70   :   0;
+	71   :   0;
+	72   :   0; -- clk1 counter: Bypass = 0 (1 bit(s))
+	73   :   0; -- clk1 counter: High Count = 4 (8 bit(s))
+	74   :   0;
+	75   :   0;
+	76   :   0;
+	77   :   0;
+	78   :   1;
+	79   :   0;
+	80   :   0;
+	81   :   0; -- clk1 counter: Odd Division = 0 (1 bit(s))
+	82   :   0; -- clk1 counter: Low Count = 4 (8 bit(s))
+	83   :   0;
+	84   :   0;
+	85   :   0;
+	86   :   0;
+	87   :   1;
+	88   :   0;
+	89   :   0;
+	90   :   1; -- clk2 counter: Bypass = 1 (1 bit(s))
+	91   :   0; -- clk2 counter: High Count = 0 (8 bit(s))
+	92   :   0;
+	93   :   0;
+	94   :   0;
+	95   :   0;
+	96   :   0;
+	97   :   0;
+	98   :   0;
+	99   :   0; -- clk2 counter: Odd Division = 0 (1 bit(s))
+	100  :   0; -- clk2 counter: Low Count = 0 (8 bit(s))
+	101  :   0;
+	102  :   0;
+	103  :   0;
+	104  :   0;
+	105  :   0;
+	106  :   0;
+	107  :   0;
+	108  :   1; -- clk3 counter: Bypass = 1 (1 bit(s))
+	109  :   0; -- clk3 counter: High Count = 0 (8 bit(s))
+	110  :   0;
+	111  :   0;
+	112  :   0;
+	113  :   0;
+	114  :   0;
+	115  :   0;
+	116  :   0;
+	117  :   0; -- clk3 counter: Odd Division = 0 (1 bit(s))
+	118  :   0; -- clk3 counter: Low Count = 0 (8 bit(s))
+	119  :   0;
+	120  :   0;
+	121  :   0;
+	122  :   0;
+	123  :   0;
+	124  :   0;
+	125  :   0;
+	126  :   1; -- clk4 counter: Bypass = 1 (1 bit(s))
+	127  :   0; -- clk4 counter: High Count = 0 (8 bit(s))
+	128  :   0;
+	129  :   0;
+	130  :   0;
+	131  :   0;
+	132  :   0;
+	133  :   0;
+	134  :   0;
+	135  :   0; -- clk4 counter: Odd Division = 0 (1 bit(s))
+	136  :   0; -- clk4 counter: Low Count = 0 (8 bit(s))
+	137  :   0;
+	138  :   0;
+	139  :   0;
+	140  :   0;
+	141  :   0;
+	142  :   0;
+	143  :   0;
+END;
diff --git a/cores/c64/rtl/mist/pll_c64_pal.mif b/cores/c64/rtl/mist/pll_c64_pal.mif
new file mode 100644
index 0000000..d0bc170
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64_pal.mif
@@ -0,0 +1,174 @@
+-- Copyright (C) 1991-2014 Altera Corporation
+-- Your use of Altera Corporation's design tools, logic functions 
+-- and other software and tools, and its AMPP partner logic 
+-- functions, and any output files from any of the foregoing 
+-- (including device programming or simulation files), and any 
+-- associated documentation or information are expressly subject 
+-- to the terms and conditions of the Altera Program License 
+-- Subscription Agreement, Altera MegaCore Function License 
+-- Agreement, or other applicable license agreement, including, 
+-- without limitation, that your use is for the sole purpose of 
+-- programming logic devices manufactured by Altera and sold by 
+-- Altera or its authorized distributors.  Please refer to the 
+-- applicable agreement for further details.
+
+-- MIF file representing initial state of PLL Scan Chain
+--    Device Family: Cyclone III
+--    Device Part: -
+--    Device Speed Grade: 8
+--    PLL Scan Chain: Fast PLL (144 bits)
+--    File Name: /home/gyuri/git/mist-board/cores/c64/rtl/mist/pll_c64_pal.mif
+--    Generated: Sun Feb 10 22:52:34 2019
+
+WIDTH=1;
+DEPTH=144;
+
+ADDRESS_RADIX=UNS;
+DATA_RADIX=UNS;
+
+CONTENT BEGIN
+	0    :   0; -- Reserved Bits = 0 (1 bit(s))
+	1    :   0; -- Reserved Bits = 0 (1 bit(s))
+	2    :   0; -- Loop Filter Capacitance = 0 (2 bit(s)) (Setting 0)
+	3    :   0;
+	4    :   1; -- Loop Filter Resistance = 24 (5 bit(s)) (Setting 24)
+	5    :   1;
+	6    :   0;
+	7    :   0;
+	8    :   0;
+	9    :   0; -- VCO Post Scale = 0 (1 bit(s)) (VCO post-scale divider counter value = 2)
+	10   :   0; -- Reserved Bits = 0 (5 bit(s))
+	11   :   0;
+	12   :   0;
+	13   :   0;
+	14   :   0;
+	15   :   0; -- Charge Pump Current = 1 (3 bit(s)) (Setting 1)
+	16   :   0;
+	17   :   1;
+	18   :   1; -- N counter: Bypass = 1 (1 bit(s))
+	19   :   0; -- N counter: High Count = 0 (8 bit(s))
+	20   :   0;
+	21   :   0;
+	22   :   0;
+	23   :   0;
+	24   :   0;
+	25   :   0;
+	26   :   0;
+	27   :   0; -- N counter: Odd Division = 0 (1 bit(s))
+	28   :   0; -- N counter: Low Count = 0 (8 bit(s))
+	29   :   0;
+	30   :   0;
+	31   :   0;
+	32   :   0;
+	33   :   0;
+	34   :   0;
+	35   :   0;
+	36   :   0; -- M counter: Bypass = 0 (1 bit(s))
+	37   :   0; -- M counter: High Count = 11 (8 bit(s))
+	38   :   0;
+	39   :   0;
+	40   :   0;
+	41   :   1;
+	42   :   0;
+	43   :   1;
+	44   :   1;
+	45   :   1; -- M counter: Odd Division = 1 (1 bit(s))
+	46   :   0; -- M counter: Low Count = 10 (8 bit(s))
+	47   :   0;
+	48   :   0;
+	49   :   0;
+	50   :   1;
+	51   :   0;
+	52   :   1;
+	53   :   0;
+	54   :   0; -- clk0 counter: Bypass = 0 (1 bit(s))
+	55   :   0; -- clk0 counter: High Count = 9 (8 bit(s))
+	56   :   0;
+	57   :   0;
+	58   :   0;
+	59   :   1;
+	60   :   0;
+	61   :   0;
+	62   :   1;
+	63   :   0; -- clk0 counter: Odd Division = 0 (1 bit(s))
+	64   :   0; -- clk0 counter: Low Count = 9 (8 bit(s))
+	65   :   0;
+	66   :   0;
+	67   :   0;
+	68   :   1;
+	69   :   0;
+	70   :   0;
+	71   :   1;
+	72   :   0; -- clk1 counter: Bypass = 0 (1 bit(s))
+	73   :   0; -- clk1 counter: High Count = 5 (8 bit(s))
+	74   :   0;
+	75   :   0;
+	76   :   0;
+	77   :   0;
+	78   :   1;
+	79   :   0;
+	80   :   1;
+	81   :   1; -- clk1 counter: Odd Division = 1 (1 bit(s))
+	82   :   0; -- clk1 counter: Low Count = 4 (8 bit(s))
+	83   :   0;
+	84   :   0;
+	85   :   0;
+	86   :   0;
+	87   :   1;
+	88   :   0;
+	89   :   0;
+	90   :   1; -- clk2 counter: Bypass = 1 (1 bit(s))
+	91   :   0; -- clk2 counter: High Count = 0 (8 bit(s))
+	92   :   0;
+	93   :   0;
+	94   :   0;
+	95   :   0;
+	96   :   0;
+	97   :   0;
+	98   :   0;
+	99   :   0; -- clk2 counter: Odd Division = 0 (1 bit(s))
+	100  :   0; -- clk2 counter: Low Count = 0 (8 bit(s))
+	101  :   0;
+	102  :   0;
+	103  :   0;
+	104  :   0;
+	105  :   0;
+	106  :   0;
+	107  :   0;
+	108  :   1; -- clk3 counter: Bypass = 1 (1 bit(s))
+	109  :   0; -- clk3 counter: High Count = 0 (8 bit(s))
+	110  :   0;
+	111  :   0;
+	112  :   0;
+	113  :   0;
+	114  :   0;
+	115  :   0;
+	116  :   0;
+	117  :   0; -- clk3 counter: Odd Division = 0 (1 bit(s))
+	118  :   0; -- clk3 counter: Low Count = 0 (8 bit(s))
+	119  :   0;
+	120  :   0;
+	121  :   0;
+	122  :   0;
+	123  :   0;
+	124  :   0;
+	125  :   0;
+	126  :   1; -- clk4 counter: Bypass = 1 (1 bit(s))
+	127  :   0; -- clk4 counter: High Count = 0 (8 bit(s))
+	128  :   0;
+	129  :   0;
+	130  :   0;
+	131  :   0;
+	132  :   0;
+	133  :   0;
+	134  :   0;
+	135  :   0; -- clk4 counter: Odd Division = 0 (1 bit(s))
+	136  :   0; -- clk4 counter: Low Count = 0 (8 bit(s))
+	137  :   0;
+	138  :   0;
+	139  :   0;
+	140  :   0;
+	141  :   0;
+	142  :   0;
+	143  :   0;
+END;
diff --git a/cores/c64/rtl/mist/pll_c64_reconfig.qip b/cores/c64/rtl/mist/pll_c64_reconfig.qip
new file mode 100644
index 0000000..33a580b
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64_reconfig.qip
@@ -0,0 +1,3 @@
+set_global_assignment -name IP_TOOL_NAME "ALTPLL_RECONFIG"
+set_global_assignment -name IP_TOOL_VERSION "13.1"
+set_global_assignment -name VHDL_FILE [file join $::quartus(qip_path) "pll_c64_reconfig.vhd"]
diff --git a/cores/c64/rtl/mist/pll_c64_reconfig.vhd b/cores/c64/rtl/mist/pll_c64_reconfig.vhd
new file mode 100644
index 0000000..c92d7b6
--- /dev/null
+++ b/cores/c64/rtl/mist/pll_c64_reconfig.vhd
@@ -0,0 +1,2472 @@
+-- megafunction wizard: %ALTPLL_RECONFIG%
+-- GENERATION: STANDARD
+-- VERSION: WM1.0
+-- MODULE: altpll_reconfig 
+
+-- ============================================================
+-- File Name: pll_c64_reconfig.vhd
+-- Megafunction Name(s):
+-- 			altpll_reconfig
+--
+-- Simulation Library Files(s):
+-- 			altera_mf;cycloneiii;lpm
+-- ============================================================
+-- ************************************************************
+-- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
+--
+-- 13.1.4 Build 182 03/12/2014 SJ Web Edition
+-- ************************************************************
+
+
+--Copyright (C) 1991-2014 Altera Corporation
+--Your use of Altera Corporation's design tools, logic functions 
+--and other software and tools, and its AMPP partner logic 
+--functions, and any output files from any of the foregoing 
+--(including device programming or simulation files), and any 
+--associated documentation or information are expressly subject 
+--to the terms and conditions of the Altera Program License 
+--Subscription Agreement, Altera MegaCore Function License 
+--Agreement, or other applicable license agreement, including, 
+--without limitation, that your use is for the sole purpose of 
+--programming logic devices manufactured by Altera and sold by 
+--Altera or its authorized distributors.  Please refer to the 
+--applicable agreement for further details.
+
+
+--altpll_reconfig CBX_AUTO_BLACKBOX="ALL" device_family="Cyclone III" busy clock counter_param counter_type data_in data_out pll_areset pll_areset_in pll_configupdate pll_scanclk pll_scanclkena pll_scandata pll_scandataout pll_scandone read_param reconfig reset reset_rom_address rom_address_out rom_data_in write_from_rom write_param write_rom_ena
+--VERSION_BEGIN 13.1 cbx_altpll_reconfig 2014:03:12:19:24:28:SJ cbx_altsyncram 2014:03:12:19:24:28:SJ cbx_cycloneii 2014:03:12:19:24:28:SJ cbx_lpm_add_sub 2014:03:12:19:24:28:SJ cbx_lpm_compare 2014:03:12:19:24:28:SJ cbx_lpm_counter 2014:03:12:19:24:28:SJ cbx_lpm_decode 2014:03:12:19:24:28:SJ cbx_lpm_mux 2014:03:12:19:24:28:SJ cbx_mgl 2014:03:12:19:35:38:SJ cbx_stratix 2014:03:12:19:24:28:SJ cbx_stratixii 2014:03:12:19:24:28:SJ cbx_stratixiii 2014:03:12:19:24:28:SJ cbx_stratixv 2014:03:12:19:24:28:SJ cbx_util_mgl 2014:03:12:19:24:28:SJ  VERSION_END
+
+ LIBRARY altera_mf;
+ USE altera_mf.all;
+
+ LIBRARY cycloneiii;
+ USE cycloneiii.all;
+
+ LIBRARY lpm;
+ USE lpm.all;
+
+--synthesis_resources = altsyncram 1 lpm_add_sub 2 lpm_compare 1 lpm_counter 8 lpm_decode 1 lut 3 reg 102 
+ LIBRARY ieee;
+ USE ieee.std_logic_1164.all;
+
+ ENTITY  pll_c64_reconfig_pllrcfg_fj11 IS 
+	 PORT 
+	 ( 
+		 busy	:	OUT  STD_LOGIC;
+		 clock	:	IN  STD_LOGIC;
+		 counter_param	:	IN  STD_LOGIC_VECTOR (2 DOWNTO 0) := (OTHERS => '0');
+		 counter_type	:	IN  STD_LOGIC_VECTOR (3 DOWNTO 0) := (OTHERS => '0');
+		 data_in	:	IN  STD_LOGIC_VECTOR (8 DOWNTO 0) := (OTHERS => '0');
+		 data_out	:	OUT  STD_LOGIC_VECTOR (8 DOWNTO 0);
+		 pll_areset	:	OUT  STD_LOGIC;
+		 pll_areset_in	:	IN  STD_LOGIC := '0';
+		 pll_configupdate	:	OUT  STD_LOGIC;
+		 pll_scanclk	:	OUT  STD_LOGIC;
+		 pll_scanclkena	:	OUT  STD_LOGIC;
+		 pll_scandata	:	OUT  STD_LOGIC;
+		 pll_scandataout	:	IN  STD_LOGIC := '0';
+		 pll_scandone	:	IN  STD_LOGIC := '0';
+		 read_param	:	IN  STD_LOGIC := '0';
+		 reconfig	:	IN  STD_LOGIC := '0';
+		 reset	:	IN  STD_LOGIC;
+		 reset_rom_address	:	IN  STD_LOGIC := '0';
+		 rom_address_out	:	OUT  STD_LOGIC_VECTOR (7 DOWNTO 0);
+		 rom_data_in	:	IN  STD_LOGIC := '0';
+		 write_from_rom	:	IN  STD_LOGIC := '0';
+		 write_param	:	IN  STD_LOGIC := '0';
+		 write_rom_ena	:	OUT  STD_LOGIC
+	 ); 
+ END pll_c64_reconfig_pllrcfg_fj11;
+
+ ARCHITECTURE RTL OF pll_c64_reconfig_pllrcfg_fj11 IS
+
+	 ATTRIBUTE synthesis_clearbox : natural;
+	 ATTRIBUTE synthesis_clearbox OF RTL : ARCHITECTURE IS 2;
+	 ATTRIBUTE ALTERA_ATTRIBUTE : string;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF RTL : ARCHITECTURE IS "ADV_NETLIST_OPT_ALLOWED=""NEVER_ALLOW"";suppress_da_rule_internal=C106;{-to le_comb10} PLL_SCAN_RECONFIG_COUNTER_REMAP_LCELL=2;{-to le_comb8} PLL_SCAN_RECONFIG_COUNTER_REMAP_LCELL=0;{-to le_comb9} PLL_SCAN_RECONFIG_COUNTER_REMAP_LCELL=1";
+
+	 SIGNAL  wire_altsyncram4_data_a	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_altsyncram4_q_a	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_le_comb10_combout	:	STD_LOGIC;
+	 SIGNAL  wire_le_comb8_combout	:	STD_LOGIC;
+	 SIGNAL  wire_le_comb9_combout	:	STD_LOGIC;
+	 SIGNAL	 addr_from_rom	:	STD_LOGIC_VECTOR(7 DOWNTO 0)
+	 -- synopsys translate_off
+	  := (OTHERS => '0')
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 addr_from_rom2	:	STD_LOGIC_VECTOR(7 DOWNTO 0)
+	 -- synopsys translate_off
+	  := (OTHERS => '0')
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 areset_init_state_1	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 areset_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C0_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C0_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C1_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C1_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_C1_ena_state_w_lg_q1786w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 C2_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C2_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_C2_ena_state_w_lg_q1787w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 C3_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C3_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C4_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 C4_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 configupdate2_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 configupdate3_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_configupdate3_state_w_lg_q1879w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 configupdate_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 counter_param_latch_reg	:	STD_LOGIC_VECTOR(2 DOWNTO 0)
+	 -- synopsys translate_off
+	  := (OTHERS => '0')
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 counter_type_latch_reg	:	STD_LOGIC_VECTOR(3 DOWNTO 0)
+	 -- synopsys translate_off
+	  := (OTHERS => '0')
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 idle_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF idle_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_idle_state_w_lg_w_lg_w_lg_w_lg_q1743w1744w1745w1746w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_w_lg_w_lg_q1743w1744w1745w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_w_lg_q1743w1744w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_q1743w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_q1672w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w1747w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_w1747w1748w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_w_lg_w1747w1748w1749w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_idle_state_w_lg_w_lg_w_lg_w1747w1748w1749w1750w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 nominal_data0	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data1	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data2	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data3	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data4	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data5	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data6	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data7	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data8	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data9	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data10	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data11	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data12	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data13	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data14	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data15	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data16	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 nominal_data17	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 read_data_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_data_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_data_nominal_state_w_lg_q1772w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_data_nominal_state_w_lg_q1686w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_data_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_data_state_w_lg_q1765w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_data_state_w_lg_q1678w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_first_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_first_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_first_nominal_state_w_lg_q1773w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_first_nominal_state_w_lg_q1684w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_first_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_first_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_first_state_w_lg_q1766w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_first_state_w_lg_q1676w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_first_state_w_lg_w_lg_w_lg_q1894w1895w1896w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_first_state_w_lg_w_lg_q1894w1895w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_first_state_w_lg_q1894w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_init_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_init_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_init_nominal_state_w_lg_q1682w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_init_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_init_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_init_state_w_lg_q1674w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_init_state_w_lg_q1891w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_last_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_last_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_last_nominal_state_w_lg_q1917w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_read_last_nominal_state_w_lg_q1688w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 read_last_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF read_last_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_read_last_state_w_lg_q1680w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_counter_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_counter_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_counter_state_w_lg_q1700w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_init_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_init_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_init_state_w_lg_q1698w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_post_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_post_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_post_state_w_lg_q1849w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_reconfig_post_state_w_lg_q1706w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_seq_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_seq_data_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_seq_data_state_w_lg_q1704w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_seq_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_seq_ena_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_seq_ena_state_w_lg_q1903w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_reconfig_seq_ena_state_w_lg_q1904w	:	STD_LOGIC_VECTOR (5 DOWNTO 0);
+	 SIGNAL  wire_reconfig_seq_ena_state_w_lg_q1702w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reconfig_wait_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reconfig_wait_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_reconfig_wait_state_w_lg_q1853w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_reconfig_wait_state_w_lg_q1708w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 reset_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '1'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF reset_state : SIGNAL IS "POWER_UP_LEVEL=HIGH";
+
+	 SIGNAL  wire_reset_state_w_lg_q1671w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_data_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_data_state_w_lg_q1868w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_q1889w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_w_lg_q1897w1933w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_q1716w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_w_lg_q1897w1898w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_w_lg_q1929w1930w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_q1897w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_data_state_w_lg_q1929w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_first_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_first_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_first_state_w_lg_w_lg_w_lg_w_lg_q1943w1944w1945w1947w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_q1712w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_w_lg_w_lg_q1943w1944w1945w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_w_lg_q1943w1944w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_w_lg_q1885w1886w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_q1943w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_first_state_w_lg_q1885w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_init_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_init_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_init_state_w_lg_q1710w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_last_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_last_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_last_state_w_lg_q1753w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_last_state_w_lg_q1720w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_second_last_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_second_last_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_second_last_state_w_lg_q1754w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_rom_second_last_state_w_lg_q1718w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 rom_second_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF rom_second_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_rom_second_state_w_lg_q1714w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg0	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q217w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q217w218w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg1	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q223w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q223w224w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg2	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q228w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q228w229w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg3	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q233w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q233w234w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg4	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q238w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q238w239w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg5	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q243w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q243w244w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg6	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q248w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q248w249w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg7	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q253w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q253w254w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg8	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q258w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_w_lg_q258w259w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 shift_reg9	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg10	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg11	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg12	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg13	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg14	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg15	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg16	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 shift_reg17	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL  wire_shift_reg_w_lg_q262w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q264w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q267w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q270w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q273w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q276w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q279w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_shift_reg_w_lg_q282w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 wire_shift_reg_ena	:	STD_LOGIC_VECTOR(17 DOWNTO 0);
+	 SIGNAL	 tmp_nominal_data_out_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 tmp_seq_ena_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 SIGNAL	 write_data_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF write_data_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_write_data_state_w_lg_q1738w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_write_data_state_w_lg_q1692w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 write_init_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF write_init_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_write_init_nominal_state_w_lg_q1694w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 write_init_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF write_init_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_write_init_state_w_lg_q1690w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_write_init_state_w_lg_q1900w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL	 write_nominal_state	:	STD_LOGIC
+	 -- synopsys translate_off
+	  := '0'
+	 -- synopsys translate_on
+	 ;
+	 ATTRIBUTE ALTERA_ATTRIBUTE OF write_nominal_state : SIGNAL IS "POWER_UP_LEVEL=LOW";
+
+	 SIGNAL  wire_write_nominal_state_w_lg_q1737w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_write_nominal_state_w_lg_q1696w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range214w215w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range221w222w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range226w227w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range231w232w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range236w237w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range241w242w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range246w247w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range251w252w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_lg_w_result_range256w257w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_gnd	:	STD_LOGIC;
+	 SIGNAL  wire_add_sub5_dataa	:	STD_LOGIC_VECTOR (8 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_datab	:	STD_LOGIC_VECTOR (8 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_result	:	STD_LOGIC_VECTOR (8 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range214w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range221w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range226w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range231w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range236w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range241w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range246w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range251w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub5_w_result_range256w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_add_sub6_dataa	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_add_sub6_result	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cmpr7_aeb	:	STD_LOGIC;
+	 SIGNAL  wire_cmpr7_dataa	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cmpr7_datab	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr1_q	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr12_q	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr13_q	:	STD_LOGIC_VECTOR (5 DOWNTO 0);
+	 SIGNAL  wire_cntr14_q	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr15_q	:	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  wire_cntr16_q	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr2_q	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_cntr3_q	:	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  wire_decode11_eq	:	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_read_addr_counter_out1934w1935w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_rom_width_counter_enable1931w1932w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_addr_counter_out1938w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_addr_decoder_out1901w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_c0_wire1828w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_c1_wire1826w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_c2_wire1824w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_c3_wire1822w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_c4_wire1820w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_addr_counter_out1887w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_addr_counter_out1934w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_addr_decoder_out1893w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reconfig_addr_counter_out1936w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_rom_data_in1946w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_rom_width_counter_enable1931w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_rotate_addr_counter_out1937w	:	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable187w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable179w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable171w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable163w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable155w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable147w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable139w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable131w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable123w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_serial_out1948w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_counter_param_latch_range294w379w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_counter_type_latch_range284w710w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_dummy_scandataout1925w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_pll_scandone1927w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_addr_counter_done1867w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_nominal_out216w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_read_param1742w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reconfig1740w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reconfig_done1852w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reconfig_post_done1848w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reconfig_width_counter_done1845w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reset1w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_reset_rom_address1752w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_rom_width_counter_done1888w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_rotate_width_counter_done1796w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_width_counter_done1764w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_write_from_rom1739w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_write_param1741w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_counter_param_latch_range296w297w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_counter_type_latch_range286w530w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w1329w1392w1452w1516w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w1329w1392w1452w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w1361w1422w1483w1550w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w1329w1392w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w1361w1422w1483w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w1329w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w1361w1422w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w_lg_w980w1055w1126w1195w1261w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w1361w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w980w1055w1126w1195w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w_lg_w1016w1091w1160w1228w1294w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w980w1055w1126w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w1016w1091w1160w1228w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w980w1055w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w1016w1091w1160w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w980w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w1016w1091w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w920w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w1016w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w63w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w_lg_w571w672w784w850w951w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_shift_reg_load_enable60w61w62w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w423w570w637w749w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w_lg_w571w672w784w850w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_shift_reg_load_enable60w61w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w423w570w637w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w_lg_w571w672w784w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_dummy_scandataout1926w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_shift_reg_load_enable60w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w301w378w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w381w495w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w423w570w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w571w672w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_lg_w675w885w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  addr_counter_enable :	STD_LOGIC;
+	 SIGNAL  addr_counter_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  addr_counter_sload :	STD_LOGIC;
+	 SIGNAL  addr_counter_sload_value :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  addr_decoder_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  c0_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  c1_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  c2_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  c3_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  c4_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  const_scan_chain_size :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  counter_param_latch :	STD_LOGIC_VECTOR (2 DOWNTO 0);
+	 SIGNAL  counter_type_latch :	STD_LOGIC_VECTOR (3 DOWNTO 0);
+	 SIGNAL  cuda_combout_wire :	STD_LOGIC_VECTOR (2 DOWNTO 0);
+	 SIGNAL  dummy_scandataout :	STD_LOGIC;
+	 SIGNAL  encode_out :	STD_LOGIC_VECTOR (2 DOWNTO 0);
+	 SIGNAL  input_latch_enable :	STD_LOGIC;
+	 SIGNAL  power_up :	STD_LOGIC;
+	 SIGNAL  read_addr_counter_done :	STD_LOGIC;
+	 SIGNAL  read_addr_counter_enable :	STD_LOGIC;
+	 SIGNAL  read_addr_counter_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  read_addr_counter_sload :	STD_LOGIC;
+	 SIGNAL  read_addr_counter_sload_value :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  read_addr_decoder_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  read_nominal_out :	STD_LOGIC;
+	 SIGNAL  reconfig_addr_counter_enable :	STD_LOGIC;
+	 SIGNAL  reconfig_addr_counter_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  reconfig_addr_counter_sload :	STD_LOGIC;
+	 SIGNAL  reconfig_addr_counter_sload_value :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  reconfig_done :	STD_LOGIC;
+	 SIGNAL  reconfig_post_done :	STD_LOGIC;
+	 SIGNAL  reconfig_width_counter_done :	STD_LOGIC;
+	 SIGNAL  reconfig_width_counter_enable :	STD_LOGIC;
+	 SIGNAL  reconfig_width_counter_sload :	STD_LOGIC;
+	 SIGNAL  reconfig_width_counter_sload_value :	STD_LOGIC_VECTOR (5 DOWNTO 0);
+	 SIGNAL  rom_width_counter_done :	STD_LOGIC;
+	 SIGNAL  rom_width_counter_enable :	STD_LOGIC;
+	 SIGNAL  rom_width_counter_sload :	STD_LOGIC;
+	 SIGNAL  rom_width_counter_sload_value :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  rotate_addr_counter_enable :	STD_LOGIC;
+	 SIGNAL  rotate_addr_counter_out :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  rotate_addr_counter_sload :	STD_LOGIC;
+	 SIGNAL  rotate_addr_counter_sload_value :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  rotate_decoder_wires :	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  rotate_width_counter_done :	STD_LOGIC;
+	 SIGNAL  rotate_width_counter_enable :	STD_LOGIC;
+	 SIGNAL  rotate_width_counter_sload :	STD_LOGIC;
+	 SIGNAL  rotate_width_counter_sload_value :	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  scan_cache_address :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  scan_cache_in :	STD_LOGIC;
+	 SIGNAL  scan_cache_out :	STD_LOGIC;
+	 SIGNAL  scan_cache_write_enable :	STD_LOGIC;
+	 SIGNAL  sel_param_bypass_LF_unused :	STD_LOGIC;
+	 SIGNAL  sel_param_c :	STD_LOGIC;
+	 SIGNAL  sel_param_high_i_postscale :	STD_LOGIC;
+	 SIGNAL  sel_param_low_r :	STD_LOGIC;
+	 SIGNAL  sel_param_nominal_count :	STD_LOGIC;
+	 SIGNAL  sel_param_odd_CP_unused :	STD_LOGIC;
+	 SIGNAL  sel_type_c0 :	STD_LOGIC;
+	 SIGNAL  sel_type_c1 :	STD_LOGIC;
+	 SIGNAL  sel_type_c2 :	STD_LOGIC;
+	 SIGNAL  sel_type_c3 :	STD_LOGIC;
+	 SIGNAL  sel_type_c4 :	STD_LOGIC;
+	 SIGNAL  sel_type_cplf :	STD_LOGIC;
+	 SIGNAL  sel_type_m :	STD_LOGIC;
+	 SIGNAL  sel_type_n :	STD_LOGIC;
+	 SIGNAL  sel_type_vco :	STD_LOGIC;
+	 SIGNAL  seq_addr_wire :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  seq_sload_value :	STD_LOGIC_VECTOR (5 DOWNTO 0);
+	 SIGNAL  shift_reg_clear :	STD_LOGIC;
+	 SIGNAL  shift_reg_load_enable :	STD_LOGIC;
+	 SIGNAL  shift_reg_load_nominal_enable :	STD_LOGIC;
+	 SIGNAL  shift_reg_serial_in :	STD_LOGIC;
+	 SIGNAL  shift_reg_serial_out :	STD_LOGIC;
+	 SIGNAL  shift_reg_shift_enable :	STD_LOGIC;
+	 SIGNAL  shift_reg_shift_nominal_enable :	STD_LOGIC;
+	 SIGNAL  shift_reg_width_select :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  w1019w :	STD_LOGIC;
+	 SIGNAL  w1056w :	STD_LOGIC;
+	 SIGNAL  w1092w :	STD_LOGIC;
+	 SIGNAL  w1127w :	STD_LOGIC;
+	 SIGNAL  w1163w :	STD_LOGIC;
+	 SIGNAL  w1196w :	STD_LOGIC;
+	 SIGNAL  w1229w :	STD_LOGIC;
+	 SIGNAL  w1262w :	STD_LOGIC;
+	 SIGNAL  w1297w :	STD_LOGIC;
+	 SIGNAL  w1330w :	STD_LOGIC;
+	 SIGNAL  w1362w :	STD_LOGIC;
+	 SIGNAL  w1393w :	STD_LOGIC;
+	 SIGNAL  w1424w :	STD_LOGIC;
+	 SIGNAL  w1453w :	STD_LOGIC;
+	 SIGNAL  w1484w :	STD_LOGIC;
+	 SIGNAL  w1517w :	STD_LOGIC;
+	 SIGNAL  w1565w :	STD_LOGIC;
+	 SIGNAL  w1592w :	STD_LOGIC;
+	 SIGNAL  w301w :	STD_LOGIC;
+	 SIGNAL  w341w :	STD_LOGIC;
+	 SIGNAL  w381w :	STD_LOGIC;
+	 SIGNAL  w423w :	STD_LOGIC;
+	 SIGNAL  w460w :	STD_LOGIC;
+	 SIGNAL  w496w :	STD_LOGIC;
+	 SIGNAL  w534w :	STD_LOGIC;
+	 SIGNAL  w571w :	STD_LOGIC;
+	 SIGNAL  w605w :	STD_LOGIC;
+	 SIGNAL  w638w :	STD_LOGIC;
+	 SIGNAL  w64w :	STD_LOGIC;
+	 SIGNAL  w675w :	STD_LOGIC;
+	 SIGNAL  w713w :	STD_LOGIC;
+	 SIGNAL  w750w :	STD_LOGIC;
+	 SIGNAL  w785w :	STD_LOGIC;
+	 SIGNAL  w818w :	STD_LOGIC;
+	 SIGNAL  w851w :	STD_LOGIC;
+	 SIGNAL  w888w :	STD_LOGIC;
+	 SIGNAL  w921w :	STD_LOGIC;
+	 SIGNAL  w952w :	STD_LOGIC;
+	 SIGNAL  w981w :	STD_LOGIC;
+	 SIGNAL  width_counter_done :	STD_LOGIC;
+	 SIGNAL  width_counter_enable :	STD_LOGIC;
+	 SIGNAL  width_counter_sload :	STD_LOGIC;
+	 SIGNAL  width_counter_sload_value :	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  width_decoder_out :	STD_LOGIC_VECTOR (4 DOWNTO 0);
+	 SIGNAL  width_decoder_select :	STD_LOGIC_VECTOR (7 DOWNTO 0);
+	 SIGNAL  wire_w_counter_param_latch_range294w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_counter_param_latch_range296w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_counter_type_latch_range284w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_counter_type_latch_range286w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range186w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range178w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range170w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range162w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range154w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range146w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range138w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range130w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_data_in_range122w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_rotate_decoder_wires_range1827w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_rotate_decoder_wires_range1825w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_rotate_decoder_wires_range1823w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_rotate_decoder_wires_range1821w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_rotate_decoder_wires_range1819w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range261w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range263w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range266w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range269w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range272w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range275w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range278w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 SIGNAL  wire_w_shift_reg_width_select_range281w	:	STD_LOGIC_VECTOR (0 DOWNTO 0);
+	 COMPONENT  altsyncram
+	 GENERIC 
+	 (
+		ADDRESS_ACLR_A	:	STRING := "UNUSED";
+		ADDRESS_ACLR_B	:	STRING := "NONE";
+		ADDRESS_REG_B	:	STRING := "CLOCK1";
+		BYTE_SIZE	:	NATURAL := 8;
+		BYTEENA_ACLR_A	:	STRING := "UNUSED";
+		BYTEENA_ACLR_B	:	STRING := "NONE";
+		BYTEENA_REG_B	:	STRING := "CLOCK1";
+		CLOCK_ENABLE_CORE_A	:	STRING := "USE_INPUT_CLKEN";
+		CLOCK_ENABLE_CORE_B	:	STRING := "USE_INPUT_CLKEN";
+		CLOCK_ENABLE_INPUT_A	:	STRING := "NORMAL";
+		CLOCK_ENABLE_INPUT_B	:	STRING := "NORMAL";
+		CLOCK_ENABLE_OUTPUT_A	:	STRING := "NORMAL";
+		CLOCK_ENABLE_OUTPUT_B	:	STRING := "NORMAL";
+		ECC_PIPELINE_STAGE_ENABLED	:	STRING := "FALSE";
+		ENABLE_ECC	:	STRING := "FALSE";
+		IMPLEMENT_IN_LES	:	STRING := "OFF";
+		INDATA_ACLR_A	:	STRING := "UNUSED";
+		INDATA_ACLR_B	:	STRING := "NONE";
+		INDATA_REG_B	:	STRING := "CLOCK1";
+		INIT_FILE	:	STRING := "UNUSED";
+		INIT_FILE_LAYOUT	:	STRING := "PORT_A";
+		MAXIMUM_DEPTH	:	NATURAL := 0;
+		NUMWORDS_A	:	NATURAL := 0;
+		NUMWORDS_B	:	NATURAL := 0;
+		OPERATION_MODE	:	STRING := "BIDIR_DUAL_PORT";
+		OUTDATA_ACLR_A	:	STRING := "NONE";
+		OUTDATA_ACLR_B	:	STRING := "NONE";
+		OUTDATA_REG_A	:	STRING := "UNREGISTERED";
+		OUTDATA_REG_B	:	STRING := "UNREGISTERED";
+		POWER_UP_UNINITIALIZED	:	STRING := "FALSE";
+		RAM_BLOCK_TYPE	:	STRING := "AUTO";
+		RDCONTROL_ACLR_B	:	STRING := "NONE";
+		RDCONTROL_REG_B	:	STRING := "CLOCK1";
+		READ_DURING_WRITE_MODE_MIXED_PORTS	:	STRING := "DONT_CARE";
+		read_during_write_mode_port_a	:	STRING := "NEW_DATA_NO_NBE_READ";
+		read_during_write_mode_port_b	:	STRING := "NEW_DATA_NO_NBE_READ";
+		WIDTH_A	:	NATURAL;
+		WIDTH_B	:	NATURAL := 1;
+		WIDTH_BYTEENA_A	:	NATURAL := 1;
+		WIDTH_BYTEENA_B	:	NATURAL := 1;
+		WIDTH_ECCSTATUS	:	NATURAL := 3;
+		WIDTHAD_A	:	NATURAL;
+		WIDTHAD_B	:	NATURAL := 1;
+		WRCONTROL_ACLR_A	:	STRING := "UNUSED";
+		WRCONTROL_ACLR_B	:	STRING := "NONE";
+		WRCONTROL_WRADDRESS_REG_B	:	STRING := "CLOCK1";
+		INTENDED_DEVICE_FAMILY	:	STRING := "Cyclone III";
+		lpm_hint	:	STRING := "UNUSED";
+		lpm_type	:	STRING := "altsyncram"
+	 );
+	 PORT
+	 ( 
+		aclr0	:	IN STD_LOGIC := '0';
+		aclr1	:	IN STD_LOGIC := '0';
+		address_a	:	IN STD_LOGIC_VECTOR(WIDTHAD_A-1 DOWNTO 0);
+		address_b	:	IN STD_LOGIC_VECTOR(WIDTHAD_B-1 DOWNTO 0) := (OTHERS => '1');
+		addressstall_a	:	IN STD_LOGIC := '0';
+		addressstall_b	:	IN STD_LOGIC := '0';
+		byteena_a	:	IN STD_LOGIC_VECTOR(WIDTH_BYTEENA_A-1 DOWNTO 0) := (OTHERS => '1');
+		byteena_b	:	IN STD_LOGIC_VECTOR(WIDTH_BYTEENA_B-1 DOWNTO 0) := (OTHERS => '1');
+		clock0	:	IN STD_LOGIC := '1';
+		clock1	:	IN STD_LOGIC := '1';
+		clocken0	:	IN STD_LOGIC := '1';
+		clocken1	:	IN STD_LOGIC := '1';
+		clocken2	:	IN STD_LOGIC := '1';
+		clocken3	:	IN STD_LOGIC := '1';
+		data_a	:	IN STD_LOGIC_VECTOR(WIDTH_A-1 DOWNTO 0) := (OTHERS => '1');
+		data_b	:	IN STD_LOGIC_VECTOR(WIDTH_B-1 DOWNTO 0) := (OTHERS => '1');
+		eccstatus	:	OUT STD_LOGIC_VECTOR(WIDTH_ECCSTATUS-1 DOWNTO 0);
+		q_a	:	OUT STD_LOGIC_VECTOR(WIDTH_A-1 DOWNTO 0);
+		q_b	:	OUT STD_LOGIC_VECTOR(WIDTH_B-1 DOWNTO 0);
+		rden_a	:	IN STD_LOGIC := '1';
+		rden_b	:	IN STD_LOGIC := '1';
+		wren_a	:	IN STD_LOGIC := '0';
+		wren_b	:	IN STD_LOGIC := '0'
+	 ); 
+	 END COMPONENT;
+	 COMPONENT  cycloneiii_lcell_comb
+	 GENERIC 
+	 (
+		DONT_TOUCH	:	STRING := "off";
+		LUT_MASK	:	STD_LOGIC_VECTOR(15 DOWNTO 0) := "0000000000000000";
+		SUM_LUTC_INPUT	:	STRING := "datac";
+		lpm_type	:	STRING := "cycloneiii_lcell_comb"
+	 );
+	 PORT
+	 ( 
+		cin	:	IN STD_LOGIC := '0';
+		combout	:	OUT STD_LOGIC;
+		cout	:	OUT STD_LOGIC;
+		dataa	:	IN STD_LOGIC := '0';
+		datab	:	IN STD_LOGIC := '0';
+		datac	:	IN STD_LOGIC := '0';
+		datad	:	IN STD_LOGIC := '0'
+	 ); 
+	 END COMPONENT;
+	 COMPONENT  lpm_add_sub
+	 GENERIC 
+	 (
+		LPM_DIRECTION	:	STRING := "DEFAULT";
+		LPM_PIPELINE	:	NATURAL := 0;
+		LPM_REPRESENTATION	:	STRING := "SIGNED";
+		LPM_WIDTH	:	NATURAL;
+		lpm_hint	:	STRING := "UNUSED";
+		lpm_type	:	STRING := "lpm_add_sub"
+	 );
+	 PORT
+	 ( 
+		aclr	:	IN STD_LOGIC := '0';
+		add_sub	:	IN STD_LOGIC := '1';
+		cin	:	IN STD_LOGIC := 'Z';
+		clken	:	IN STD_LOGIC := '1';
+		clock	:	IN STD_LOGIC := '0';
+		cout	:	OUT STD_LOGIC;
+		dataa	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0');
+		datab	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0');
+		overflow	:	OUT STD_LOGIC;
+		result	:	OUT STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0)
+	 ); 
+	 END COMPONENT;
+	 COMPONENT  lpm_compare
+	 GENERIC 
+	 (
+		LPM_PIPELINE	:	NATURAL := 0;
+		LPM_REPRESENTATION	:	STRING := "UNSIGNED";
+		LPM_WIDTH	:	NATURAL;
+		lpm_hint	:	STRING := "UNUSED";
+		lpm_type	:	STRING := "lpm_compare"
+	 );
+	 PORT
+	 ( 
+		aclr	:	IN STD_LOGIC := '0';
+		aeb	:	OUT STD_LOGIC;
+		agb	:	OUT STD_LOGIC;
+		ageb	:	OUT STD_LOGIC;
+		alb	:	OUT STD_LOGIC;
+		aleb	:	OUT STD_LOGIC;
+		aneb	:	OUT STD_LOGIC;
+		clken	:	IN STD_LOGIC := '1';
+		clock	:	IN STD_LOGIC := '0';
+		dataa	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0');
+		datab	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0')
+	 ); 
+	 END COMPONENT;
+	 COMPONENT  lpm_counter
+	 GENERIC 
+	 (
+		lpm_avalue	:	STRING := "0";
+		lpm_direction	:	STRING := "DEFAULT";
+		lpm_modulus	:	NATURAL := 0;
+		lpm_port_updown	:	STRING := "PORT_CONNECTIVITY";
+		lpm_pvalue	:	STRING := "0";
+		lpm_svalue	:	STRING := "0";
+		lpm_width	:	NATURAL;
+		lpm_type	:	STRING := "lpm_counter"
+	 );
+	 PORT
+	 ( 
+		aclr	:	IN STD_LOGIC := '0';
+		aload	:	IN STD_LOGIC := '0';
+		aset	:	IN STD_LOGIC := '0';
+		cin	:	IN STD_LOGIC := '1';
+		clk_en	:	IN STD_LOGIC := '1';
+		clock	:	IN STD_LOGIC;
+		cnt_en	:	IN STD_LOGIC := '1';
+		cout	:	OUT STD_LOGIC;
+		data	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0');
+		eq	:	OUT STD_LOGIC_VECTOR(15 DOWNTO 0);
+		q	:	OUT STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0);
+		sclr	:	IN STD_LOGIC := '0';
+		sload	:	IN STD_LOGIC := '0';
+		sset	:	IN STD_LOGIC := '0';
+		updown	:	IN STD_LOGIC := '1'
+	 ); 
+	 END COMPONENT;
+	 COMPONENT  lpm_decode
+	 GENERIC 
+	 (
+		LPM_DECODES	:	NATURAL;
+		LPM_PIPELINE	:	NATURAL := 0;
+		LPM_WIDTH	:	NATURAL;
+		lpm_hint	:	STRING := "UNUSED";
+		lpm_type	:	STRING := "lpm_decode"
+	 );
+	 PORT
+	 ( 
+		aclr	:	IN STD_LOGIC := '0';
+		clken	:	IN STD_LOGIC := '1';
+		clock	:	IN STD_LOGIC := '0';
+		data	:	IN STD_LOGIC_VECTOR(LPM_WIDTH-1 DOWNTO 0) := (OTHERS => '0');
+		enable	:	IN STD_LOGIC := '1';
+		eq	:	OUT STD_LOGIC_VECTOR(LPM_DECODES-1 DOWNTO 0)
+	 ); 
+	 END COMPONENT;
+ BEGIN
+
+	wire_gnd <= '0';
+	loop0 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_w_lg_read_addr_counter_out1934w1935w(i) <= wire_w_lg_read_addr_counter_out1934w(i) AND wire_rom_data_state_w_lg_w_lg_q1897w1933w(0);
+	END GENERATE loop0;
+	loop1 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_w_lg_rom_width_counter_enable1931w1932w(i) <= wire_w_lg_rom_width_counter_enable1931w(0) AND addr_from_rom2(i);
+	END GENERATE loop1;
+	loop2 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_addr_counter_out1938w(i) <= addr_counter_out(i) AND addr_counter_enable;
+	END GENERATE loop2;
+	loop3 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_addr_decoder_out1901w(i) <= addr_decoder_out(i) AND wire_write_init_state_w_lg_q1900w(0);
+	END GENERATE loop3;
+	loop4 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_c0_wire1828w(i) <= c0_wire(i) AND wire_w_rotate_decoder_wires_range1827w(0);
+	END GENERATE loop4;
+	loop5 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_c1_wire1826w(i) <= c1_wire(i) AND wire_w_rotate_decoder_wires_range1825w(0);
+	END GENERATE loop5;
+	loop6 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_c2_wire1824w(i) <= c2_wire(i) AND wire_w_rotate_decoder_wires_range1823w(0);
+	END GENERATE loop6;
+	loop7 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_c3_wire1822w(i) <= c3_wire(i) AND wire_w_rotate_decoder_wires_range1821w(0);
+	END GENERATE loop7;
+	loop8 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_c4_wire1820w(i) <= c4_wire(i) AND wire_w_rotate_decoder_wires_range1819w(0);
+	END GENERATE loop8;
+	loop9 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_read_addr_counter_out1887w(i) <= read_addr_counter_out(i) AND wire_rom_first_state_w_lg_w_lg_q1885w1886w(0);
+	END GENERATE loop9;
+	loop10 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_read_addr_counter_out1934w(i) <= read_addr_counter_out(i) AND read_addr_counter_enable;
+	END GENERATE loop10;
+	loop11 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_read_addr_decoder_out1893w(i) <= read_addr_decoder_out(i) AND wire_read_init_state_w_lg_q1891w(0);
+	END GENERATE loop11;
+	loop12 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_reconfig_addr_counter_out1936w(i) <= reconfig_addr_counter_out(i) AND reconfig_addr_counter_enable;
+	END GENERATE loop12;
+	wire_w_lg_rom_data_in1946w(0) <= rom_data_in AND wire_rom_first_state_w_lg_w_lg_w_lg_q1943w1944w1945w(0);
+	wire_w_lg_rom_width_counter_enable1931w(0) <= rom_width_counter_enable AND wire_rom_data_state_w_lg_w_lg_q1929w1930w(0);
+	loop13 : FOR i IN 0 TO 7 GENERATE 
+		wire_w_lg_rotate_addr_counter_out1937w(i) <= rotate_addr_counter_out(i) AND rotate_addr_counter_enable;
+	END GENERATE loop13;
+	wire_w_lg_shift_reg_load_enable187w(0) <= shift_reg_load_enable AND wire_w_data_in_range186w(0);
+	wire_w_lg_shift_reg_load_enable179w(0) <= shift_reg_load_enable AND wire_w_data_in_range178w(0);
+	wire_w_lg_shift_reg_load_enable171w(0) <= shift_reg_load_enable AND wire_w_data_in_range170w(0);
+	wire_w_lg_shift_reg_load_enable163w(0) <= shift_reg_load_enable AND wire_w_data_in_range162w(0);
+	wire_w_lg_shift_reg_load_enable155w(0) <= shift_reg_load_enable AND wire_w_data_in_range154w(0);
+	wire_w_lg_shift_reg_load_enable147w(0) <= shift_reg_load_enable AND wire_w_data_in_range146w(0);
+	wire_w_lg_shift_reg_load_enable139w(0) <= shift_reg_load_enable AND wire_w_data_in_range138w(0);
+	wire_w_lg_shift_reg_load_enable131w(0) <= shift_reg_load_enable AND wire_w_data_in_range130w(0);
+	wire_w_lg_shift_reg_load_enable123w(0) <= shift_reg_load_enable AND wire_w_data_in_range122w(0);
+	wire_w_lg_shift_reg_serial_out1948w(0) <= shift_reg_serial_out AND wire_rom_first_state_w_lg_w_lg_w_lg_w_lg_q1943w1944w1945w1947w(0);
+	wire_w_lg_w_counter_param_latch_range294w379w(0) <= wire_w_counter_param_latch_range294w(0) AND wire_w_lg_w_counter_param_latch_range296w297w(0);
+	wire_w_lg_w_counter_type_latch_range284w710w(0) <= wire_w_counter_type_latch_range284w(0) AND wire_w_lg_w_counter_type_latch_range286w530w(0);
+	wire_w_lg_dummy_scandataout1925w(0) <= NOT dummy_scandataout;
+	wire_w_lg_pll_scandone1927w(0) <= NOT pll_scandone;
+	wire_w_lg_read_addr_counter_done1867w(0) <= NOT read_addr_counter_done;
+	wire_w_lg_read_nominal_out216w(0) <= NOT read_nominal_out;
+	wire_w_lg_read_param1742w(0) <= NOT read_param;
+	wire_w_lg_reconfig1740w(0) <= NOT reconfig;
+	wire_w_lg_reconfig_done1852w(0) <= NOT reconfig_done;
+	wire_w_lg_reconfig_post_done1848w(0) <= NOT reconfig_post_done;
+	wire_w_lg_reconfig_width_counter_done1845w(0) <= NOT reconfig_width_counter_done;
+	wire_w_lg_reset1w(0) <= NOT reset;
+	wire_w_lg_reset_rom_address1752w(0) <= NOT reset_rom_address;
+	wire_w_lg_rom_width_counter_done1888w(0) <= NOT rom_width_counter_done;
+	wire_w_lg_rotate_width_counter_done1796w(0) <= NOT rotate_width_counter_done;
+	wire_w_lg_width_counter_done1764w(0) <= NOT width_counter_done;
+	wire_w_lg_write_from_rom1739w(0) <= NOT write_from_rom;
+	wire_w_lg_write_param1741w(0) <= NOT write_param;
+	wire_w_lg_w_counter_param_latch_range296w297w(0) <= NOT wire_w_counter_param_latch_range296w(0);
+	wire_w_lg_w_counter_type_latch_range286w530w(0) <= NOT wire_w_counter_type_latch_range286w(0);
+	wire_w_lg_w_lg_w_lg_w1329w1392w1452w1516w(0) <= wire_w_lg_w_lg_w1329w1392w1452w(0) OR w1484w;
+	wire_w_lg_w_lg_w1329w1392w1452w(0) <= wire_w_lg_w1329w1392w(0) OR w1424w;
+	wire_w_lg_w_lg_w_lg_w1361w1422w1483w1550w(0) <= wire_w_lg_w_lg_w1361w1422w1483w(0) OR w1517w;
+	wire_w_lg_w1329w1392w(0) <= wire_w1329w(0) OR w1362w;
+	wire_w_lg_w_lg_w1361w1422w1483w(0) <= wire_w_lg_w1361w1422w(0) OR w1453w;
+	wire_w1329w(0) <= wire_w_lg_w_lg_w_lg_w_lg_w980w1055w1126w1195w1261w(0) OR w1297w;
+	wire_w_lg_w1361w1422w(0) <= wire_w1361w(0) OR w1393w;
+	wire_w_lg_w_lg_w_lg_w_lg_w980w1055w1126w1195w1261w(0) <= wire_w_lg_w_lg_w_lg_w980w1055w1126w1195w(0) OR w1229w;
+	wire_w1361w(0) <= wire_w_lg_w_lg_w_lg_w_lg_w1016w1091w1160w1228w1294w(0) OR w1330w;
+	wire_w_lg_w_lg_w_lg_w980w1055w1126w1195w(0) <= wire_w_lg_w_lg_w980w1055w1126w(0) OR w1163w;
+	wire_w_lg_w_lg_w_lg_w_lg_w1016w1091w1160w1228w1294w(0) <= wire_w_lg_w_lg_w_lg_w1016w1091w1160w1228w(0) OR w1262w;
+	wire_w_lg_w_lg_w980w1055w1126w(0) <= wire_w_lg_w980w1055w(0) OR w1092w;
+	wire_w_lg_w_lg_w_lg_w1016w1091w1160w1228w(0) <= wire_w_lg_w_lg_w1016w1091w1160w(0) OR w1196w;
+	wire_w_lg_w980w1055w(0) <= wire_w980w(0) OR w1019w;
+	wire_w_lg_w_lg_w1016w1091w1160w(0) <= wire_w_lg_w1016w1091w(0) OR w1127w;
+	wire_w980w(0) <= wire_w_lg_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w920w(0) OR w952w;
+	wire_w_lg_w1016w1091w(0) <= wire_w1016w(0) OR w1056w;
+	wire_w_lg_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w920w(0) <= wire_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w(0) OR w888w;
+	wire_w1016w(0) <= wire_w_lg_w_lg_w_lg_w_lg_w571w672w784w850w951w(0) OR w981w;
+	wire_w63w(0) <= wire_w_lg_w_lg_w_lg_shift_reg_load_enable60w61w62w(0) OR shift_reg_clear;
+	wire_w_lg_w_lg_w_lg_w_lg_w423w570w637w749w817w(0) <= wire_w_lg_w_lg_w_lg_w423w570w637w749w(0) OR w785w;
+	wire_w_lg_w_lg_w_lg_w_lg_w571w672w784w850w951w(0) <= wire_w_lg_w_lg_w_lg_w571w672w784w850w(0) OR w921w;
+	wire_w_lg_w_lg_w_lg_shift_reg_load_enable60w61w62w(0) <= wire_w_lg_w_lg_shift_reg_load_enable60w61w(0) OR shift_reg_shift_nominal_enable;
+	wire_w_lg_w_lg_w_lg_w423w570w637w749w(0) <= wire_w_lg_w_lg_w423w570w637w(0) OR w713w;
+	wire_w_lg_w_lg_w_lg_w571w672w784w850w(0) <= wire_w_lg_w_lg_w571w672w784w(0) OR w818w;
+	wire_w_lg_w_lg_shift_reg_load_enable60w61w(0) <= wire_w_lg_shift_reg_load_enable60w(0) OR shift_reg_load_nominal_enable;
+	wire_w_lg_w_lg_w423w570w637w(0) <= wire_w_lg_w423w570w(0) OR w605w;
+	wire_w_lg_w_lg_w571w672w784w(0) <= wire_w_lg_w571w672w(0) OR w750w;
+	wire_w_lg_dummy_scandataout1926w(0) <= dummy_scandataout OR wire_w_lg_dummy_scandataout1925w(0);
+	wire_w_lg_shift_reg_load_enable60w(0) <= shift_reg_load_enable OR shift_reg_shift_enable;
+	wire_w_lg_w301w378w(0) <= w301w OR w341w;
+	wire_w_lg_w381w495w(0) <= w381w OR w460w;
+	wire_w_lg_w423w570w(0) <= w423w OR w534w;
+	wire_w_lg_w571w672w(0) <= w571w OR w638w;
+	wire_w_lg_w675w885w(0) <= w675w OR w851w;
+	addr_counter_enable <= (write_data_state OR write_nominal_state);
+	addr_counter_out <= wire_cntr1_q;
+	addr_counter_sload <= wire_write_init_state_w_lg_q1900w(0);
+	addr_counter_sload_value <= wire_w_lg_addr_decoder_out1901w;
+	addr_decoder_out <= (((((((((((((((((((((((((((((((((((( "0" & "0" & "0" & "0" & "0" & "0" & "0" & w301w) OR ( "0" & "0" & "0" & "0" & "0" & "0" & w341w & w341w)) OR ( "0" & "0" & "0" & "0" & w381w & "0" & "0" & "0")) OR ( "0" & "0" & "0" & "0" & w423w & "0" & "0" & w423w)) OR ( "0" & "0" & "0" & "0" & w460w & w460w & w460w & "0")) OR ( "0" & "0" & "0" & w496w & "0" & "0" & "0" & w496w)) OR ( "0" & "0" & "0" & w534w & "0" & "0" & w534w & "0")) OR ( "0" & "0" & "0" & w571w & w571w & "0" & w571w & "0")) OR ( "0" & "0" & "0" & w605w & w605w & "0" & w605w & w605w)) OR ( "0" & "0" & w638w & "0" & "0" & "0" & w638w & w638w)) OR ( "0" & "0" & w675w & "0" & "0" & "0" & w675w & w675w)) OR ( "0" & "0" & w713w & "0" & "0" & w713w & "0" & "0")) OR ( "0" & "0" & w750w & "0" & w750w & w750w & "0" & "0")) OR ( "0" & "0" & w785w & "0" & w785w & w785w & "0" & w785w)) OR ( "0" & "0" & w818w & w818w & "0" & w818w & "0" & w818w)) OR ( "0" & "0" & w851w & w851w & "0" & w851w & "0" & w851w)) OR ( "0" & "0" & w888w & w888w & "0" & w888w & w888w & "0")) OR ( "0" & "0" & w921w & w921w & w921w & w921w & w921w & "0")) OR ( "0" & "0" & w952w & w952w & w952w & w952w & w952w & w952w)) OR ( "0" & w981w & "0" & "0" & "0" & w981w & w981w & w981w)) OR ( "0" & w1019w & "0" & "0" & w1019w & "0" & "0" & "0")) OR ( "0" & w1056w & "0" & w1056w & "0" & "0" & "0" & "0")) OR ( "0" & w1092w & "0" & w1092w & "0" & "0" & "0" & w1092w)) OR ( "0" & w1127w & "0" & w1127w & w1127w & "0" & "0" & w1127w)) OR ( "0" & w1163w & "0" & w1163w & w1163w & "0" & w1163w & "0")) OR ( "0" & w1196w & w1196w & "0" & "0" & "0" & w1196w & "0")) OR ( "0" & w1229w & w1229w & "0" & "0" & "0" & w1229w & w1229w)) OR ( "0" & w1262w & w1262w & "0" & w1262w & "0" & w1262w & w1262w)) OR ( "0" & w1297w & w1297w & "0" & w1297w & w1297w & "0" & "0")) OR ( "0" & w1330w & w1330w & w1330w & "0" & w1330w & "0" & "0")) OR ( "0" & w1362w & w1362w & w1362w & "0" & w1362w & "0" & w1362w)) OR ( "0" & w1393w & w1393w & w1393w & w1393w & w1393w & "0" & w1393w)) OR ( "0" & w1424w & w1424w & w1424w & w1424w
+ & w1424w & w1424w & "0")) OR ( w1453w & "0" & "0" & "0" & "0" & w1453w & w1453w & "0")) OR ( w1484w & "0" & "0" & "0" & "0" & w1484w & w1484w & w1484w)) OR ( w1517w & "0" & "0" & "0" & w1517w & w1517w & w1517w & w1517w));
+	busy <= (wire_idle_state_w_lg_q1672w(0) OR areset_state);
+	c0_wire <= "01000111";
+	c1_wire <= "01011001";
+	c2_wire <= "01101011";
+	c3_wire <= "01111101";
+	c4_wire <= "10001111";
+	const_scan_chain_size <= "10001111";
+	counter_param_latch <= counter_param_latch_reg;
+	counter_type_latch <= counter_type_latch_reg;
+	cuda_combout_wire <= ( wire_le_comb10_combout & wire_le_comb9_combout & wire_le_comb8_combout);
+	data_out <= ( wire_shift_reg_w_lg_w_lg_q258w259w & wire_shift_reg_w_lg_w_lg_q253w254w & wire_shift_reg_w_lg_w_lg_q248w249w & wire_shift_reg_w_lg_w_lg_q243w244w & wire_shift_reg_w_lg_w_lg_q238w239w & wire_shift_reg_w_lg_w_lg_q233w234w & wire_shift_reg_w_lg_w_lg_q228w229w & wire_shift_reg_w_lg_w_lg_q223w224w & wire_shift_reg_w_lg_w_lg_q217w218w);
+	dummy_scandataout <= pll_scandataout;
+	encode_out <= ( C4_ena_state & wire_C2_ena_state_w_lg_q1787w & wire_C1_ena_state_w_lg_q1786w);
+	input_latch_enable <= (idle_state AND (write_param OR read_param));
+	pll_areset <= (pll_areset_in OR (areset_state AND reconfig_wait_state));
+	pll_configupdate <= (configupdate_state AND wire_configupdate3_state_w_lg_q1879w(0));
+	pll_scanclk <= clock;
+	pll_scanclkena <= ((rotate_width_counter_enable AND wire_w_lg_rotate_width_counter_done1796w(0)) OR reconfig_seq_data_state);
+	pll_scandata <= (scan_cache_out AND ((rotate_width_counter_enable OR reconfig_seq_data_state) OR reconfig_post_state));
+	power_up <= (((((((((((((((((((((((((wire_reset_state_w_lg_q1671w(0) AND wire_idle_state_w_lg_q1672w(0)) AND wire_read_init_state_w_lg_q1674w(0)) AND wire_read_first_state_w_lg_q1676w(0)) AND wire_read_data_state_w_lg_q1678w(0)) AND wire_read_last_state_w_lg_q1680w(0)) AND wire_read_init_nominal_state_w_lg_q1682w(0)) AND wire_read_first_nominal_state_w_lg_q1684w(0)) AND wire_read_data_nominal_state_w_lg_q1686w(0)) AND wire_read_last_nominal_state_w_lg_q1688w(0)) AND wire_write_init_state_w_lg_q1690w(0)) AND wire_write_data_state_w_lg_q1692w(0)) AND wire_write_init_nominal_state_w_lg_q1694w(0)) AND wire_write_nominal_state_w_lg_q1696w(0)) AND wire_reconfig_init_state_w_lg_q1698w(0)) AND wire_reconfig_counter_state_w_lg_q1700w(0)) AND wire_reconfig_seq_ena_state_w_lg_q1702w(0)) AND wire_reconfig_seq_data_state_w_lg_q1704w(0)) AND wire_reconfig_post_state_w_lg_q1706w(0)) AND wire_reconfig_wait_state_w_lg_q1708w(0)) AND wire_rom_init_state_w_lg_q1710w(0)) AND wire_rom_first_state_w_lg_q1712w(0)) AND wire_rom_second_state_w_lg_q1714w(0)) AND wire_rom_data_state_w_lg_q1716w(0)) AND wire_rom_second_last_state_w_lg_q1718w(0)) AND wire_rom_last_state_w_lg_q1720w(0));
+	read_addr_counter_done <= (((((((wire_cntr2_q(0) AND wire_cntr2_q(1)) AND wire_cntr2_q(2)) AND wire_cntr2_q(3)) AND (NOT wire_cntr2_q(4))) AND (NOT wire_cntr2_q(5))) AND (NOT wire_cntr2_q(6))) AND wire_cntr2_q(7));
+	read_addr_counter_enable <= (wire_read_first_state_w_lg_w_lg_w_lg_q1894w1895w1896w(0) OR wire_rom_data_state_w_lg_w_lg_q1897w1898w(0));
+	read_addr_counter_out <= wire_cntr2_q;
+	read_addr_counter_sload <= (wire_read_init_state_w_lg_q1891w(0) OR rom_init_state);
+	read_addr_counter_sload_value <= wire_w_lg_read_addr_decoder_out1893w;
+	read_addr_decoder_out <= (((((((((((((((((((((((((((((((((((( "0" & "0" & "0" & "0" & "0" & "0" & "0" & "0") OR ( "0" & "0" & "0" & "0" & "0" & "0" & w341w & "0")) OR ( "0" & "0" & "0" & "0" & "0" & w381w & "0" & "0")) OR ( "0" & "0" & "0" & "0" & w423w & "0" & "0" & w423w)) OR ( "0" & "0" & "0" & "0" & w460w & "0" & w460w & "0")) OR ( "0" & "0" & "0" & "0" & w496w & w496w & w496w & w496w)) OR ( "0" & "0" & "0" & w534w & "0" & "0" & w534w & "0")) OR ( "0" & "0" & "0" & w571w & "0" & "0" & w571w & w571w)) OR ( "0" & "0" & "0" & w605w & w605w & "0" & w605w & w605w)) OR ( "0" & "0" & "0" & w638w & w638w & w638w & "0" & "0")) OR ( "0" & "0" & "0" & w675w & "0" & "0" & w675w & "0")) OR ( "0" & "0" & w713w & "0" & "0" & w713w & "0" & "0")) OR ( "0" & "0" & w750w & "0" & "0" & w750w & "0" & w750w)) OR ( "0" & "0" & w785w & "0" & w785w & w785w & "0" & w785w)) OR ( "0" & "0" & w818w & "0" & w818w & w818w & w818w & "0")) OR ( "0" & "0" & w851w & "0" & "0" & w851w & "0" & "0")) OR ( "0" & "0" & w888w & w888w & "0" & w888w & w888w & "0")) OR ( "0" & "0" & w921w & w921w & "0" & w921w & w921w & w921w)) OR ( "0" & "0" & w952w & w952w & w952w & w952w & w952w & w952w)) OR ( "0" & w981w & "0" & "0" & "0" & "0" & "0" & "0")) OR ( "0" & w1019w & "0" & "0" & w1019w & "0" & "0" & "0")) OR ( "0" & w1056w & "0" & "0" & w1056w & "0" & "0" & w1056w)) OR ( "0" & w1092w & "0" & w1092w & "0" & "0" & "0" & w1092w)) OR ( "0" & w1127w & "0" & w1127w & "0" & "0" & w1127w & "0")) OR ( "0" & w1163w & "0" & w1163w & w1163w & "0" & w1163w & "0")) OR ( "0" & w1196w & "0" & w1196w & w1196w & "0" & w1196w & w1196w)) OR ( "0" & w1229w & w1229w & "0" & "0" & "0" & w1229w & w1229w)) OR ( "0" & w1262w & w1262w & "0" & "0" & w1262w & "0" & "0")) OR ( "0" & w1297w & w1297w & "0" & w1297w & w1297w & "0" & "0")) OR ( "0" & w1330w & w1330w & "0" & w1330w & w1330w & "0" & w1330w)) OR ( "0" & w1362w & w1362w & w1362w & "0" & w1362w & "0" & w1362w)) OR ( "0" & w1393w & w1393w & w1393w & "0" & w1393w & w1393w & "0")) OR ( "0" & w1424w & w1424w & w1424w & w1424w & w1424w
+ & w1424w & "0")) OR ( "0" & w1453w & w1453w & w1453w & w1453w & w1453w & w1453w & w1453w)) OR ( w1484w & "0" & "0" & "0" & "0" & w1484w & w1484w & w1484w)) OR ( w1517w & "0" & "0" & "0" & w1517w & "0" & "0" & "0"));
+	read_nominal_out <= tmp_nominal_data_out_state;
+	reconfig_addr_counter_enable <= reconfig_seq_data_state;
+	reconfig_addr_counter_out <= wire_cntr12_q;
+	reconfig_addr_counter_sload <= reconfig_seq_ena_state;
+	reconfig_addr_counter_sload_value <= wire_reconfig_seq_ena_state_w_lg_q1903w;
+	reconfig_done <= (wire_w_lg_pll_scandone1927w(0) AND wire_w_lg_dummy_scandataout1926w(0));
+	reconfig_post_done <= pll_scandone;
+	reconfig_width_counter_done <= ((((((NOT wire_cntr13_q(0)) AND (NOT wire_cntr13_q(1))) AND (NOT wire_cntr13_q(2))) AND (NOT wire_cntr13_q(3))) AND (NOT wire_cntr13_q(4))) AND (NOT wire_cntr13_q(5)));
+	reconfig_width_counter_enable <= reconfig_seq_data_state;
+	reconfig_width_counter_sload <= reconfig_seq_ena_state;
+	reconfig_width_counter_sload_value <= wire_reconfig_seq_ena_state_w_lg_q1904w;
+	rom_address_out <= wire_w_lg_read_addr_counter_out1887w;
+	rom_width_counter_done <= ((((((((NOT wire_cntr14_q(0)) AND (NOT wire_cntr14_q(1))) AND (NOT wire_cntr14_q(2))) AND (NOT wire_cntr14_q(3))) AND (NOT wire_cntr14_q(4))) AND (NOT wire_cntr14_q(5))) AND (NOT wire_cntr14_q(6))) AND (NOT wire_cntr14_q(7)));
+	rom_width_counter_enable <= ((rom_data_state OR rom_last_state) OR rom_second_last_state);
+	rom_width_counter_sload <= rom_init_state;
+	rom_width_counter_sload_value <= const_scan_chain_size;
+	rotate_addr_counter_enable <= ((((C0_data_state OR C1_data_state) OR C2_data_state) OR C3_data_state) OR C4_data_state);
+	rotate_addr_counter_out <= wire_cntr16_q;
+	rotate_addr_counter_sload <= ((((C0_ena_state OR C1_ena_state) OR C2_ena_state) OR C3_ena_state) OR C4_ena_state);
+	rotate_addr_counter_sload_value <= ((((wire_w_lg_c0_wire1828w OR wire_w_lg_c1_wire1826w) OR wire_w_lg_c2_wire1824w) OR wire_w_lg_c3_wire1822w) OR wire_w_lg_c4_wire1820w);
+	rotate_decoder_wires <= wire_decode11_eq;
+	rotate_width_counter_done <= (((((NOT wire_cntr15_q(0)) AND (NOT wire_cntr15_q(1))) AND (NOT wire_cntr15_q(2))) AND (NOT wire_cntr15_q(3))) AND (NOT wire_cntr15_q(4)));
+	rotate_width_counter_enable <= ((((C0_data_state OR C1_data_state) OR C2_data_state) OR C3_data_state) OR C4_data_state);
+	rotate_width_counter_sload <= ((((C0_ena_state OR C1_ena_state) OR C2_ena_state) OR C3_ena_state) OR C4_ena_state);
+	rotate_width_counter_sload_value <= "10010";
+	scan_cache_address <= ((((wire_w_lg_addr_counter_out1938w OR wire_w_lg_rotate_addr_counter_out1937w) OR wire_w_lg_reconfig_addr_counter_out1936w) OR wire_w_lg_w_lg_read_addr_counter_out1934w1935w) OR wire_w_lg_w_lg_rom_width_counter_enable1931w1932w);
+	scan_cache_in <= (wire_w_lg_shift_reg_serial_out1948w(0) OR wire_w_lg_rom_data_in1946w(0));
+	scan_cache_out <= wire_altsyncram4_q_a(0);
+	scan_cache_write_enable <= ((((write_data_state OR write_nominal_state) OR rom_data_state) OR rom_second_last_state) OR rom_last_state);
+	sel_param_bypass_LF_unused <= (((NOT counter_param_latch(0)) AND wire_w_lg_w_counter_param_latch_range296w297w(0)) AND counter_param_latch(2));
+	sel_param_c <= (((NOT counter_param_latch(0)) AND counter_param_latch(1)) AND (NOT counter_param_latch(2)));
+	sel_param_high_i_postscale <= (((NOT counter_param_latch(0)) AND wire_w_lg_w_counter_param_latch_range296w297w(0)) AND (NOT counter_param_latch(2)));
+	sel_param_low_r <= (wire_w_lg_w_counter_param_latch_range294w379w(0) AND (NOT counter_param_latch(2)));
+	sel_param_nominal_count <= ((counter_param_latch(0) AND counter_param_latch(1)) AND counter_param_latch(2));
+	sel_param_odd_CP_unused <= (wire_w_lg_w_counter_param_latch_range294w379w(0) AND counter_param_latch(2));
+	sel_type_c0 <= ((((NOT counter_type_latch(0)) AND wire_w_lg_w_counter_type_latch_range286w530w(0)) AND counter_type_latch(2)) AND (NOT counter_type_latch(3)));
+	sel_type_c1 <= ((wire_w_lg_w_counter_type_latch_range284w710w(0) AND counter_type_latch(2)) AND (NOT counter_type_latch(3)));
+	sel_type_c2 <= ((((NOT counter_type_latch(0)) AND counter_type_latch(1)) AND counter_type_latch(2)) AND (NOT counter_type_latch(3)));
+	sel_type_c3 <= (((counter_type_latch(0) AND counter_type_latch(1)) AND counter_type_latch(2)) AND (NOT counter_type_latch(3)));
+	sel_type_c4 <= ((((NOT counter_type_latch(0)) AND wire_w_lg_w_counter_type_latch_range286w530w(0)) AND (NOT counter_type_latch(2))) AND counter_type_latch(3));
+	sel_type_cplf <= ((((NOT counter_type_latch(0)) AND counter_type_latch(1)) AND (NOT counter_type_latch(2))) AND (NOT counter_type_latch(3)));
+	sel_type_m <= ((wire_w_lg_w_counter_type_latch_range284w710w(0) AND (NOT counter_type_latch(2))) AND (NOT counter_type_latch(3)));
+	sel_type_n <= ((((NOT counter_type_latch(0)) AND wire_w_lg_w_counter_type_latch_range286w530w(0)) AND (NOT counter_type_latch(2))) AND (NOT counter_type_latch(3)));
+	sel_type_vco <= (((counter_type_latch(0) AND counter_type_latch(1)) AND (NOT counter_type_latch(2))) AND (NOT counter_type_latch(3)));
+	seq_addr_wire <= "00110101";
+	seq_sload_value <= "110110";
+	shift_reg_clear <= wire_read_init_state_w_lg_q1891w(0);
+	shift_reg_load_enable <= ((idle_state AND write_param) AND (NOT ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0))));
+	shift_reg_load_nominal_enable <= ((idle_state AND write_param) AND ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0)));
+	shift_reg_serial_in <= scan_cache_out;
+	shift_reg_serial_out <= (((((((wire_shift_reg_w_lg_q262w(0) OR wire_shift_reg_w_lg_q264w(0)) OR wire_shift_reg_w_lg_q267w(0)) OR wire_shift_reg_w_lg_q270w(0)) OR wire_shift_reg_w_lg_q273w(0)) OR wire_shift_reg_w_lg_q276w(0)) OR wire_shift_reg_w_lg_q279w(0)) OR wire_shift_reg_w_lg_q282w(0));
+	shift_reg_shift_enable <= ((read_data_state OR read_last_state) OR write_data_state);
+	shift_reg_shift_nominal_enable <= ((read_data_nominal_state OR read_last_nominal_state) OR write_nominal_state);
+	shift_reg_width_select <= width_decoder_select;
+	w1019w <= (sel_type_c1 AND sel_param_bypass_LF_unused);
+	w1056w <= (sel_type_c1 AND sel_param_high_i_postscale);
+	w1092w <= (sel_type_c1 AND sel_param_odd_CP_unused);
+	w1127w <= (sel_type_c1 AND sel_param_low_r);
+	w1163w <= (sel_type_c2 AND sel_param_bypass_LF_unused);
+	w1196w <= (sel_type_c2 AND sel_param_high_i_postscale);
+	w1229w <= (sel_type_c2 AND sel_param_odd_CP_unused);
+	w1262w <= (sel_type_c2 AND sel_param_low_r);
+	w1297w <= (sel_type_c3 AND sel_param_bypass_LF_unused);
+	w1330w <= (sel_type_c3 AND sel_param_high_i_postscale);
+	w1362w <= (sel_type_c3 AND sel_param_odd_CP_unused);
+	w1393w <= (sel_type_c3 AND sel_param_low_r);
+	w1424w <= (sel_type_c4 AND sel_param_bypass_LF_unused);
+	w1453w <= (sel_type_c4 AND sel_param_high_i_postscale);
+	w1484w <= (sel_type_c4 AND sel_param_odd_CP_unused);
+	w1517w <= (sel_type_c4 AND sel_param_low_r);
+	w1565w <= '0';
+	w1592w <= '0';
+	w301w <= (sel_type_cplf AND sel_param_bypass_LF_unused);
+	w341w <= (sel_type_cplf AND sel_param_c);
+	w381w <= (sel_type_cplf AND sel_param_low_r);
+	w423w <= (sel_type_vco AND sel_param_high_i_postscale);
+	w460w <= (sel_type_cplf AND sel_param_odd_CP_unused);
+	w496w <= (sel_type_cplf AND sel_param_high_i_postscale);
+	w534w <= (sel_type_n AND sel_param_bypass_LF_unused);
+	w571w <= (sel_type_n AND sel_param_high_i_postscale);
+	w605w <= (sel_type_n AND sel_param_odd_CP_unused);
+	w638w <= (sel_type_n AND sel_param_low_r);
+	w64w <= '0';
+	w675w <= (sel_type_n AND sel_param_nominal_count);
+	w713w <= (sel_type_m AND sel_param_bypass_LF_unused);
+	w750w <= (sel_type_m AND sel_param_high_i_postscale);
+	w785w <= (sel_type_m AND sel_param_odd_CP_unused);
+	w818w <= (sel_type_m AND sel_param_low_r);
+	w851w <= (sel_type_m AND sel_param_nominal_count);
+	w888w <= (sel_type_c0 AND sel_param_bypass_LF_unused);
+	w921w <= (sel_type_c0 AND sel_param_high_i_postscale);
+	w952w <= (sel_type_c0 AND sel_param_odd_CP_unused);
+	w981w <= (sel_type_c0 AND sel_param_low_r);
+	width_counter_done <= (((((NOT wire_cntr3_q(0)) AND (NOT wire_cntr3_q(1))) AND (NOT wire_cntr3_q(2))) AND (NOT wire_cntr3_q(3))) AND (NOT wire_cntr3_q(4)));
+	width_counter_enable <= (((wire_read_first_state_w_lg_q1894w(0) OR write_data_state) OR read_data_nominal_state) OR write_nominal_state);
+	width_counter_sload <= (((read_init_state OR write_init_state) OR read_init_nominal_state) OR write_init_nominal_state);
+	width_counter_sload_value <= width_decoder_out;
+	width_decoder_out <= (((((( "0" & "0" & "0" & "0" & "0") OR ( width_decoder_select(2) & "0" & "0" & "0" & width_decoder_select(2))) OR ( "0" & "0" & "0" & "0" & width_decoder_select(3))) OR ( "0" & "0" & width_decoder_select(5) & width_decoder_select(5) & width_decoder_select(5))) OR ( "0" & "0" & "0" & width_decoder_select(6) & "0")) OR ( "0" & "0" & width_decoder_select(7) & "0" & "0"));
+	width_decoder_select <= ( wire_w_lg_w381w495w & w496w & wire_w_lg_w_lg_w_lg_w1361w1422w1483w1550w & w1592w & wire_w_lg_w301w378w & wire_w_lg_w675w885w & w1565w & wire_w_lg_w_lg_w_lg_w1329w1392w1452w1516w);
+	write_rom_ena <= (wire_rom_first_state_w_lg_q1885w(0) OR wire_rom_data_state_w_lg_q1889w(0));
+	wire_w_counter_param_latch_range294w(0) <= counter_param_latch(0);
+	wire_w_counter_param_latch_range296w(0) <= counter_param_latch(1);
+	wire_w_counter_type_latch_range284w(0) <= counter_type_latch(0);
+	wire_w_counter_type_latch_range286w(0) <= counter_type_latch(1);
+	wire_w_data_in_range186w(0) <= data_in(0);
+	wire_w_data_in_range178w(0) <= data_in(1);
+	wire_w_data_in_range170w(0) <= data_in(2);
+	wire_w_data_in_range162w(0) <= data_in(3);
+	wire_w_data_in_range154w(0) <= data_in(4);
+	wire_w_data_in_range146w(0) <= data_in(5);
+	wire_w_data_in_range138w(0) <= data_in(6);
+	wire_w_data_in_range130w(0) <= data_in(7);
+	wire_w_data_in_range122w(0) <= data_in(8);
+	wire_w_rotate_decoder_wires_range1827w(0) <= rotate_decoder_wires(0);
+	wire_w_rotate_decoder_wires_range1825w(0) <= rotate_decoder_wires(1);
+	wire_w_rotate_decoder_wires_range1823w(0) <= rotate_decoder_wires(2);
+	wire_w_rotate_decoder_wires_range1821w(0) <= rotate_decoder_wires(3);
+	wire_w_rotate_decoder_wires_range1819w(0) <= rotate_decoder_wires(4);
+	wire_w_shift_reg_width_select_range261w(0) <= shift_reg_width_select(0);
+	wire_w_shift_reg_width_select_range263w(0) <= shift_reg_width_select(1);
+	wire_w_shift_reg_width_select_range266w(0) <= shift_reg_width_select(2);
+	wire_w_shift_reg_width_select_range269w(0) <= shift_reg_width_select(3);
+	wire_w_shift_reg_width_select_range272w(0) <= shift_reg_width_select(4);
+	wire_w_shift_reg_width_select_range275w(0) <= shift_reg_width_select(5);
+	wire_w_shift_reg_width_select_range278w(0) <= shift_reg_width_select(6);
+	wire_w_shift_reg_width_select_range281w(0) <= shift_reg_width_select(7);
+	wire_altsyncram4_data_a(0) <= ( scan_cache_in);
+	altsyncram4 :  altsyncram
+	  GENERIC MAP (
+		NUMWORDS_A => 144,
+		OPERATION_MODE => "SINGLE_PORT",
+		WIDTH_A => 1,
+		WIDTH_BYTEENA_A => 1,
+		WIDTHAD_A => 8,
+		INTENDED_DEVICE_FAMILY => "Cyclone III"
+	  )
+	  PORT MAP ( 
+		address_a => scan_cache_address,
+		clock0 => clock,
+		data_a => wire_altsyncram4_data_a,
+		q_a => wire_altsyncram4_q_a,
+		wren_a => scan_cache_write_enable
+	  );
+	le_comb10 :  cycloneiii_lcell_comb
+	  GENERIC MAP (
+		DONT_TOUCH => "on",
+		LUT_MASK => "1111000011110000",
+		SUM_LUTC_INPUT => "datac"
+	  )
+	  PORT MAP ( 
+		combout => wire_le_comb10_combout,
+		dataa => encode_out(0),
+		datab => encode_out(1),
+		datac => encode_out(2)
+	  );
+	le_comb8 :  cycloneiii_lcell_comb
+	  GENERIC MAP (
+		DONT_TOUCH => "on",
+		LUT_MASK => "1010101010101010",
+		SUM_LUTC_INPUT => "datac"
+	  )
+	  PORT MAP ( 
+		combout => wire_le_comb8_combout,
+		dataa => encode_out(0),
+		datab => encode_out(1),
+		datac => encode_out(2)
+	  );
+	le_comb9 :  cycloneiii_lcell_comb
+	  GENERIC MAP (
+		DONT_TOUCH => "on",
+		LUT_MASK => "1100110011001100",
+		SUM_LUTC_INPUT => "datac"
+	  )
+	  PORT MAP ( 
+		combout => wire_le_comb9_combout,
+		dataa => encode_out(0),
+		datab => encode_out(1),
+		datac => encode_out(2)
+	  );
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN addr_from_rom <= read_addr_counter_out;
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN addr_from_rom2 <= addr_from_rom;
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN areset_init_state_1 <= pll_scandone;
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN areset_state <= (areset_init_state_1 AND wire_w_lg_reset1w(0));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C0_data_state <= (C0_ena_state OR (C0_data_state AND wire_w_lg_rotate_width_counter_done1796w(0)));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C0_ena_state <= (C1_data_state AND rotate_width_counter_done);
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C1_data_state <= (C1_ena_state OR (C1_data_state AND wire_w_lg_rotate_width_counter_done1796w(0)));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C1_ena_state <= (C2_data_state AND rotate_width_counter_done);
+		END IF;
+	END PROCESS;
+	wire_C1_ena_state_w_lg_q1786w(0) <= C1_ena_state OR C3_ena_state;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C2_data_state <= (C2_ena_state OR (C2_data_state AND wire_w_lg_rotate_width_counter_done1796w(0)));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C2_ena_state <= (C3_data_state AND rotate_width_counter_done);
+		END IF;
+	END PROCESS;
+	wire_C2_ena_state_w_lg_q1787w(0) <= C2_ena_state OR C3_ena_state;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C3_data_state <= (C3_ena_state OR (C3_data_state AND wire_w_lg_rotate_width_counter_done1796w(0)));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C3_ena_state <= (C4_data_state AND rotate_width_counter_done);
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C4_data_state <= (C4_ena_state OR (C4_data_state AND wire_w_lg_rotate_width_counter_done1796w(0)));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN C4_ena_state <= reconfig_init_state;
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN configupdate2_state <= configupdate_state;
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '0' AND clock'event) THEN configupdate3_state <= configupdate2_state;
+		END IF;
+	END PROCESS;
+	wire_configupdate3_state_w_lg_q1879w(0) <= NOT configupdate3_state;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN configupdate_state <= reconfig_post_state;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN counter_param_latch_reg <= (OTHERS => '0');
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (input_latch_enable = '1') THEN counter_param_latch_reg <= counter_param;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN counter_type_latch_reg <= (OTHERS => '0');
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (input_latch_enable = '1') THEN counter_type_latch_reg <= counter_type;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN idle_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN idle_state <= (((((wire_idle_state_w_lg_w_lg_w_lg_w1747w1748w1749w1750w(0) OR (reconfig_wait_state AND reconfig_done)) OR ((rom_data_state AND rom_width_counter_done) AND wire_w_lg_reset_rom_address1752w(0))) OR wire_rom_second_last_state_w_lg_q1754w(0)) OR wire_rom_last_state_w_lg_q1753w(0)) OR reset_state);
+		END IF;
+	END PROCESS;
+	wire_idle_state_w_lg_w_lg_w_lg_w_lg_q1743w1744w1745w1746w(0) <= wire_idle_state_w_lg_w_lg_w_lg_q1743w1744w1745w(0) AND wire_w_lg_write_from_rom1739w(0);
+	wire_idle_state_w_lg_w_lg_w_lg_q1743w1744w1745w(0) <= wire_idle_state_w_lg_w_lg_q1743w1744w(0) AND wire_w_lg_reconfig1740w(0);
+	wire_idle_state_w_lg_w_lg_q1743w1744w(0) <= wire_idle_state_w_lg_q1743w(0) AND wire_w_lg_write_param1741w(0);
+	wire_idle_state_w_lg_q1743w(0) <= idle_state AND wire_w_lg_read_param1742w(0);
+	wire_idle_state_w_lg_q1672w(0) <= NOT idle_state;
+	wire_idle_state_w1747w(0) <= wire_idle_state_w_lg_w_lg_w_lg_w_lg_q1743w1744w1745w1746w(0) OR read_last_state;
+	wire_idle_state_w_lg_w1747w1748w(0) <= wire_idle_state_w1747w(0) OR wire_write_data_state_w_lg_q1738w(0);
+	wire_idle_state_w_lg_w_lg_w1747w1748w1749w(0) <= wire_idle_state_w_lg_w1747w1748w(0) OR wire_write_nominal_state_w_lg_q1737w(0);
+	wire_idle_state_w_lg_w_lg_w_lg_w1747w1748w1749w1750w(0) <= wire_idle_state_w_lg_w_lg_w1747w1748w1749w(0) OR read_last_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data0 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data0 <= wire_add_sub6_result(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data1 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data1 <= wire_add_sub6_result(1);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data2 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data2 <= wire_add_sub6_result(2);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data3 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data3 <= wire_add_sub6_result(3);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data4 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data4 <= wire_add_sub6_result(4);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data5 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data5 <= wire_add_sub6_result(5);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data6 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data6 <= wire_add_sub6_result(6);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data7 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data7 <= wire_add_sub6_result(7);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data8 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data8 <= wire_w_data_in_range186w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data9 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data9 <= wire_w_data_in_range178w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data10 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data10 <= wire_w_data_in_range170w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data11 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data11 <= wire_w_data_in_range162w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data12 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data12 <= wire_w_data_in_range154w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data13 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data13 <= wire_w_data_in_range146w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data14 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data14 <= wire_w_data_in_range138w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data15 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data15 <= wire_w_data_in_range130w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data16 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data16 <= wire_w_data_in_range122w(0);
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN nominal_data17 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN nominal_data17 <= wire_cmpr7_aeb;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_data_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_data_nominal_state <= (wire_read_first_nominal_state_w_lg_q1773w(0) OR wire_read_data_nominal_state_w_lg_q1772w(0));
+		END IF;
+	END PROCESS;
+	wire_read_data_nominal_state_w_lg_q1772w(0) <= read_data_nominal_state AND wire_w_lg_width_counter_done1764w(0);
+	wire_read_data_nominal_state_w_lg_q1686w(0) <= NOT read_data_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_data_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_data_state <= (wire_read_first_state_w_lg_q1766w(0) OR wire_read_data_state_w_lg_q1765w(0));
+		END IF;
+	END PROCESS;
+	wire_read_data_state_w_lg_q1765w(0) <= read_data_state AND wire_w_lg_width_counter_done1764w(0);
+	wire_read_data_state_w_lg_q1678w(0) <= NOT read_data_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_first_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_first_nominal_state <= read_init_nominal_state;
+		END IF;
+	END PROCESS;
+	wire_read_first_nominal_state_w_lg_q1773w(0) <= read_first_nominal_state AND wire_w_lg_width_counter_done1764w(0);
+	wire_read_first_nominal_state_w_lg_q1684w(0) <= NOT read_first_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_first_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_first_state <= read_init_state;
+		END IF;
+	END PROCESS;
+	wire_read_first_state_w_lg_q1766w(0) <= read_first_state AND wire_w_lg_width_counter_done1764w(0);
+	wire_read_first_state_w_lg_q1676w(0) <= NOT read_first_state;
+	wire_read_first_state_w_lg_w_lg_w_lg_q1894w1895w1896w(0) <= wire_read_first_state_w_lg_w_lg_q1894w1895w(0) OR read_data_nominal_state;
+	wire_read_first_state_w_lg_w_lg_q1894w1895w(0) <= wire_read_first_state_w_lg_q1894w(0) OR read_first_nominal_state;
+	wire_read_first_state_w_lg_q1894w(0) <= read_first_state OR read_data_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_init_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_init_nominal_state <= ((idle_state AND read_param) AND ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0)));
+		END IF;
+	END PROCESS;
+	wire_read_init_nominal_state_w_lg_q1682w(0) <= NOT read_init_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_init_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_init_state <= ((idle_state AND read_param) AND (NOT ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0))));
+		END IF;
+	END PROCESS;
+	wire_read_init_state_w_lg_q1674w(0) <= NOT read_init_state;
+	wire_read_init_state_w_lg_q1891w(0) <= read_init_state OR read_init_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_last_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_last_nominal_state <= ((read_first_nominal_state AND width_counter_done) OR (read_data_nominal_state AND width_counter_done));
+		END IF;
+	END PROCESS;
+	wire_read_last_nominal_state_w_lg_q1917w(0) <= read_last_nominal_state AND wire_idle_state_w_lg_q1672w(0);
+	wire_read_last_nominal_state_w_lg_q1688w(0) <= NOT read_last_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN read_last_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN read_last_state <= ((read_first_state AND width_counter_done) OR (read_data_state AND width_counter_done));
+		END IF;
+	END PROCESS;
+	wire_read_last_state_w_lg_q1680w(0) <= NOT read_last_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_counter_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_counter_state <= ((((((((((reconfig_init_state OR C0_data_state) OR C1_data_state) OR C2_data_state) OR C3_data_state) OR C4_data_state) OR C0_ena_state) OR C1_ena_state) OR C2_ena_state) OR C3_ena_state) OR C4_ena_state);
+		END IF;
+	END PROCESS;
+	wire_reconfig_counter_state_w_lg_q1700w(0) <= NOT reconfig_counter_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_init_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_init_state <= (idle_state AND reconfig);
+		END IF;
+	END PROCESS;
+	wire_reconfig_init_state_w_lg_q1698w(0) <= NOT reconfig_init_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_post_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_post_state <= ((reconfig_seq_data_state AND reconfig_width_counter_done) OR wire_reconfig_post_state_w_lg_q1849w(0));
+		END IF;
+	END PROCESS;
+	wire_reconfig_post_state_w_lg_q1849w(0) <= reconfig_post_state AND wire_w_lg_reconfig_post_done1848w(0);
+	wire_reconfig_post_state_w_lg_q1706w(0) <= NOT reconfig_post_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_seq_data_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_seq_data_state <= (reconfig_seq_ena_state OR (reconfig_seq_data_state AND wire_w_lg_reconfig_width_counter_done1845w(0)));
+		END IF;
+	END PROCESS;
+	wire_reconfig_seq_data_state_w_lg_q1704w(0) <= NOT reconfig_seq_data_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_seq_ena_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_seq_ena_state <= tmp_seq_ena_state;
+		END IF;
+	END PROCESS;
+	loop14 : FOR i IN 0 TO 7 GENERATE 
+		wire_reconfig_seq_ena_state_w_lg_q1903w(i) <= reconfig_seq_ena_state AND seq_addr_wire(i);
+	END GENERATE loop14;
+	loop15 : FOR i IN 0 TO 5 GENERATE 
+		wire_reconfig_seq_ena_state_w_lg_q1904w(i) <= reconfig_seq_ena_state AND seq_sload_value(i);
+	END GENERATE loop15;
+	wire_reconfig_seq_ena_state_w_lg_q1702w(0) <= NOT reconfig_seq_ena_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reconfig_wait_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN reconfig_wait_state <= ((reconfig_post_state AND reconfig_post_done) OR wire_reconfig_wait_state_w_lg_q1853w(0));
+		END IF;
+	END PROCESS;
+	wire_reconfig_wait_state_w_lg_q1853w(0) <= reconfig_wait_state AND wire_w_lg_reconfig_done1852w(0);
+	wire_reconfig_wait_state_w_lg_q1708w(0) <= NOT reconfig_wait_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN reset_state <= '1';
+		ELSIF (clock = '1' AND clock'event) THEN reset_state <= power_up;
+		END IF;
+	END PROCESS;
+	wire_reset_state_w_lg_q1671w(0) <= NOT reset_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_data_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_data_state <= (rom_second_state OR (wire_rom_data_state_w_lg_q1868w(0) AND wire_w_lg_reset_rom_address1752w(0)));
+		END IF;
+	END PROCESS;
+	wire_rom_data_state_w_lg_q1868w(0) <= rom_data_state AND wire_w_lg_read_addr_counter_done1867w(0);
+	wire_rom_data_state_w_lg_q1889w(0) <= rom_data_state AND wire_w_lg_rom_width_counter_done1888w(0);
+	wire_rom_data_state_w_lg_w_lg_q1897w1933w(0) <= NOT wire_rom_data_state_w_lg_q1897w(0);
+	wire_rom_data_state_w_lg_q1716w(0) <= NOT rom_data_state;
+	wire_rom_data_state_w_lg_w_lg_q1897w1898w(0) <= wire_rom_data_state_w_lg_q1897w(0) OR rom_second_state;
+	wire_rom_data_state_w_lg_w_lg_q1929w1930w(0) <= wire_rom_data_state_w_lg_q1929w(0) OR rom_last_state;
+	wire_rom_data_state_w_lg_q1897w(0) <= rom_data_state OR rom_first_state;
+	wire_rom_data_state_w_lg_q1929w(0) <= rom_data_state OR rom_second_last_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_first_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_first_state <= rom_init_state;
+		END IF;
+	END PROCESS;
+	wire_rom_first_state_w_lg_w_lg_w_lg_w_lg_q1943w1944w1945w1947w(0) <= NOT wire_rom_first_state_w_lg_w_lg_w_lg_q1943w1944w1945w(0);
+	wire_rom_first_state_w_lg_q1712w(0) <= NOT rom_first_state;
+	wire_rom_first_state_w_lg_w_lg_w_lg_q1943w1944w1945w(0) <= wire_rom_first_state_w_lg_w_lg_q1943w1944w(0) OR rom_last_state;
+	wire_rom_first_state_w_lg_w_lg_q1943w1944w(0) <= wire_rom_first_state_w_lg_q1943w(0) OR rom_second_last_state;
+	wire_rom_first_state_w_lg_w_lg_q1885w1886w(0) <= wire_rom_first_state_w_lg_q1885w(0) OR rom_data_state;
+	wire_rom_first_state_w_lg_q1943w(0) <= rom_first_state OR rom_data_state;
+	wire_rom_first_state_w_lg_q1885w(0) <= rom_first_state OR rom_second_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_init_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_init_state <= (((((idle_state AND write_from_rom) OR (rom_first_state AND reset_rom_address)) OR (rom_second_state AND reset_rom_address)) OR (rom_data_state AND reset_rom_address)) OR (rom_second_last_state AND reset_rom_address));
+		END IF;
+	END PROCESS;
+	wire_rom_init_state_w_lg_q1710w(0) <= NOT rom_init_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_last_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_last_state <= wire_rom_second_last_state_w_lg_q1754w(0);
+		END IF;
+	END PROCESS;
+	wire_rom_last_state_w_lg_q1753w(0) <= rom_last_state AND wire_w_lg_reset_rom_address1752w(0);
+	wire_rom_last_state_w_lg_q1720w(0) <= NOT rom_last_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_second_last_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_second_last_state <= ((rom_data_state AND read_addr_counter_done) AND wire_w_lg_reset_rom_address1752w(0));
+		END IF;
+	END PROCESS;
+	wire_rom_second_last_state_w_lg_q1754w(0) <= rom_second_last_state AND wire_w_lg_reset_rom_address1752w(0);
+	wire_rom_second_last_state_w_lg_q1718w(0) <= NOT rom_second_last_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN rom_second_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN rom_second_state <= (rom_first_state AND wire_w_lg_reset_rom_address1752w(0));
+		END IF;
+	END PROCESS;
+	wire_rom_second_state_w_lg_q1714w(0) <= NOT rom_second_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg0 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(0) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg0 <= '0';
+				ELSE shift_reg0 <= ((((shift_reg_load_nominal_enable AND nominal_data17) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg_serial_in)) OR (shift_reg_shift_nominal_enable AND shift_reg_serial_in));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q217w(0) <= shift_reg0 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q217w218w(0) <= wire_shift_reg_w_lg_q217w(0) OR wire_add_sub5_w_lg_w_result_range214w215w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg1 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(1) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg1 <= '0';
+				ELSE shift_reg1 <= ((((shift_reg_load_nominal_enable AND nominal_data16) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg0)) OR (shift_reg_shift_nominal_enable AND shift_reg0));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q223w(0) <= shift_reg1 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q223w224w(0) <= wire_shift_reg_w_lg_q223w(0) OR wire_add_sub5_w_lg_w_result_range221w222w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg2 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(2) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg2 <= '0';
+				ELSE shift_reg2 <= ((((shift_reg_load_nominal_enable AND nominal_data15) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg1)) OR (shift_reg_shift_nominal_enable AND shift_reg1));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q228w(0) <= shift_reg2 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q228w229w(0) <= wire_shift_reg_w_lg_q228w(0) OR wire_add_sub5_w_lg_w_result_range226w227w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg3 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(3) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg3 <= '0';
+				ELSE shift_reg3 <= ((((shift_reg_load_nominal_enable AND nominal_data14) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg2)) OR (shift_reg_shift_nominal_enable AND shift_reg2));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q233w(0) <= shift_reg3 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q233w234w(0) <= wire_shift_reg_w_lg_q233w(0) OR wire_add_sub5_w_lg_w_result_range231w232w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg4 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(4) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg4 <= '0';
+				ELSE shift_reg4 <= ((((shift_reg_load_nominal_enable AND nominal_data13) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg3)) OR (shift_reg_shift_nominal_enable AND shift_reg3));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q238w(0) <= shift_reg4 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q238w239w(0) <= wire_shift_reg_w_lg_q238w(0) OR wire_add_sub5_w_lg_w_result_range236w237w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg5 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(5) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg5 <= '0';
+				ELSE shift_reg5 <= ((((shift_reg_load_nominal_enable AND nominal_data12) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg4)) OR (shift_reg_shift_nominal_enable AND shift_reg4));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q243w(0) <= shift_reg5 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q243w244w(0) <= wire_shift_reg_w_lg_q243w(0) OR wire_add_sub5_w_lg_w_result_range241w242w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg6 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(6) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg6 <= '0';
+				ELSE shift_reg6 <= ((((shift_reg_load_nominal_enable AND nominal_data11) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg5)) OR (shift_reg_shift_nominal_enable AND shift_reg5));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q248w(0) <= shift_reg6 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q248w249w(0) <= wire_shift_reg_w_lg_q248w(0) OR wire_add_sub5_w_lg_w_result_range246w247w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg7 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(7) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg7 <= '0';
+				ELSE shift_reg7 <= ((((shift_reg_load_nominal_enable AND nominal_data10) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg6)) OR (shift_reg_shift_nominal_enable AND shift_reg6));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q253w(0) <= shift_reg7 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q253w254w(0) <= wire_shift_reg_w_lg_q253w(0) OR wire_add_sub5_w_lg_w_result_range251w252w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg8 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(8) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg8 <= '0';
+				ELSE shift_reg8 <= ((((shift_reg_load_nominal_enable AND nominal_data9) OR (shift_reg_load_enable AND w64w)) OR (shift_reg_shift_enable AND shift_reg7)) OR (shift_reg_shift_nominal_enable AND shift_reg7));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q258w(0) <= shift_reg8 AND wire_w_lg_read_nominal_out216w(0);
+	wire_shift_reg_w_lg_w_lg_q258w259w(0) <= wire_shift_reg_w_lg_q258w(0) OR wire_add_sub5_w_lg_w_result_range256w257w(0);
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg9 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(9) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg9 <= '0';
+				ELSE shift_reg9 <= ((((shift_reg_load_nominal_enable AND nominal_data8) OR wire_w_lg_shift_reg_load_enable123w(0)) OR (shift_reg_shift_enable AND shift_reg8)) OR (shift_reg_shift_nominal_enable AND shift_reg8));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg10 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(10) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg10 <= '0';
+				ELSE shift_reg10 <= ((((shift_reg_load_nominal_enable AND nominal_data7) OR wire_w_lg_shift_reg_load_enable131w(0)) OR (shift_reg_shift_enable AND shift_reg9)) OR (shift_reg_shift_nominal_enable AND shift_reg9));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg11 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(11) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg11 <= '0';
+				ELSE shift_reg11 <= ((((shift_reg_load_nominal_enable AND nominal_data6) OR wire_w_lg_shift_reg_load_enable139w(0)) OR (shift_reg_shift_enable AND shift_reg10)) OR (shift_reg_shift_nominal_enable AND shift_reg10));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg12 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(12) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg12 <= '0';
+				ELSE shift_reg12 <= ((((shift_reg_load_nominal_enable AND nominal_data5) OR wire_w_lg_shift_reg_load_enable147w(0)) OR (shift_reg_shift_enable AND shift_reg11)) OR (shift_reg_shift_nominal_enable AND shift_reg11));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg13 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(13) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg13 <= '0';
+				ELSE shift_reg13 <= ((((shift_reg_load_nominal_enable AND nominal_data4) OR wire_w_lg_shift_reg_load_enable155w(0)) OR (shift_reg_shift_enable AND shift_reg12)) OR (shift_reg_shift_nominal_enable AND shift_reg12));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg14 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(14) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg14 <= '0';
+				ELSE shift_reg14 <= ((((shift_reg_load_nominal_enable AND nominal_data3) OR wire_w_lg_shift_reg_load_enable163w(0)) OR (shift_reg_shift_enable AND shift_reg13)) OR (shift_reg_shift_nominal_enable AND shift_reg13));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg15 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(15) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg15 <= '0';
+				ELSE shift_reg15 <= ((((shift_reg_load_nominal_enable AND nominal_data2) OR wire_w_lg_shift_reg_load_enable171w(0)) OR (shift_reg_shift_enable AND shift_reg14)) OR (shift_reg_shift_nominal_enable AND shift_reg14));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg16 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(16) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg16 <= '0';
+				ELSE shift_reg16 <= ((((shift_reg_load_nominal_enable AND nominal_data1) OR wire_w_lg_shift_reg_load_enable179w(0)) OR (shift_reg_shift_enable AND shift_reg15)) OR (shift_reg_shift_nominal_enable AND shift_reg15));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN shift_reg17 <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN 
+			IF (wire_shift_reg_ena(17) = '1') THEN 
+				IF (shift_reg_clear = '1') THEN shift_reg17 <= '0';
+				ELSE shift_reg17 <= ((((shift_reg_load_nominal_enable AND nominal_data0) OR wire_w_lg_shift_reg_load_enable187w(0)) OR (shift_reg_shift_enable AND shift_reg16)) OR (shift_reg_shift_nominal_enable AND shift_reg16));
+				END IF;
+			END IF;
+		END IF;
+	END PROCESS;
+	wire_shift_reg_w_lg_q262w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range261w(0);
+	wire_shift_reg_w_lg_q264w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range263w(0);
+	wire_shift_reg_w_lg_q267w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range266w(0);
+	wire_shift_reg_w_lg_q270w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range269w(0);
+	wire_shift_reg_w_lg_q273w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range272w(0);
+	wire_shift_reg_w_lg_q276w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range275w(0);
+	wire_shift_reg_w_lg_q279w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range278w(0);
+	wire_shift_reg_w_lg_q282w(0) <= shift_reg17 AND wire_w_shift_reg_width_select_range281w(0);
+	loop16 : FOR i IN 0 TO 17 GENERATE
+		wire_shift_reg_ena(i) <= wire_w63w(0);
+	END GENERATE loop16;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN tmp_nominal_data_out_state <= (wire_read_last_nominal_state_w_lg_q1917w(0) OR (tmp_nominal_data_out_state AND idle_state));
+		END IF;
+	END PROCESS;
+	PROCESS (clock)
+	BEGIN
+		IF (clock = '1' AND clock'event) THEN tmp_seq_ena_state <= (reconfig_counter_state AND (C0_data_state AND rotate_width_counter_done));
+		END IF;
+	END PROCESS;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN write_data_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN write_data_state <= (write_init_state OR (write_data_state AND wire_w_lg_width_counter_done1764w(0)));
+		END IF;
+	END PROCESS;
+	wire_write_data_state_w_lg_q1738w(0) <= write_data_state AND width_counter_done;
+	wire_write_data_state_w_lg_q1692w(0) <= NOT write_data_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN write_init_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN write_init_nominal_state <= ((idle_state AND write_param) AND ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0)));
+		END IF;
+	END PROCESS;
+	wire_write_init_nominal_state_w_lg_q1694w(0) <= NOT write_init_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN write_init_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN write_init_state <= ((idle_state AND write_param) AND (NOT ((((((NOT counter_type(3)) AND (NOT counter_type(2))) AND (NOT counter_type(1))) AND counter_param(2)) AND counter_param(1)) AND counter_param(0))));
+		END IF;
+	END PROCESS;
+	wire_write_init_state_w_lg_q1690w(0) <= NOT write_init_state;
+	wire_write_init_state_w_lg_q1900w(0) <= write_init_state OR write_init_nominal_state;
+	PROCESS (clock, reset)
+	BEGIN
+		IF (reset = '1') THEN write_nominal_state <= '0';
+		ELSIF (clock = '1' AND clock'event) THEN write_nominal_state <= (write_init_nominal_state OR (write_nominal_state AND wire_w_lg_width_counter_done1764w(0)));
+		END IF;
+	END PROCESS;
+	wire_write_nominal_state_w_lg_q1737w(0) <= write_nominal_state AND width_counter_done;
+	wire_write_nominal_state_w_lg_q1696w(0) <= NOT write_nominal_state;
+	wire_add_sub5_w_lg_w_result_range214w215w(0) <= wire_add_sub5_w_result_range214w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range221w222w(0) <= wire_add_sub5_w_result_range221w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range226w227w(0) <= wire_add_sub5_w_result_range226w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range231w232w(0) <= wire_add_sub5_w_result_range231w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range236w237w(0) <= wire_add_sub5_w_result_range236w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range241w242w(0) <= wire_add_sub5_w_result_range241w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range246w247w(0) <= wire_add_sub5_w_result_range246w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range251w252w(0) <= wire_add_sub5_w_result_range251w(0) AND read_nominal_out;
+	wire_add_sub5_w_lg_w_result_range256w257w(0) <= wire_add_sub5_w_result_range256w(0) AND read_nominal_out;
+	wire_add_sub5_dataa <= ( "0" & shift_reg8 & shift_reg7 & shift_reg6 & shift_reg5 & shift_reg4 & shift_reg3 & shift_reg2 & shift_reg1);
+	wire_add_sub5_datab <= ( "0" & shift_reg17 & shift_reg16 & shift_reg15 & shift_reg14 & shift_reg13 & shift_reg12 & shift_reg11 & shift_reg10);
+	wire_add_sub5_w_result_range214w(0) <= wire_add_sub5_result(0);
+	wire_add_sub5_w_result_range221w(0) <= wire_add_sub5_result(1);
+	wire_add_sub5_w_result_range226w(0) <= wire_add_sub5_result(2);
+	wire_add_sub5_w_result_range231w(0) <= wire_add_sub5_result(3);
+	wire_add_sub5_w_result_range236w(0) <= wire_add_sub5_result(4);
+	wire_add_sub5_w_result_range241w(0) <= wire_add_sub5_result(5);
+	wire_add_sub5_w_result_range246w(0) <= wire_add_sub5_result(6);
+	wire_add_sub5_w_result_range251w(0) <= wire_add_sub5_result(7);
+	wire_add_sub5_w_result_range256w(0) <= wire_add_sub5_result(8);
+	add_sub5 :  lpm_add_sub
+	  GENERIC MAP (
+		LPM_WIDTH => 9
+	  )
+	  PORT MAP ( 
+		cin => wire_gnd,
+		dataa => wire_add_sub5_dataa,
+		datab => wire_add_sub5_datab,
+		result => wire_add_sub5_result
+	  );
+	wire_add_sub6_dataa <= ( data_in(8 DOWNTO 1));
+	add_sub6 :  lpm_add_sub
+	  GENERIC MAP (
+		LPM_WIDTH => 8
+	  )
+	  PORT MAP ( 
+		cin => data_in(0),
+		dataa => wire_add_sub6_dataa,
+		result => wire_add_sub6_result
+	  );
+	wire_cmpr7_dataa <= ( data_in(7 DOWNTO 0));
+	wire_cmpr7_datab <= "00000001";
+	cmpr7 :  lpm_compare
+	  GENERIC MAP (
+		LPM_WIDTH => 8
+	  )
+	  PORT MAP ( 
+		aeb => wire_cmpr7_aeb,
+		dataa => wire_cmpr7_dataa,
+		datab => wire_cmpr7_datab
+	  );
+	cntr1 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_modulus => 144,
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 8
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => addr_counter_enable,
+		data => addr_counter_sload_value,
+		q => wire_cntr1_q,
+		sload => addr_counter_sload
+	  );
+	cntr12 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_modulus => 144,
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 8
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => reconfig_addr_counter_enable,
+		data => reconfig_addr_counter_sload_value,
+		q => wire_cntr12_q,
+		sload => reconfig_addr_counter_sload
+	  );
+	cntr13 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 6
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => reconfig_width_counter_enable,
+		data => reconfig_width_counter_sload_value,
+		q => wire_cntr13_q,
+		sload => reconfig_width_counter_sload
+	  );
+	cntr14 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 8
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => rom_width_counter_enable,
+		data => rom_width_counter_sload_value,
+		q => wire_cntr14_q,
+		sload => rom_width_counter_sload
+	  );
+	cntr15 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 5
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => rotate_width_counter_enable,
+		data => rotate_width_counter_sload_value,
+		q => wire_cntr15_q,
+		sload => rotate_width_counter_sload
+	  );
+	cntr16 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_modulus => 144,
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 8
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => rotate_addr_counter_enable,
+		data => rotate_addr_counter_sload_value,
+		q => wire_cntr16_q,
+		sload => rotate_addr_counter_sload
+	  );
+	cntr2 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "UP",
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 8
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => read_addr_counter_enable,
+		data => read_addr_counter_sload_value,
+		q => wire_cntr2_q,
+		sload => read_addr_counter_sload
+	  );
+	cntr3 :  lpm_counter
+	  GENERIC MAP (
+		lpm_direction => "DOWN",
+		lpm_port_updown => "PORT_UNUSED",
+		lpm_width => 5
+	  )
+	  PORT MAP ( 
+		clock => clock,
+		cnt_en => width_counter_enable,
+		data => width_counter_sload_value,
+		q => wire_cntr3_q,
+		sload => width_counter_sload
+	  );
+	decode11 :  lpm_decode
+	  GENERIC MAP (
+		LPM_DECODES => 5,
+		LPM_WIDTH => 3
+	  )
+	  PORT MAP ( 
+		data => cuda_combout_wire,
+		eq => wire_decode11_eq
+	  );
+
+ END RTL; --pll_c64_reconfig_pllrcfg_fj11
+--VALID FILE
+
+
+LIBRARY ieee;
+USE ieee.std_logic_1164.all;
+
+ENTITY pll_c64_reconfig IS
+	PORT
+	(
+		clock		: IN STD_LOGIC ;
+		counter_param		: IN STD_LOGIC_VECTOR (2 DOWNTO 0);
+		counter_type		: IN STD_LOGIC_VECTOR (3 DOWNTO 0);
+		data_in		: IN STD_LOGIC_VECTOR (8 DOWNTO 0);
+		pll_areset_in		: IN STD_LOGIC  := '0';
+		pll_scandataout		: IN STD_LOGIC ;
+		pll_scandone		: IN STD_LOGIC ;
+		read_param		: IN STD_LOGIC ;
+		reconfig		: IN STD_LOGIC ;
+		reset		: IN STD_LOGIC ;
+		reset_rom_address		: IN STD_LOGIC  := '0';
+		rom_data_in		: IN STD_LOGIC  := '0';
+		write_from_rom		: IN STD_LOGIC  := '0';
+		write_param		: IN STD_LOGIC ;
+		busy		: OUT STD_LOGIC ;
+		data_out		: OUT STD_LOGIC_VECTOR (8 DOWNTO 0);
+		pll_areset		: OUT STD_LOGIC ;
+		pll_configupdate		: OUT STD_LOGIC ;
+		pll_scanclk		: OUT STD_LOGIC ;
+		pll_scanclkena		: OUT STD_LOGIC ;
+		pll_scandata		: OUT STD_LOGIC ;
+		rom_address_out		: OUT STD_LOGIC_VECTOR (7 DOWNTO 0);
+		write_rom_ena		: OUT STD_LOGIC 
+	);
+END pll_c64_reconfig;
+
+
+ARCHITECTURE RTL OF pll_c64_reconfig IS
+
+	ATTRIBUTE synthesis_clearbox: natural;
+	ATTRIBUTE synthesis_clearbox OF RTL: ARCHITECTURE IS 2;
+	ATTRIBUTE clearbox_macroname: string;
+	ATTRIBUTE clearbox_macroname OF RTL: ARCHITECTURE IS "altpll_reconfig";
+	ATTRIBUTE clearbox_defparam: string;
+	ATTRIBUTE clearbox_defparam OF RTL: ARCHITECTURE IS "intended_device_family=Cyclone III;";
+	SIGNAL sub_wire0	: STD_LOGIC ;
+	SIGNAL sub_wire1	: STD_LOGIC_VECTOR (8 DOWNTO 0);
+	SIGNAL sub_wire2	: STD_LOGIC ;
+	SIGNAL sub_wire3	: STD_LOGIC ;
+	SIGNAL sub_wire4	: STD_LOGIC ;
+	SIGNAL sub_wire5	: STD_LOGIC_VECTOR (7 DOWNTO 0);
+	SIGNAL sub_wire6	: STD_LOGIC ;
+	SIGNAL sub_wire7	: STD_LOGIC ;
+	SIGNAL sub_wire8	: STD_LOGIC ;
+
+
+
+	COMPONENT pll_c64_reconfig_pllrcfg_fj11
+	PORT (
+			counter_param	: IN STD_LOGIC_VECTOR (2 DOWNTO 0);
+			data_in	: IN STD_LOGIC_VECTOR (8 DOWNTO 0);
+			pll_configupdate	: OUT STD_LOGIC ;
+			counter_type	: IN STD_LOGIC_VECTOR (3 DOWNTO 0);
+			data_out	: OUT STD_LOGIC_VECTOR (8 DOWNTO 0);
+			pll_areset_in	: IN STD_LOGIC ;
+			pll_scanclk	: OUT STD_LOGIC ;
+			pll_scanclkena	: OUT STD_LOGIC ;
+			pll_scandata	: OUT STD_LOGIC ;
+			pll_scandataout	: IN STD_LOGIC ;
+			pll_scandone	: IN STD_LOGIC ;
+			rom_address_out	: OUT STD_LOGIC_VECTOR (7 DOWNTO 0);
+			busy	: OUT STD_LOGIC ;
+			pll_areset	: OUT STD_LOGIC ;
+			reset	: IN STD_LOGIC ;
+			write_from_rom	: IN STD_LOGIC ;
+			write_param	: IN STD_LOGIC ;
+			write_rom_ena	: OUT STD_LOGIC ;
+			clock	: IN STD_LOGIC ;
+			read_param	: IN STD_LOGIC ;
+			reconfig	: IN STD_LOGIC ;
+			reset_rom_address	: IN STD_LOGIC ;
+			rom_data_in	: IN STD_LOGIC 
+	);
+	END COMPONENT;
+
+BEGIN
+	pll_configupdate    <= sub_wire0;
+	data_out    <= sub_wire1(8 DOWNTO 0);
+	pll_scanclk    <= sub_wire2;
+	pll_scanclkena    <= sub_wire3;
+	pll_scandata    <= sub_wire4;
+	rom_address_out    <= sub_wire5(7 DOWNTO 0);
+	busy    <= sub_wire6;
+	pll_areset    <= sub_wire7;
+	write_rom_ena    <= sub_wire8;
+
+	pll_c64_reconfig_pllrcfg_fj11_component : pll_c64_reconfig_pllrcfg_fj11
+	PORT MAP (
+		counter_param => counter_param,
+		data_in => data_in,
+		counter_type => counter_type,
+		pll_areset_in => pll_areset_in,
+		pll_scandataout => pll_scandataout,
+		pll_scandone => pll_scandone,
+		reset => reset,
+		write_from_rom => write_from_rom,
+		write_param => write_param,
+		clock => clock,
+		read_param => read_param,
+		reconfig => reconfig,
+		reset_rom_address => reset_rom_address,
+		rom_data_in => rom_data_in,
+		pll_configupdate => sub_wire0,
+		data_out => sub_wire1,
+		pll_scanclk => sub_wire2,
+		pll_scanclkena => sub_wire3,
+		pll_scandata => sub_wire4,
+		rom_address_out => sub_wire5,
+		busy => sub_wire6,
+		pll_areset => sub_wire7,
+		write_rom_ena => sub_wire8
+	);
+
+
+
+END RTL;
+
+-- ============================================================
+-- CNX file retrieval info
+-- ============================================================
+-- Retrieval info: PRIVATE: CHAIN_TYPE NUMERIC "0"
+-- Retrieval info: PRIVATE: INIT_FILE_NAME STRING ""
+-- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
+-- Retrieval info: PRIVATE: USE_INIT_FILE STRING "0"
+-- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: USED_PORT: busy 0 0 0 0 OUTPUT NODEFVAL "busy"
+-- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT NODEFVAL "clock"
+-- Retrieval info: USED_PORT: counter_param 0 0 3 0 INPUT NODEFVAL "counter_param[2..0]"
+-- Retrieval info: USED_PORT: counter_type 0 0 4 0 INPUT NODEFVAL "counter_type[3..0]"
+-- Retrieval info: USED_PORT: data_in 0 0 9 0 INPUT NODEFVAL "data_in[8..0]"
+-- Retrieval info: USED_PORT: data_out 0 0 9 0 OUTPUT NODEFVAL "data_out[8..0]"
+-- Retrieval info: USED_PORT: pll_areset 0 0 0 0 OUTPUT NODEFVAL "pll_areset"
+-- Retrieval info: USED_PORT: pll_areset_in 0 0 0 0 INPUT GND "pll_areset_in"
+-- Retrieval info: USED_PORT: pll_configupdate 0 0 0 0 OUTPUT NODEFVAL "pll_configupdate"
+-- Retrieval info: USED_PORT: pll_scanclk 0 0 0 0 OUTPUT NODEFVAL "pll_scanclk"
+-- Retrieval info: USED_PORT: pll_scanclkena 0 0 0 0 OUTPUT NODEFVAL "pll_scanclkena"
+-- Retrieval info: USED_PORT: pll_scandata 0 0 0 0 OUTPUT NODEFVAL "pll_scandata"
+-- Retrieval info: USED_PORT: pll_scandataout 0 0 0 0 INPUT NODEFVAL "pll_scandataout"
+-- Retrieval info: USED_PORT: pll_scandone 0 0 0 0 INPUT NODEFVAL "pll_scandone"
+-- Retrieval info: USED_PORT: read_param 0 0 0 0 INPUT NODEFVAL "read_param"
+-- Retrieval info: USED_PORT: reconfig 0 0 0 0 INPUT NODEFVAL "reconfig"
+-- Retrieval info: USED_PORT: reset 0 0 0 0 INPUT NODEFVAL "reset"
+-- Retrieval info: USED_PORT: reset_rom_address 0 0 0 0 INPUT GND "reset_rom_address"
+-- Retrieval info: USED_PORT: rom_address_out 0 0 8 0 OUTPUT NODEFVAL "rom_address_out[7..0]"
+-- Retrieval info: USED_PORT: rom_data_in 0 0 0 0 INPUT GND "rom_data_in"
+-- Retrieval info: USED_PORT: write_from_rom 0 0 0 0 INPUT GND "write_from_rom"
+-- Retrieval info: USED_PORT: write_param 0 0 0 0 INPUT NODEFVAL "write_param"
+-- Retrieval info: USED_PORT: write_rom_ena 0 0 0 0 OUTPUT NODEFVAL "write_rom_ena"
+-- Retrieval info: CONNECT: @clock 0 0 0 0 clock 0 0 0 0
+-- Retrieval info: CONNECT: @counter_param 0 0 3 0 counter_param 0 0 3 0
+-- Retrieval info: CONNECT: @counter_type 0 0 4 0 counter_type 0 0 4 0
+-- Retrieval info: CONNECT: @data_in 0 0 9 0 data_in 0 0 9 0
+-- Retrieval info: CONNECT: @pll_areset_in 0 0 0 0 pll_areset_in 0 0 0 0
+-- Retrieval info: CONNECT: @pll_scandataout 0 0 0 0 pll_scandataout 0 0 0 0
+-- Retrieval info: CONNECT: @pll_scandone 0 0 0 0 pll_scandone 0 0 0 0
+-- Retrieval info: CONNECT: @read_param 0 0 0 0 read_param 0 0 0 0
+-- Retrieval info: CONNECT: @reconfig 0 0 0 0 reconfig 0 0 0 0
+-- Retrieval info: CONNECT: @reset 0 0 0 0 reset 0 0 0 0
+-- Retrieval info: CONNECT: @reset_rom_address 0 0 0 0 reset_rom_address 0 0 0 0
+-- Retrieval info: CONNECT: @rom_data_in 0 0 0 0 rom_data_in 0 0 0 0
+-- Retrieval info: CONNECT: @write_from_rom 0 0 0 0 write_from_rom 0 0 0 0
+-- Retrieval info: CONNECT: @write_param 0 0 0 0 write_param 0 0 0 0
+-- Retrieval info: CONNECT: busy 0 0 0 0 @busy 0 0 0 0
+-- Retrieval info: CONNECT: data_out 0 0 9 0 @data_out 0 0 9 0
+-- Retrieval info: CONNECT: pll_areset 0 0 0 0 @pll_areset 0 0 0 0
+-- Retrieval info: CONNECT: pll_configupdate 0 0 0 0 @pll_configupdate 0 0 0 0
+-- Retrieval info: CONNECT: pll_scanclk 0 0 0 0 @pll_scanclk 0 0 0 0
+-- Retrieval info: CONNECT: pll_scanclkena 0 0 0 0 @pll_scanclkena 0 0 0 0
+-- Retrieval info: CONNECT: pll_scandata 0 0 0 0 @pll_scandata 0 0 0 0
+-- Retrieval info: CONNECT: rom_address_out 0 0 8 0 @rom_address_out 0 0 8 0
+-- Retrieval info: CONNECT: write_rom_ena 0 0 0 0 @write_rom_ena 0 0 0 0
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_reconfig.vhd TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_reconfig.inc FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_reconfig.cmp FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_reconfig.bsf FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL pll_c64_reconfig_inst.vhd FALSE
+-- Retrieval info: LIB_FILE: altera_mf
+-- Retrieval info: LIB_FILE: cycloneiii
+-- Retrieval info: LIB_FILE: lpm
diff --git a/cores/c64/rtl/mist/rom_reconfig_ntsc.qip b/cores/c64/rtl/mist/rom_reconfig_ntsc.qip
new file mode 100644
index 0000000..e896f5b
--- /dev/null
+++ b/cores/c64/rtl/mist/rom_reconfig_ntsc.qip
@@ -0,0 +1,3 @@
+set_global_assignment -name IP_TOOL_NAME "ROM: 1-PORT"
+set_global_assignment -name IP_TOOL_VERSION "13.1"
+set_global_assignment -name VHDL_FILE [file join $::quartus(qip_path) "rom_reconfig_ntsc.vhd"]
diff --git a/cores/c64/rtl/mist/rom_reconfig_ntsc.vhd b/cores/c64/rtl/mist/rom_reconfig_ntsc.vhd
new file mode 100644
index 0000000..2750ca2
--- /dev/null
+++ b/cores/c64/rtl/mist/rom_reconfig_ntsc.vhd
@@ -0,0 +1,147 @@
+-- megafunction wizard: %ROM: 1-PORT%
+-- GENERATION: STANDARD
+-- VERSION: WM1.0
+-- MODULE: altsyncram 
+
+-- ============================================================
+-- File Name: rom_reconfig_ntsc.vhd
+-- Megafunction Name(s):
+-- 			altsyncram
+--
+-- Simulation Library Files(s):
+-- 			altera_mf
+-- ============================================================
+-- ************************************************************
+-- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
+--
+-- 13.1.4 Build 182 03/12/2014 SJ Web Edition
+-- ************************************************************
+
+
+--Copyright (C) 1991-2014 Altera Corporation
+--Your use of Altera Corporation's design tools, logic functions 
+--and other software and tools, and its AMPP partner logic 
+--functions, and any output files from any of the foregoing 
+--(including device programming or simulation files), and any 
+--associated documentation or information are expressly subject 
+--to the terms and conditions of the Altera Program License 
+--Subscription Agreement, Altera MegaCore Function License 
+--Agreement, or other applicable license agreement, including, 
+--without limitation, that your use is for the sole purpose of 
+--programming logic devices manufactured by Altera and sold by 
+--Altera or its authorized distributors.  Please refer to the 
+--applicable agreement for further details.
+
+
+LIBRARY ieee;
+USE ieee.std_logic_1164.all;
+
+LIBRARY altera_mf;
+USE altera_mf.altera_mf_components.all;
+
+ENTITY rom_reconfig_ntsc IS
+	PORT
+	(
+		address		: IN STD_LOGIC_VECTOR (7 DOWNTO 0);
+		clock		: IN STD_LOGIC  := '1';
+		rden		: IN STD_LOGIC  := '1';
+		q		: OUT STD_LOGIC_VECTOR (0 DOWNTO 0)
+	);
+END rom_reconfig_ntsc;
+
+
+ARCHITECTURE SYN OF rom_reconfig_ntsc IS
+
+	SIGNAL sub_wire0	: STD_LOGIC_VECTOR (0 DOWNTO 0);
+
+BEGIN
+	q    <= sub_wire0(0 DOWNTO 0);
+
+	altsyncram_component : altsyncram
+	GENERIC MAP (
+		address_aclr_a => "NONE",
+		clock_enable_input_a => "BYPASS",
+		clock_enable_output_a => "BYPASS",
+		init_file => "pll_c64_ntsc.mif",
+		intended_device_family => "Cyclone III",
+		lpm_hint => "ENABLE_RUNTIME_MOD=NO",
+		lpm_type => "altsyncram",
+		numwords_a => 256,
+		operation_mode => "ROM",
+		outdata_aclr_a => "NONE",
+		outdata_reg_a => "CLOCK0",
+		widthad_a => 8,
+		width_a => 1,
+		width_byteena_a => 1
+	)
+	PORT MAP (
+		address_a => address,
+		clock0 => clock,
+		rden_a => rden,
+		q_a => sub_wire0
+	);
+
+
+
+END SYN;
+
+-- ============================================================
+-- CNX file retrieval info
+-- ============================================================
+-- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrAddr NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrByte NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrOutput NUMERIC "0"
+-- Retrieval info: PRIVATE: BYTE_ENABLE NUMERIC "0"
+-- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8"
+-- Retrieval info: PRIVATE: BlankMemory NUMERIC "0"
+-- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0"
+-- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0"
+-- Retrieval info: PRIVATE: Clken NUMERIC "0"
+-- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0"
+-- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A"
+-- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0"
+-- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "0"
+-- Retrieval info: PRIVATE: JTAG_ID STRING "NONE"
+-- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0"
+-- Retrieval info: PRIVATE: MIFfilename STRING "pll_c64_ntsc.mif"
+-- Retrieval info: PRIVATE: NUMWORDS_A NUMERIC "256"
+-- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0"
+-- Retrieval info: PRIVATE: RegAddr NUMERIC "1"
+-- Retrieval info: PRIVATE: RegOutput NUMERIC "1"
+-- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
+-- Retrieval info: PRIVATE: SingleClock NUMERIC "1"
+-- Retrieval info: PRIVATE: UseDQRAM NUMERIC "0"
+-- Retrieval info: PRIVATE: WidthAddr NUMERIC "8"
+-- Retrieval info: PRIVATE: WidthData NUMERIC "1"
+-- Retrieval info: PRIVATE: rden NUMERIC "1"
+-- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
+-- Retrieval info: CONSTANT: ADDRESS_ACLR_A STRING "NONE"
+-- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS"
+-- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS"
+-- Retrieval info: CONSTANT: INIT_FILE STRING "pll_c64_ntsc.mif"
+-- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=NO"
+-- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram"
+-- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "256"
+-- Retrieval info: CONSTANT: OPERATION_MODE STRING "ROM"
+-- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE"
+-- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "CLOCK0"
+-- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "8"
+-- Retrieval info: CONSTANT: WIDTH_A NUMERIC "1"
+-- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1"
+-- Retrieval info: USED_PORT: address 0 0 8 0 INPUT NODEFVAL "address[7..0]"
+-- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC "clock"
+-- Retrieval info: USED_PORT: q 0 0 1 0 OUTPUT NODEFVAL "q[0..0]"
+-- Retrieval info: USED_PORT: rden 0 0 0 0 INPUT VCC "rden"
+-- Retrieval info: CONNECT: @address_a 0 0 8 0 address 0 0 8 0
+-- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0
+-- Retrieval info: CONNECT: @rden_a 0 0 0 0 rden 0 0 0 0
+-- Retrieval info: CONNECT: q 0 0 1 0 @q_a 0 0 1 0
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_ntsc.vhd TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_ntsc.inc FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_ntsc.cmp FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_ntsc.bsf FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_ntsc_inst.vhd FALSE
+-- Retrieval info: LIB_FILE: altera_mf
diff --git a/cores/c64/rtl/mist/rom_reconfig_pal.qip b/cores/c64/rtl/mist/rom_reconfig_pal.qip
new file mode 100644
index 0000000..880b2f9
--- /dev/null
+++ b/cores/c64/rtl/mist/rom_reconfig_pal.qip
@@ -0,0 +1,3 @@
+set_global_assignment -name IP_TOOL_NAME "ROM: 1-PORT"
+set_global_assignment -name IP_TOOL_VERSION "13.1"
+set_global_assignment -name VHDL_FILE [file join $::quartus(qip_path) "rom_reconfig_pal.vhd"]
diff --git a/cores/c64/rtl/mist/rom_reconfig_pal.vhd b/cores/c64/rtl/mist/rom_reconfig_pal.vhd
new file mode 100644
index 0000000..d14d6ae
--- /dev/null
+++ b/cores/c64/rtl/mist/rom_reconfig_pal.vhd
@@ -0,0 +1,147 @@
+-- megafunction wizard: %ROM: 1-PORT%
+-- GENERATION: STANDARD
+-- VERSION: WM1.0
+-- MODULE: altsyncram 
+
+-- ============================================================
+-- File Name: rom_reconfig_pal.vhd
+-- Megafunction Name(s):
+-- 			altsyncram
+--
+-- Simulation Library Files(s):
+-- 			altera_mf
+-- ============================================================
+-- ************************************************************
+-- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE!
+--
+-- 13.1.4 Build 182 03/12/2014 SJ Web Edition
+-- ************************************************************
+
+
+--Copyright (C) 1991-2014 Altera Corporation
+--Your use of Altera Corporation's design tools, logic functions 
+--and other software and tools, and its AMPP partner logic 
+--functions, and any output files from any of the foregoing 
+--(including device programming or simulation files), and any 
+--associated documentation or information are expressly subject 
+--to the terms and conditions of the Altera Program License 
+--Subscription Agreement, Altera MegaCore Function License 
+--Agreement, or other applicable license agreement, including, 
+--without limitation, that your use is for the sole purpose of 
+--programming logic devices manufactured by Altera and sold by 
+--Altera or its authorized distributors.  Please refer to the 
+--applicable agreement for further details.
+
+
+LIBRARY ieee;
+USE ieee.std_logic_1164.all;
+
+LIBRARY altera_mf;
+USE altera_mf.altera_mf_components.all;
+
+ENTITY rom_reconfig_pal IS
+	PORT
+	(
+		address		: IN STD_LOGIC_VECTOR (7 DOWNTO 0);
+		clock		: IN STD_LOGIC  := '1';
+		rden		: IN STD_LOGIC  := '1';
+		q		: OUT STD_LOGIC_VECTOR (0 DOWNTO 0)
+	);
+END rom_reconfig_pal;
+
+
+ARCHITECTURE SYN OF rom_reconfig_pal IS
+
+	SIGNAL sub_wire0	: STD_LOGIC_VECTOR (0 DOWNTO 0);
+
+BEGIN
+	q    <= sub_wire0(0 DOWNTO 0);
+
+	altsyncram_component : altsyncram
+	GENERIC MAP (
+		address_aclr_a => "NONE",
+		clock_enable_input_a => "BYPASS",
+		clock_enable_output_a => "BYPASS",
+		init_file => "pll_c64_pal.mif",
+		intended_device_family => "Cyclone III",
+		lpm_hint => "ENABLE_RUNTIME_MOD=NO",
+		lpm_type => "altsyncram",
+		numwords_a => 256,
+		operation_mode => "ROM",
+		outdata_aclr_a => "NONE",
+		outdata_reg_a => "CLOCK0",
+		widthad_a => 8,
+		width_a => 1,
+		width_byteena_a => 1
+	)
+	PORT MAP (
+		address_a => address,
+		clock0 => clock,
+		rden_a => rden,
+		q_a => sub_wire0
+	);
+
+
+
+END SYN;
+
+-- ============================================================
+-- CNX file retrieval info
+-- ============================================================
+-- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrAddr NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrByte NUMERIC "0"
+-- Retrieval info: PRIVATE: AclrOutput NUMERIC "0"
+-- Retrieval info: PRIVATE: BYTE_ENABLE NUMERIC "0"
+-- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8"
+-- Retrieval info: PRIVATE: BlankMemory NUMERIC "0"
+-- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0"
+-- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0"
+-- Retrieval info: PRIVATE: Clken NUMERIC "0"
+-- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0"
+-- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A"
+-- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0"
+-- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "0"
+-- Retrieval info: PRIVATE: JTAG_ID STRING "NONE"
+-- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0"
+-- Retrieval info: PRIVATE: MIFfilename STRING "pll_c64_pal.mif"
+-- Retrieval info: PRIVATE: NUMWORDS_A NUMERIC "256"
+-- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0"
+-- Retrieval info: PRIVATE: RegAddr NUMERIC "1"
+-- Retrieval info: PRIVATE: RegOutput NUMERIC "1"
+-- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0"
+-- Retrieval info: PRIVATE: SingleClock NUMERIC "1"
+-- Retrieval info: PRIVATE: UseDQRAM NUMERIC "0"
+-- Retrieval info: PRIVATE: WidthAddr NUMERIC "8"
+-- Retrieval info: PRIVATE: WidthData NUMERIC "1"
+-- Retrieval info: PRIVATE: rden NUMERIC "1"
+-- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
+-- Retrieval info: CONSTANT: ADDRESS_ACLR_A STRING "NONE"
+-- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS"
+-- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS"
+-- Retrieval info: CONSTANT: INIT_FILE STRING "pll_c64_pal.mif"
+-- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III"
+-- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=NO"
+-- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram"
+-- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "256"
+-- Retrieval info: CONSTANT: OPERATION_MODE STRING "ROM"
+-- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE"
+-- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "CLOCK0"
+-- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "8"
+-- Retrieval info: CONSTANT: WIDTH_A NUMERIC "1"
+-- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1"
+-- Retrieval info: USED_PORT: address 0 0 8 0 INPUT NODEFVAL "address[7..0]"
+-- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC "clock"
+-- Retrieval info: USED_PORT: q 0 0 1 0 OUTPUT NODEFVAL "q[0..0]"
+-- Retrieval info: USED_PORT: rden 0 0 0 0 INPUT VCC "rden"
+-- Retrieval info: CONNECT: @address_a 0 0 8 0 address 0 0 8 0
+-- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0
+-- Retrieval info: CONNECT: @rden_a 0 0 0 0 rden 0 0 0 0
+-- Retrieval info: CONNECT: q 0 0 1 0 @q_a 0 0 1 0
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_pal.vhd TRUE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_pal.inc FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_pal.cmp FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_pal.bsf FALSE
+-- Retrieval info: GEN_FILE: TYPE_NORMAL rom_reconfig_pal_inst.vhd FALSE
+-- Retrieval info: LIB_FILE: altera_mf