--- J.STELZNER\r
--- INFORMATIK-3 LABOR\r
--- 23.08.2006\r
--- File: IO_MUX.VHD\r
-\r
-library ieee;\r
-use ieee.std_logic_1164.all;\r
-\r
-entity IO_REG is\r
- port\r
- (\r
- PCI_CLOCK :in std_logic;\r
- PCI_RSTn :in std_logic;\r
- PCI_FRAMEn :in std_logic;\r
- PCI_IRDYn :in std_logic;\r
- PCI_IDSEL :in std_logic;\r
- PCI_PAR :in std_logic;\r
- PCI_CBEn :in std_logic_vector ( 3 downto 0);\r
- OE_PCI_AD :in std_logic;\r
- IO_DATA :in std_logic_vector (31 downto 0);\r
- AD_REG :out std_logic_vector (31 downto 0);\r
- CBE_REGn :out std_logic_vector ( 3 downto 0);\r
- FRAME_REGn :out std_logic; \r
- IRDY_REGn :out std_logic; \r
- IDSEL_REG :out std_logic;\r
- PAR_REG :out std_logic; \r
- PCI_AD :out std_logic_vector (31 downto 0) -- t/s\r
- );\r
-end entity IO_REG;\r
-\r
-architecture IO_REG_DESIGN of IO_REG is\r
-\r
- signal REG_AD :std_logic_vector (31 downto 0); \r
- signal REG_CBEn :std_logic_vector ( 3 downto 0);\r
- signal REG_FRAMEn :std_logic;\r
- signal REG_IRDYn :std_logic;\r
- signal REG_IDSEL :std_logic;\r
- signal REG_PAR :std_logic;\r
-\r
-begin \r
-\r
- process (PCI_CLOCK, PCI_RSTn) \r
- begin\r
- if PCI_RSTn = '0' then\r
-\r
- REG_AD <= X"00000000";\r
- REG_CBEn <= "0000";\r
- REG_FRAMEn <= '1';\r
- REG_IRDYn <= '1';\r
- REG_IDSEL <= '0';\r
- REG_PAR <= '0';\r
-\r
- elsif (PCI_CLOCK'event and PCI_CLOCK = '1') then\r
-\r
- REG_AD <= IO_DATA;\r
- REG_CBEn <= PCI_CBEn;\r
- REG_FRAMEn <= PCI_FRAMEn;\r
- REG_IRDYn <= PCI_IRDYn;\r
- REG_IDSEL <= PCI_IDSEL;\r
- REG_PAR <= PCI_PAR;\r
-\r
- end if;\r
- end process;\r
-\r
- PCI_AD <= REG_AD when OE_PCI_AD ='1' else (others => 'Z');\r
-\r
- AD_REG <= REG_AD;\r
- CBE_REGn <= REG_CBEn;\r
- FRAME_REGn <= REG_FRAMEn;\r
- IRDY_REGn <= REG_IRDYn;\r
- IDSEL_REG <= REG_IDSEL;\r
- PAR_REG <= REG_PAR;\r
-\r
-end architecture IO_REG_DESIGN;\r
+-- J.STELZNER
+-- INFORMATIK-3 LABOR
+-- 23.08.2006
+-- File: IO_MUX.VHD
+
+library ieee;
+use ieee.std_logic_1164.all;
+
+entity IO_REG is
+ port
+ (
+ PCI_CLOCK :in std_logic;
+ PCI_RSTn :in std_logic;
+ PCI_FRAMEn :in std_logic;
+ PCI_IRDYn :in std_logic;
+ PCI_IDSEL :in std_logic;
+ PCI_PAR :in std_logic;
+ PCI_CBEn :in std_logic_vector ( 3 downto 0);
+ OE_PCI_AD :in std_logic;
+ IO_DATA :in std_logic_vector (31 downto 0);
+ AD_REG :out std_logic_vector (31 downto 0);
+ CBE_REGn :out std_logic_vector ( 3 downto 0);
+ FRAME_REGn :out std_logic;
+ IRDY_REGn :out std_logic;
+ IDSEL_REG :out std_logic;
+ PAR_REG :out std_logic;
+ PCI_AD :out std_logic_vector (31 downto 0) -- t/s
+ );
+end entity IO_REG;
+
+architecture IO_REG_DESIGN of IO_REG is
+
+ signal REG_AD :std_logic_vector (31 downto 0);
+ signal REG_CBEn :std_logic_vector ( 3 downto 0);
+ signal REG_FRAMEn :std_logic;
+ signal REG_IRDYn :std_logic;
+ signal REG_IDSEL :std_logic;
+ signal REG_PAR :std_logic;
+
+begin
+
+ process (PCI_CLOCK, PCI_RSTn)
+ begin
+ if PCI_RSTn = '0' then
+ REG_AD <= X"00000000";
+ REG_CBEn <= "0000";
+ REG_FRAMEn <= '1';
+ REG_IRDYn <= '1';
+ REG_IDSEL <= '0';
+ REG_PAR <= '0';
+
+ elsif (PCI_CLOCK'event and PCI_CLOCK = '1') then
+ REG_AD <= IO_DATA;
+ REG_CBEn <= PCI_CBEn;
+ REG_FRAMEn <= PCI_FRAMEn;
+ REG_IRDYn <= PCI_IRDYn;
+ REG_IDSEL <= PCI_IDSEL;
+ REG_PAR <= PCI_PAR;
+ end if;
+ end process;
+
+ PCI_AD <= REG_AD when OE_PCI_AD ='1' else (others => 'Z');
+
+ AD_REG <= REG_AD;
+ CBE_REGn <= REG_CBEn;
+ FRAME_REGn <= REG_FRAMEn;
+ IRDY_REGn <= REG_IRDYn;
+ IDSEL_REG <= REG_IDSEL;
+ PAR_REG <= REG_PAR;
+
+end architecture IO_REG_DESIGN;