use IEEE.std_logic_1164.all;
entity FLAG_BUS is
- port
- (
- PCI_CLOCK :in std_logic;
- KONS_1 :in std_logic;
- FLAG_IN_0 :in std_logic;
- R_EFn :in std_logic;
- R_HFn :in std_logic;
- R_FFn :in std_logic;
- FLAG_IN_4 :in std_logic;
- S_EFn :in std_logic;
- S_HFn :in std_logic;
- S_FFn :in std_logic;
- HOLD :in std_logic;
- SYNC_FLAG :out std_logic_vector (7 downto 0)
- );
+ port
+ (
+ PCI_CLOCK :in std_logic;
+ KONS_1 :in std_logic;
+ FLAG_IN_0 :in std_logic;
+ R_EFn :in std_logic;
+ R_HFn :in std_logic;
+ R_FFn :in std_logic;
+ FLAG_IN_4 :in std_logic;
+ S_EFn :in std_logic;
+ S_HFn :in std_logic;
+ S_FFn :in std_logic;
+ HOLD :in std_logic;
+ SYNC_FLAG :out std_logic_vector (7 downto 0)
+ );
end entity FLAG_BUS;
architecture FLAG_BUS_DESIGN of FLAG_BUS is
-signal FF1_S_EFn :std_logic;
-signal FF1_S_HFn :std_logic;
-signal FF1_S_FFn :std_logic;
-signal FF1_R_EFn :std_logic;
-signal FF1_R_HFn :std_logic;
-signal FF1_R_FFn :std_logic;
+ signal FF1_S_EFn :std_logic;
+ signal FF1_S_HFn :std_logic;
+ signal FF1_S_FFn :std_logic;
+ signal FF1_R_EFn :std_logic;
+ signal FF1_R_HFn :std_logic;
+ signal FF1_R_FFn :std_logic;
-signal FF2_S_EFn :std_logic;
-signal FF2_S_HFn :std_logic;
-signal FF2_S_FFn :std_logic;
-signal FF2_R_EFn :std_logic;
-signal FF2_R_HFn :std_logic;
-signal FF2_R_FFn :std_logic;
+ signal FF2_S_EFn :std_logic;
+ signal FF2_S_HFn :std_logic;
+ signal FF2_S_FFn :std_logic;
+ signal FF2_R_EFn :std_logic;
+ signal FF2_R_HFn :std_logic;
+ signal FF2_R_FFn :std_logic;
begin
- process (PCI_CLOCK)
- begin
- if (PCI_CLOCK'event and PCI_CLOCK = '1') then
-
- FF1_S_EFn <= not S_EFn;
- FF1_S_HFn <= not S_HFn;
- FF1_S_FFn <= not S_FFn;
- FF1_R_EFn <= not R_EFn;
- FF1_R_HFn <= not R_HFn;
- FF1_R_FFn <= not R_FFn;
-
- end if;
- end process;
-
-
- process (PCI_CLOCK)
- begin
- if (PCI_CLOCK'event and PCI_CLOCK = '1') then
-
- if HOLD = '0' then
-
- FF2_S_EFn <= FF1_S_EFn;
- FF2_S_HFn <= FF1_S_HFn;
- FF2_S_FFn <= FF1_S_FFn;
- FF2_R_EFn <= FF1_R_EFn;
- FF2_R_HFn <= FF1_R_HFn;
- FF2_R_FFn <= FF1_R_FFn;
-
- elsif HOLD = '1' then
-
- FF2_S_EFn <= FF2_S_EFn;
- FF2_S_HFn <= FF2_S_HFn;
- FF2_S_FFn <= FF2_S_FFn;
- FF2_R_EFn <= FF2_R_EFn;
- FF2_R_HFn <= FF2_R_HFn;
- FF2_R_FFn <= FF2_R_FFn;
-
- end if;
- end if;
- end process;
-
- SYNC_FLAG(0) <= FLAG_IN_0;
- SYNC_FLAG(1) <= FF2_R_EFn;
- SYNC_FLAG(2) <= FF2_R_HFn;
- SYNC_FLAG(3) <= FF2_R_FFn;
- SYNC_FLAG(4) <= FLAG_IN_4;
- SYNC_FLAG(5) <= FF2_S_EFn;
- SYNC_FLAG(6) <= FF2_S_HFn;
- SYNC_FLAG(7) <= FF2_S_FFn;
+ process (PCI_CLOCK)
+ begin
+ if (PCI_CLOCK'event and PCI_CLOCK = '1') then
+ FF1_S_EFn <= not S_EFn;
+ FF1_S_HFn <= not S_HFn;
+ FF1_S_FFn <= not S_FFn;
+ FF1_R_EFn <= not R_EFn;
+ FF1_R_HFn <= not R_HFn;
+ FF1_R_FFn <= not R_FFn;
+ end if;
+ end process;
+
+
+ process (PCI_CLOCK)
+ begin
+ if (PCI_CLOCK'event and PCI_CLOCK = '1') then
+ if HOLD = '0' then
+ FF2_S_EFn <= FF1_S_EFn;
+ FF2_S_HFn <= FF1_S_HFn;
+ FF2_S_FFn <= FF1_S_FFn;
+ FF2_R_EFn <= FF1_R_EFn;
+ FF2_R_HFn <= FF1_R_HFn;
+ FF2_R_FFn <= FF1_R_FFn;
+
+ elsif HOLD = '1' then
+ FF2_S_EFn <= FF2_S_EFn;
+ FF2_S_HFn <= FF2_S_HFn;
+ FF2_S_FFn <= FF2_S_FFn;
+ FF2_R_EFn <= FF2_R_EFn;
+ FF2_R_HFn <= FF2_R_HFn;
+ FF2_R_FFn <= FF2_R_FFn;
+ end if;
+ end if;
+ end process;
+
+SYNC_FLAG(0) <= FLAG_IN_0;
+SYNC_FLAG(1) <= FF2_R_EFn;
+SYNC_FLAG(2) <= FF2_R_HFn;
+SYNC_FLAG(3) <= FF2_R_FFn;
+SYNC_FLAG(4) <= FLAG_IN_4;
+SYNC_FLAG(5) <= FF2_S_EFn;
+SYNC_FLAG(6) <= FF2_S_HFn;
+SYNC_FLAG(7) <= FF2_S_FFn;
end architecture FLAG_BUS_DESIGN;
-