port ( CLKIN_IN : in std_logic;
RST_IN : in std_logic;
CLKFX_OUT : out std_logic;
- CLKIN_IBUFG_OUT : out std_logic;
CLK0_OUT : out std_logic;
LOCKED_OUT : out std_logic);
end component;
signal md_padoe_o : std_logic;
signal int_o : std_logic;
signal wbm_adr_o : std_logic_vector(31 downto 0);
+signal mdc_pad_o_watch : std_logic;
signal m_wb_cti_o : std_logic_vector(2 downto 0);
signal m_wb_bte_o : std_logic_vector(1 downto 0);
wb_clk_i <= PCI_CLOCK;
data(31 downto 0) <= wbm_adr_o;
-data(40 downto 33) <= wbm_adr_o (7 downto 0);
-data(63 downto 41) <= (others => '0');
+data(39 downto 32) <= wbm_adr_o (7 downto 0);
+data(40) <= MD_PAD_IO;
+data(41) <= md_pad_o;
+data(42) <= md_padoe_o;
+data(43) <= mdc_pad_o_watch;
+data(44) <= pci_inta_o;
+MDC_PAD_O <= mdc_pad_o_watch;
+data(63 downto 45) <= (others => '0');
trig0(31 downto 0) <= (
0 => wb_stb_i,
+ 1 => MD_PAD_IO,
+ 2 => md_pad_o,
+ 3 => md_padoe_o,
others => '0'
);
mrxerr_pad_i => MRXERR_PAD_I,
mcoll_pad_i => MCOLL_PAD_I,
mcrs_pad_i => MCRS_PAD_I,
- mdc_pad_o => MDC_PAD_O,
+ mdc_pad_o => mdc_pad_o_watch,
md_pad_i => MD_PAD_IO,
md_pad_o => md_pad_o,
md_padoe_o => md_padoe_o,
port map (
CLKIN_IN => PCI_CLOCK,
RST_IN => not PCI_RSTn,
- CLKFX_OUT => PHY_CLOCK
--- CLKIN_IBUFG_OUT
--- CLK0_OUT
--- LOCKED_OUT
+ CLKFX_OUT => PHY_CLOCK,
+ CLK0_OUT => open,
+ LOCKED_OUT => open
);
end architecture ethernet_arch;