MCOLL_PAD_I : IN std_logic;
MCRS_PAD_I : IN std_logic;
MD_PAD_IO : INOUT std_logic;
- MDC_PAD_O : OUT std_logic
+ MDC_PAD_O : OUT std_logic;
+
+ LED_2 : OUT std_logic
);
end ethernet;
);
END COMPONENT;
+component icon
+port (
+ control0 : out std_logic_vector(35 downto 0)
+ );
+end component;
+
+component ila
+port (
+ control : in std_logic_vector(35 downto 0);
+ clk : in std_logic;
+ data : in std_logic_vector(63 downto 0);
+ trig0 : in std_logic_vector(31 downto 0)
+ );
+end component;
+
signal pci_rst_o : std_logic;
signal pci_rst_oe_o : std_logic;
signal pci_inta_o : std_logic;
signal m_wb_cti_o : std_logic_vector(2 downto 0);
signal m_wb_bte_o : std_logic_vector(1 downto 0);
+signal control0 : std_logic_vector(35 downto 0);
+signal data : std_logic_vector(63 downto 0);
+signal trig0 : std_logic_vector(31 downto 0);
+
+
BEGIN
PCI_RSTn <= pci_rst_o when (pci_rst_oe_o = '1') else 'Z';
wb_adr_i <= wbm_adr_o (11 downto 2);
+wb_clk_i <= PCI_CLOCK;
+
+data(31 downto 0) <= wbm_adr_o;
+data(63 downto 32) <= (others => '0');
+
+trig0(31 downto 0) <= (
+ 0 => wb_stb_i,
+ others => '0'
+);
+
Inst_pci_bridge32: pci_bridge32 PORT MAP(
wb_clk_i => wb_clk_i ,
wb_rst_i => '0',
mtx_clk_pad_i => MTX_CLK_PAD_I,
mtxd_pad_o => MTXD_PAD_O,
mtxen_pad_o => MTXEN_PAD_O,
- -- mtxerr_pad_o => ,
+ mtxerr_pad_o => LED_2,
mrx_clk_pad_i => MRX_CLK_PAD_I,
mrxd_pad_i => MRXD_PAD_I,
mrxdv_pad_i => MRXDV_PAD_I,
int_o => int_o
);
+i_icon : icon
+port map (
+ control0 => control0
+ );
+
+i_ila : ila
+port map (
+ control => control0,
+ clk => PCI_CLOCK,
+ data => data,
+ trig0 => trig0
+ );
+
end architecture ethernet_arch;