- -- This design should display incrementing binary numbers
- -- at LED1-LED8 of the GateMate FPGA Starter Kit.
-
-
- library ieee ;
- use ieee.std_logic_1164.all;
- use ieee.numeric_std.all;
-
- library gatemate;
- use gatemate.components.all;
-
-
- entity blink is
- port (
- clk_i : in std_logic; -- 10 MHz clock
- rst_n_i : in std_logic; -- SW3 button
- led_n_o : out std_logic_vector(7 downto 0) -- LED1..LED8
- );
- end entity blink;
-
-
- architecture rtl of blink is
-
- signal s_pll_clk : std_logic;
- signal s_pll_lock : std_logic;
- signal s_clk_cnt : unsigned(19 downto 0);
- signal s_clk_en : boolean;
-
- signal s_rst_n : std_logic;
- signal s_cfg_end : std_logic;
-
- begin
-
- pll : CC_PLL
- generic map (
- REF_CLK => "10",
- OUT_CLK => "2",
- PERF_MD => "ECONOMY"
- )
- port map (
- CLK_REF => clk_i,
- CLK_FEEDBACK => '0',
- USR_CLK_REF => '0',
- USR_LOCKED_STDY_RST => '0',
- USR_PLL_LOCKED_STDY => open,
- USR_PLL_LOCKED => s_pll_lock,
- CLK270 => open,
- CLK180 => open,
- CLK0 => s_pll_clk,
- CLK90 => open,
- CLK_REF_OUT => open
- );
-
- cfg_end_inst : CC_CFG_END
- port map (
- CFG_END => s_cfg_end
- );
-
- s_rst_n <= rst_n_i and s_pll_lock and s_cfg_end;
-
- process (s_pll_clk, s_rst_n) is
- begin
- if (not s_rst_n) then
- s_clk_cnt <= (others => '0');
- elsif (rising_edge(s_pll_clk)) then
- s_clk_cnt <= s_clk_cnt + 1;
- end if;
- end process;
-
- s_clk_en <= s_clk_cnt = (s_clk_cnt'range => '1');
-
- process (s_pll_clk, s_rst_n) is
- begin
- if (not s_rst_n) then
- led_n_o <= x"FE";
- elsif (rising_edge(s_pll_clk)) then
- if (s_clk_en) then
- led_n_o <= led_n_o(6 downto 0) & led_n_o(7);
- end if;
- end if;
- end process;
-
- end architecture;
|
