📄 _primary.vhd
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library verilog;use verilog.vl_types.all;entity cyclone_pll is generic( operation_mode : string := "normal"; qualify_conf_done: string := "off"; compensate_clock: string := "clk0"; pll_type : string := "auto"; scan_chain : string := "long"; lpm_type : string := "cyclone_pll"; clk0_multiply_by: integer := 1; clk0_divide_by : integer := 1; clk0_phase_shift: integer := 0; clk0_time_delay : integer := 0; clk0_duty_cycle : integer := 50; clk1_multiply_by: integer := 1; clk1_divide_by : integer := 1; clk1_phase_shift: integer := 0; clk1_time_delay : integer := 0; clk1_duty_cycle : integer := 50; clk2_multiply_by: integer := 1; clk2_divide_by : integer := 1; clk2_phase_shift: integer := 0; clk2_time_delay : integer := 0; clk2_duty_cycle : integer := 50; clk3_multiply_by: integer := 1; clk3_divide_by : integer := 1; clk3_phase_shift: integer := 0; clk3_time_delay : integer := 0; clk3_duty_cycle : integer := 50; clk4_multiply_by: integer := 1; clk4_divide_by : integer := 1; clk4_phase_shift: integer := 0; clk4_time_delay : integer := 0; clk4_duty_cycle : integer := 50; clk5_multiply_by: integer := 1; clk5_divide_by : integer := 1; clk5_phase_shift: integer := 0; clk5_time_delay : integer := 0; clk5_duty_cycle : integer := 50; extclk0_multiply_by: integer := 1; extclk0_divide_by: integer := 1; extclk0_phase_shift: integer := 0; extclk0_time_delay: integer := 0; extclk0_duty_cycle: integer := 50; extclk1_multiply_by: integer := 1; extclk1_divide_by: integer := 1; extclk1_phase_shift: integer := 0; extclk1_time_delay: integer := 0; extclk1_duty_cycle: integer := 50; extclk2_multiply_by: integer := 1; extclk2_divide_by: integer := 1; extclk2_phase_shift: integer := 0; extclk2_time_delay: integer := 0; extclk2_duty_cycle: integer := 50; extclk3_multiply_by: integer := 1; extclk3_divide_by: integer := 1; extclk3_phase_shift: integer := 0; extclk3_time_delay: integer := 0; extclk3_duty_cycle: integer := 50; primary_clock : string := "inclk0"; inclk0_input_frequency: integer := 10000; inclk1_input_frequency: integer := 10000; gate_lock_signal: string := "no"; gate_lock_counter: integer := 1; valid_lock_multiplier: integer := 5; invalid_lock_multiplier: integer := 5; switch_over_on_lossclk: string := "off"; switch_over_on_gated_lock: string := "off"; switch_over_counter: integer := 1; enable_switch_over_counter: string := "off"; feedback_source : string := "e0"; bandwidth : integer := 0; bandwidth_type : string := "auto"; down_spread : string := "0.0"; spread_frequency: integer := 0; common_rx_tx : string := "off"; rx_outclock_resource: string := "auto"; use_vco_bypass : string := "false"; use_dc_coupling : string := "false"; pfd_min : integer := 0; pfd_max : integer := 0; vco_min : integer := 0; vco_max : integer := 0; vco_center : integer := 0; m_initial : integer := 1; m : integer := 1; n : integer := 1; m2 : integer := 1; n2 : integer := 1; ss : integer := 0; l0_high : integer := 1; l0_low : integer := 1; l0_initial : integer := 1; l0_mode : string := "bypass"; l0_ph : integer := 0; l0_time_delay : integer := 0; l1_high : integer := 1; l1_low : integer := 1; l1_initial : integer := 1; l1_mode : string := "bypass"; l1_ph : integer := 0; l1_time_delay : integer := 0; g0_high : integer := 1; g0_low : integer := 1; g0_initial : integer := 1; g0_mode : string := "bypass"; g0_ph : integer := 0; g0_time_delay : integer := 0; g1_high : integer := 1; g1_low : integer := 1; g1_initial : integer := 1; g1_mode : string := "bypass"; g1_ph : integer := 0; g1_time_delay : integer := 0; g2_high : integer := 1; g2_low : integer := 1; g2_initial : integer := 1; g2_mode : string := "bypass"; g2_ph : integer := 0; g2_time_delay : integer := 0; g3_high : integer := 1; g3_low : integer := 1; g3_initial : integer := 1; g3_mode : string := "bypass"; g3_ph : integer := 0; g3_time_delay : integer := 0; e0_high : integer := 1; e0_low : integer := 1; e0_initial : integer := 1; e0_mode : string := "bypass"; e0_ph : integer := 0; e0_time_delay : integer := 0; e1_high : integer := 1; e1_low : integer := 1; e1_initial : integer := 1; e1_mode : string := "bypass"; e1_ph : integer := 0; e1_time_delay : integer := 0; e2_high : integer := 1; e2_low : integer := 1; e2_initial : integer := 1; e2_mode : string := "bypass"; e2_ph : integer := 0; e2_time_delay : integer := 0; e3_high : integer := 1; e3_low : integer := 1; e3_initial : integer := 1; e3_mode : string := "bypass"; e3_ph : integer := 0; e3_time_delay : integer := 0; m_ph : integer := 0; m_time_delay : integer := 0; n_time_delay : integer := 0; extclk0_counter : string := "e0"; extclk1_counter : string := "e1"; extclk2_counter : string := "e2"; extclk3_counter : string := "e3"; clk0_counter : string := "g0"; clk1_counter : string := "g1"; clk2_counter : string := "g2"; clk3_counter : string := "g3"; clk4_counter : string := "l0"; clk5_counter : string := "l1"; enable0_counter : string := "l0"; enable1_counter : string := "l0"; charge_pump_current: integer := 0; loop_filter_r : string := "1.0"; loop_filter_c : integer := 1; pll_compensation_delay: integer := 0; simulation_type : string := "timing"; source_is_pll : string := "off"; clk0_phase_shift_num: integer := 0; clk1_phase_shift_num: integer := 0; clk2_phase_shift_num: integer := 0; skip_vco : string := "off"; clk0_use_even_counter_mode: string := "off"; clk1_use_even_counter_mode: string := "off"; clk2_use_even_counter_mode: string := "off"; clk3_use_even_counter_mode: string := "off"; clk4_use_even_counter_mode: string := "off"; clk5_use_even_counter_mode: string := "off"; extclk0_use_even_counter_mode: string := "off"; extclk1_use_even_counter_mode: string := "off"; extclk2_use_even_counter_mode: string := "off"; extclk3_use_even_counter_mode: string := "off"; clk0_use_even_counter_value: string := "off"; clk1_use_even_counter_value: string := "off"; clk2_use_even_counter_value: string := "off"; clk3_use_even_counter_value: string := "off"; clk4_use_even_counter_value: string := "off"; clk5_use_even_counter_value: string := "off"; extclk0_use_even_counter_value: string := "off"; extclk1_use_even_counter_value: string := "off"; extclk2_use_even_counter_value: string := "off"; extclk3_use_even_counter_value: string := "off"; EGPP_SCAN_CHAIN : integer := 289; GPP_SCAN_CHAIN : integer := 193; TRST : integer := 5000; TRSTCLK : integer := 5000 ); port( inclk : in vl_logic_vector(1 downto 0); fbin : in vl_logic; ena : in vl_logic; clkswitch : in vl_logic; areset : in vl_logic; pfdena : in vl_logic; clkena : in vl_logic_vector(5 downto 0); extclkena : in vl_logic_vector(3 downto 0); scanclk : in vl_logic; scanaclr : in vl_logic; scandata : in vl_logic; clk : out vl_logic_vector(5 downto 0); extclk : out vl_logic_vector(3 downto 0); clkbad : out vl_logic_vector(1 downto 0); activeclock : out vl_logic; locked : out vl_logic; clkloss : out vl_logic; scandataout : out vl_logic; comparator : in vl_logic; enable0 : out vl_logic; enable1 : out vl_logic );end cyclone_pll;⌨️ 快捷键说明
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