`timescale 1ns/10ps module pll_acore_0002( // interface 'refclk' input wire refclk, // interface 'reset' input wire rst, // interface 'outclk0' output wire outclk_0, // interface 'outclk1' output wire outclk_1, // interface 'outclk2' output wire outclk_2, // interface 'outclk3' output wire outclk_3, // interface 'locked' output wire locked, // interface 'reconfig_to_pll' input wire [63:0] reconfig_to_pll, // interface 'reconfig_from_pll' output wire [63:0] reconfig_from_pll ); altera_pll #( .fractional_vco_multiplier("true"), .reference_clock_frequency("50.0 MHz"), .pll_fractional_cout(32), .pll_dsm_out_sel("1st_order"), .operation_mode("normal"), .number_of_clocks(4), .output_clock_frequency0("115.000000 MHz"), .phase_shift0("0 ps"), .duty_cycle0(50), .output_clock_frequency1("115.000000 MHz"), .phase_shift1("4348 ps"), .duty_cycle1(50), .output_clock_frequency2("57.500000 MHz"), .phase_shift2("0 ps"), .duty_cycle2(50), .output_clock_frequency3("28.750000 MHz"), .phase_shift3("0 ps"), .duty_cycle3(50), .output_clock_frequency4("0 MHz"), .phase_shift4("0 ps"), .duty_cycle4(50), .output_clock_frequency5("0 MHz"), .phase_shift5("0 ps"), .duty_cycle5(50), .output_clock_frequency6("0 MHz"), .phase_shift6("0 ps"), .duty_cycle6(50), .output_clock_frequency7("0 MHz"), .phase_shift7("0 ps"), .duty_cycle7(50), .output_clock_frequency8("0 MHz"), .phase_shift8("0 ps"), .duty_cycle8(50), .output_clock_frequency9("0 MHz"), .phase_shift9("0 ps"), .duty_cycle9(50), .output_clock_frequency10("0 MHz"), .phase_shift10("0 ps"), .duty_cycle10(50), .output_clock_frequency11("0 MHz"), .phase_shift11("0 ps"), .duty_cycle11(50), .output_clock_frequency12("0 MHz"), .phase_shift12("0 ps"), .duty_cycle12(50), .output_clock_frequency13("0 MHz"), .phase_shift13("0 ps"), .duty_cycle13(50), .output_clock_frequency14("0 MHz"), .phase_shift14("0 ps"), .duty_cycle14(50), .output_clock_frequency15("0 MHz"), .phase_shift15("0 ps"), .duty_cycle15(50), .output_clock_frequency16("0 MHz"), .phase_shift16("0 ps"), .duty_cycle16(50), .output_clock_frequency17("0 MHz"), .phase_shift17("0 ps"), .duty_cycle17(50), .pll_type("Cyclone V"), .pll_subtype("Reconfigurable"), .m_cnt_hi_div(5), .m_cnt_lo_div(4), .n_cnt_hi_div(256), .n_cnt_lo_div(256), .m_cnt_bypass_en("false"), .n_cnt_bypass_en("true"), .m_cnt_odd_div_duty_en("true"), .n_cnt_odd_div_duty_en("false"), .c_cnt_hi_div0(2), .c_cnt_lo_div0(2), .c_cnt_prst0(1), .c_cnt_ph_mux_prst0(0), .c_cnt_in_src0("ph_mux_clk"), .c_cnt_bypass_en0("false"), .c_cnt_odd_div_duty_en0("false"), .c_cnt_hi_div1(2), .c_cnt_lo_div1(2), .c_cnt_prst1(3), .c_cnt_ph_mux_prst1(0), .c_cnt_in_src1("ph_mux_clk"), .c_cnt_bypass_en1("false"), .c_cnt_odd_div_duty_en1("false"), .c_cnt_hi_div2(4), .c_cnt_lo_div2(4), .c_cnt_prst2(1), .c_cnt_ph_mux_prst2(0), .c_cnt_in_src2("ph_mux_clk"), .c_cnt_bypass_en2("false"), .c_cnt_odd_div_duty_en2("false"), .c_cnt_hi_div3(8), .c_cnt_lo_div3(8), .c_cnt_prst3(1), .c_cnt_ph_mux_prst3(0), .c_cnt_in_src3("ph_mux_clk"), .c_cnt_bypass_en3("false"), .c_cnt_odd_div_duty_en3("false"), .c_cnt_hi_div4(1), .c_cnt_lo_div4(1), .c_cnt_prst4(1), .c_cnt_ph_mux_prst4(0), .c_cnt_in_src4("ph_mux_clk"), .c_cnt_bypass_en4("true"), .c_cnt_odd_div_duty_en4("false"), .c_cnt_hi_div5(1), .c_cnt_lo_div5(1), .c_cnt_prst5(1), .c_cnt_ph_mux_prst5(0), .c_cnt_in_src5("ph_mux_clk"), .c_cnt_bypass_en5("true"), .c_cnt_odd_div_duty_en5("false"), .c_cnt_hi_div6(1), .c_cnt_lo_div6(1), .c_cnt_prst6(1), .c_cnt_ph_mux_prst6(0), .c_cnt_in_src6("ph_mux_clk"), .c_cnt_bypass_en6("true"), .c_cnt_odd_div_duty_en6("false"), .c_cnt_hi_div7(1), .c_cnt_lo_div7(1), .c_cnt_prst7(1), .c_cnt_ph_mux_prst7(0), .c_cnt_in_src7("ph_mux_clk"), .c_cnt_bypass_en7("true"), .c_cnt_odd_div_duty_en7("false"), .c_cnt_hi_div8(1), .c_cnt_lo_div8(1), .c_cnt_prst8(1), .c_cnt_ph_mux_prst8(0), .c_cnt_in_src8("ph_mux_clk"), .c_cnt_bypass_en8("true"), .c_cnt_odd_div_duty_en8("false"), .c_cnt_hi_div9(1), .c_cnt_lo_div9(1), .c_cnt_prst9(1), .c_cnt_ph_mux_prst9(0), .c_cnt_in_src9("ph_mux_clk"), .c_cnt_bypass_en9("true"), .c_cnt_odd_div_duty_en9("false"), .c_cnt_hi_div10(1), .c_cnt_lo_div10(1), .c_cnt_prst10(1), .c_cnt_ph_mux_prst10(0), .c_cnt_in_src10("ph_mux_clk"), .c_cnt_bypass_en10("true"), .c_cnt_odd_div_duty_en10("false"), .c_cnt_hi_div11(1), .c_cnt_lo_div11(1), .c_cnt_prst11(1), .c_cnt_ph_mux_prst11(0), .c_cnt_in_src11("ph_mux_clk"), .c_cnt_bypass_en11("true"), .c_cnt_odd_div_duty_en11("false"), .c_cnt_hi_div12(1), .c_cnt_lo_div12(1), .c_cnt_prst12(1), .c_cnt_ph_mux_prst12(0), .c_cnt_in_src12("ph_mux_clk"), .c_cnt_bypass_en12("true"), .c_cnt_odd_div_duty_en12("false"), .c_cnt_hi_div13(1), .c_cnt_lo_div13(1), .c_cnt_prst13(1), .c_cnt_ph_mux_prst13(0), .c_cnt_in_src13("ph_mux_clk"), .c_cnt_bypass_en13("true"), .c_cnt_odd_div_duty_en13("false"), .c_cnt_hi_div14(1), .c_cnt_lo_div14(1), .c_cnt_prst14(1), .c_cnt_ph_mux_prst14(0), .c_cnt_in_src14("ph_mux_clk"), .c_cnt_bypass_en14("true"), .c_cnt_odd_div_duty_en14("false"), .c_cnt_hi_div15(1), .c_cnt_lo_div15(1), .c_cnt_prst15(1), .c_cnt_ph_mux_prst15(0), .c_cnt_in_src15("ph_mux_clk"), .c_cnt_bypass_en15("true"), .c_cnt_odd_div_duty_en15("false"), .c_cnt_hi_div16(1), .c_cnt_lo_div16(1), .c_cnt_prst16(1), .c_cnt_ph_mux_prst16(0), .c_cnt_in_src16("ph_mux_clk"), .c_cnt_bypass_en16("true"), .c_cnt_odd_div_duty_en16("false"), .c_cnt_hi_div17(1), .c_cnt_lo_div17(1), .c_cnt_prst17(1), .c_cnt_ph_mux_prst17(0), .c_cnt_in_src17("ph_mux_clk"), .c_cnt_bypass_en17("true"), .c_cnt_odd_div_duty_en17("false"), .pll_vco_div(2), .pll_cp_current(20), .pll_bwctrl(4000), .pll_output_clk_frequency("459.999999 MHz"), .pll_fractional_division("858993373"), .mimic_fbclk_type("gclk"), .pll_fbclk_mux_1("glb"), .pll_fbclk_mux_2("fb_1"), .pll_m_cnt_in_src("ph_mux_clk"), .pll_slf_rst("true") ) altera_pll_i ( .rst (rst), .outclk ({outclk_3, outclk_2, outclk_1, outclk_0}), .locked (locked), .reconfig_to_pll (reconfig_to_pll), .fboutclk ( ), .fbclk (1'b0), .refclk (refclk), .reconfig_from_pll (reconfig_from_pll) ); endmodule