frequencycount.vo

FPGA设计频率计全套资料

defparam \inst2|Selector11~83_I .operation_mode = "normal";
defparam \inst2|Selector11~83_I .output_mode = "comb_only";
defparam \inst2|Selector11~83_I .register_cascade_mode = "off";
defparam \inst2|Selector11~83_I .sum_lutc_input = "datac";
defparam \inst2|Selector11~83_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y6_N6
cyclone_lcell \inst2|Selector11~84_I (
// Equation(s):
// \inst2|Selector11~84  = \inst2|Selector11~82  # \inst2|Selector11~83  # \CLK_TEST~combout  & !\inst2|WideOr12~13 

	.clk(gnd),
	.dataa(\inst2|Selector11~82 ),
	.datab(\CLK_TEST~combout ),
	.datac(\inst2|WideOr12~13 ),
	.datad(\inst2|Selector11~83 ),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(\inst2|Selector11~84 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst2|Selector11~84_I .lut_mask = "FFAE";
defparam \inst2|Selector11~84_I .operation_mode = "normal";
defparam \inst2|Selector11~84_I .output_mode = "comb_only";
defparam \inst2|Selector11~84_I .register_cascade_mode = "off";
defparam \inst2|Selector11~84_I .sum_lutc_input = "datac";
defparam \inst2|Selector11~84_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X23_Y6_N4
cyclone_lcell \inst5|COUNT[0]~I (
// Equation(s):
// \inst5|COUNT [0] = DFFEAS(!\inst5|COUNT [0], GLOBAL(\inst4|CLK_OUT ), VCC, , , , , , )

	.clk(\inst4|CLK_OUT ),
	.dataa(vcc),
	.datab(vcc),
	.datac(\inst5|COUNT [0]),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst5|COUNT [0]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst5|COUNT[0]~I .lut_mask = "0F0F";
defparam \inst5|COUNT[0]~I .operation_mode = "normal";
defparam \inst5|COUNT[0]~I .output_mode = "reg_only";
defparam \inst5|COUNT[0]~I .register_cascade_mode = "off";
defparam \inst5|COUNT[0]~I .sum_lutc_input = "datac";
defparam \inst5|COUNT[0]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X23_Y6_N6
cyclone_lcell \inst5|COUNT[2]~I (
// Equation(s):
// \inst5|COUNT [2] = DFFEAS(\inst5|COUNT [2] $ (\inst5|COUNT [0] & \inst5|COUNT [1]), GLOBAL(\inst4|CLK_OUT ), VCC, , , , , , )

	.clk(\inst4|CLK_OUT ),
	.dataa(\inst5|COUNT [2]),
	.datab(\inst5|COUNT [0]),
	.datac(\inst5|COUNT [1]),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst5|COUNT [2]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst5|COUNT[2]~I .lut_mask = "6A6A";
defparam \inst5|COUNT[2]~I .operation_mode = "normal";
defparam \inst5|COUNT[2]~I .output_mode = "reg_only";
defparam \inst5|COUNT[2]~I .register_cascade_mode = "off";
defparam \inst5|COUNT[2]~I .sum_lutc_input = "datac";
defparam \inst5|COUNT[2]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X23_Y6_N8
cyclone_lcell \inst5|COUNT[1]~I (
// Equation(s):
// \inst5|COUNT [1] = DFFEAS(\inst5|COUNT [1] & (!\inst5|COUNT [0]) # !\inst5|COUNT [1] & \inst5|COUNT [0] & (\inst5|COUNT [2] # !\inst5|COUNT [3]), GLOBAL(\inst4|CLK_OUT ), VCC, , , , , , )

	.clk(\inst4|CLK_OUT ),
	.dataa(\inst5|COUNT [3]),
	.datab(\inst5|COUNT [1]),
	.datac(\inst5|COUNT [0]),
	.datad(\inst5|COUNT [2]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst5|COUNT [1]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst5|COUNT[1]~I .lut_mask = "3C1C";
defparam \inst5|COUNT[1]~I .operation_mode = "normal";
defparam \inst5|COUNT[1]~I .output_mode = "reg_only";
defparam \inst5|COUNT[1]~I .register_cascade_mode = "off";
defparam \inst5|COUNT[1]~I .sum_lutc_input = "datac";
defparam \inst5|COUNT[1]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X23_Y6_N9
cyclone_lcell \inst5|COUNT[3]~I (
// Equation(s):
// \inst5|COUNT [3] = DFFEAS(\inst5|COUNT [3] & (\inst5|COUNT [1] $ \inst5|COUNT [2] # !\inst5|COUNT [0]) # !\inst5|COUNT [3] & \inst5|COUNT [1] & \inst5|COUNT [0] & \inst5|COUNT [2], GLOBAL(\inst4|CLK_OUT ), VCC, , , , , , )

	.clk(\inst4|CLK_OUT ),
	.dataa(\inst5|COUNT [3]),
	.datab(\inst5|COUNT [1]),
	.datac(\inst5|COUNT [0]),
	.datad(\inst5|COUNT [2]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst5|COUNT [3]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst5|COUNT[3]~I .lut_mask = "6A8A";
defparam \inst5|COUNT[3]~I .operation_mode = "normal";
defparam \inst5|COUNT[3]~I .output_mode = "reg_only";
defparam \inst5|COUNT[3]~I .register_cascade_mode = "off";
defparam \inst5|COUNT[3]~I .sum_lutc_input = "datac";
defparam \inst5|COUNT[3]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X23_Y6_N5
cyclone_lcell \inst5|CLK_OUT~95_I (
// Equation(s):
// \inst5|CLK_OUT~95  = \inst5|COUNT [1] # \inst5|COUNT [3]

	.clk(gnd),
	.dataa(vcc),
	.datab(\inst5|COUNT [1]),
	.datac(\inst5|COUNT [3]),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(\inst5|CLK_OUT~95 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst5|CLK_OUT~95_I .lut_mask = "FCFC";
defparam \inst5|CLK_OUT~95_I .operation_mode = "normal";
defparam \inst5|CLK_OUT~95_I .output_mode = "comb_only";
defparam \inst5|CLK_OUT~95_I .register_cascade_mode = "off";
defparam \inst5|CLK_OUT~95_I .sum_lutc_input = "datac";
defparam \inst5|CLK_OUT~95_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y5_N6
cyclone_lcell \inst4|COUNT[0]~I (
// Equation(s):
// \inst4|COUNT [0] = DFFEAS(!\inst4|COUNT [0], GLOBAL(\inst11|CLK_OUT ), VCC, , , , , , )

	.clk(\inst11|CLK_OUT ),
	.dataa(vcc),
	.datab(vcc),
	.datac(vcc),
	.datad(\inst4|COUNT [0]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst4|COUNT [0]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst4|COUNT[0]~I .lut_mask = "00FF";
defparam \inst4|COUNT[0]~I .operation_mode = "normal";
defparam \inst4|COUNT[0]~I .output_mode = "reg_only";
defparam \inst4|COUNT[0]~I .register_cascade_mode = "off";
defparam \inst4|COUNT[0]~I .sum_lutc_input = "datac";
defparam \inst4|COUNT[0]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y5_N9
cyclone_lcell \inst4|COUNT[2]~I (
// Equation(s):
// \inst4|COUNT [2] = DFFEAS(\inst4|COUNT [2] $ (\inst4|COUNT [1] & \inst4|COUNT [0]), GLOBAL(\inst11|CLK_OUT ), VCC, , , , , , )

	.clk(\inst11|CLK_OUT ),
	.dataa(\inst4|COUNT [2]),
	.datab(vcc),
	.datac(\inst4|COUNT [1]),
	.datad(\inst4|COUNT [0]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst4|COUNT [2]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst4|COUNT[2]~I .lut_mask = "5AAA";
defparam \inst4|COUNT[2]~I .operation_mode = "normal";
defparam \inst4|COUNT[2]~I .output_mode = "reg_only";
defparam \inst4|COUNT[2]~I .register_cascade_mode = "off";
defparam \inst4|COUNT[2]~I .sum_lutc_input = "datac";
defparam \inst4|COUNT[2]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y5_N8
cyclone_lcell \inst4|COUNT[1]~I (
// Equation(s):
// \inst4|COUNT [1] = DFFEAS(\inst4|COUNT [1] & (!\inst4|COUNT [0]) # !\inst4|COUNT [1] & \inst4|COUNT [0] & (\inst4|COUNT [2] # !\inst4|COUNT [3]), GLOBAL(\inst11|CLK_OUT ), VCC, , , , , , )

	.clk(\inst11|CLK_OUT ),
	.dataa(\inst4|COUNT [2]),
	.datab(\inst4|COUNT [1]),
	.datac(\inst4|COUNT [3]),
	.datad(\inst4|COUNT [0]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst4|COUNT [1]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst4|COUNT[1]~I .lut_mask = "23CC";
defparam \inst4|COUNT[1]~I .operation_mode = "normal";
defparam \inst4|COUNT[1]~I .output_mode = "reg_only";
defparam \inst4|COUNT[1]~I .register_cascade_mode = "off";
defparam \inst4|COUNT[1]~I .sum_lutc_input = "datac";
defparam \inst4|COUNT[1]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y5_N2
cyclone_lcell \inst4|COUNT[3]~I (
// Equation(s):
// \inst4|COUNT [3] = DFFEAS(\inst4|COUNT [2] & (\inst4|COUNT [3] $ (\inst4|COUNT [1] & \inst4|COUNT [0])) # !\inst4|COUNT [2] & \inst4|COUNT [3] & (\inst4|COUNT [1] # !\inst4|COUNT [0]), GLOBAL(\inst11|CLK_OUT ), VCC, , , , , , )

	.clk(\inst11|CLK_OUT ),
	.dataa(\inst4|COUNT [2]),
	.datab(\inst4|COUNT [1]),
	.datac(\inst4|COUNT [3]),
	.datad(\inst4|COUNT [0]),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\inst4|COUNT [3]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst4|COUNT[3]~I .lut_mask = "68F0";
defparam \inst4|COUNT[3]~I .operation_mode = "normal";
defparam \inst4|COUNT[3]~I .output_mode = "reg_only";
defparam \inst4|COUNT[3]~I .register_cascade_mode = "off";
defparam \inst4|COUNT[3]~I .sum_lutc_input = "datac";
defparam \inst4|COUNT[3]~I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X26_Y5_N5
cyclone_lcell \inst4|CLK_OUT~95_I (
// Equation(s):
// \inst4|CLK_OUT~95  = \inst4|COUNT [1] # \inst4|COUNT [3]

	.clk(gnd),
	.dataa(vcc),
	.datab(\inst4|COUNT [1]),
	.datac(\inst4|COUNT [3]),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(\inst4|CLK_OUT~95 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \inst4|CLK_OUT~95_I .lut_mask = "FCFC";
defparam \inst4|CLK_OUT~95_I .operation_mode = "normal";
defparam \inst4|CLK_OUT~95_I .output_mode = "comb_only";
defparam \inst4|CLK_OUT~95_I .register_cascade_mode = "off";
defparam \inst4|CLK_OUT~95_I .sum_lutc_input = "datac";
defparam \inst4|CLK_OUT~95_I .synch_mode = "off";
// synopsys translate_on

// atom is at PIN_2
cyclone_io \CLK_SE~I (
	.datain(gnd),
	.oe(gnd),
	.outclk(gnd),
	.outclkena(vcc),
	.inclk(gnd),
	.inclkena(vcc),
	.areset(gnd),
	.sreset(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.devoe(devoe),
	.combout(\CLK_SE~combout ),
	.regout(),
	.padio(CLK_SE));
// synopsys translate_off
defparam \CLK_SE~I .input_async_reset = "none";
defparam \CLK_SE~I .input_power_up = "low";
defparam \CLK_SE~I .input_register_mode = "none";
defparam \CLK_SE~I .input_sync_reset = "none";
defparam \CLK_SE~I .oe_async_reset = "none";
defparam \CLK_SE~I .oe_power_up = "low";
defparam \CLK_SE~I .oe_register_mode = "none";
defparam \CLK_SE~I .oe_sync_reset = "none";
defparam \CLK_SE~I .operation_mode = "input";
defparam \CLK_SE~I .output_async_reset = "none";
defparam \CLK_SE~I .output_power_up = "low";
defparam \CLK_SE~I .output_register_mode = "none";
defparam \CLK_SE~I .output_sync_reset = "none";
// synopsys translate_on

// atom is at PIN_109
cyclone_io \SEL~I (
	.datain(gnd),
	.oe(gnd),
	.outclk(gnd),
	.outclkena(vcc),
	.inclk(gnd),
	.inclkena(vcc),
	.areset(gnd),
	.sreset(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.devoe(devoe),
	.combout(\SEL~combout ),
	.regout(),
	.padio(SEL));
// synopsys translate_off
defparam \SEL~I .input_async_reset = "none";
defparam \SEL~I .input_power_up = "low";
defparam \SEL~I .input_register_mode = "none";
defparam \SEL~I .input_sync_reset = "none";
defparam \SEL~I .oe_async_reset = "none";
defparam \SEL~I .oe_power_up = "low";