cic.vo

五阶CIC梳状积分滤波器

	.datab(vcc),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[20]~546 ),
	.cin0(\count1[23]~549 ),
	.cin1(\count1[23]~549COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[24]),
	.cout(),
	.cout0(\count1[24]~550 ),
	.cout1(\count1[24]~550COUT1 ));
// synopsys translate_off
defparam \count1[24]~I .cin0_used = "true";
defparam \count1[24]~I .cin1_used = "true";
defparam \count1[24]~I .cin_used = "true";
defparam \count1[24]~I .lut_mask = "a50a";
defparam \count1[24]~I .operation_mode = "arithmetic";
defparam \count1[24]~I .output_mode = "reg_only";
defparam \count1[24]~I .register_cascade_mode = "off";
defparam \count1[24]~I .sum_lutc_input = "cin";
defparam \count1[24]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y18_N9
stratix_lcell \count1[25]~I (
// Equation(s):
// count1[25] = DFFEAS(count1[25] $ (!\count1[20]~546  & \count1[24]~550 ) # (\count1[20]~546  & \count1[24]~550COUT1 ), GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[25]~551  = CARRY(!\count1[24]~550COUT1  # !count1[25])

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(count1[25]),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[20]~546 ),
	.cin0(\count1[24]~550 ),
	.cin1(\count1[24]~550COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[25]),
	.cout(\count1[25]~551 ),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \count1[25]~I .cin0_used = "true";
defparam \count1[25]~I .cin1_used = "true";
defparam \count1[25]~I .cin_used = "true";
defparam \count1[25]~I .lut_mask = "3c3f";
defparam \count1[25]~I .operation_mode = "arithmetic";
defparam \count1[25]~I .output_mode = "reg_only";
defparam \count1[25]~I .register_cascade_mode = "off";
defparam \count1[25]~I .sum_lutc_input = "cin";
defparam \count1[25]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N0
stratix_lcell \count1[26]~I (
// Equation(s):
// count1[26] = DFFEAS(count1[26] $ !\count1[25]~551 , GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[26]~552  = CARRY(count1[26] & !\count1[25]~551 )
// \count1[26]~552COUT1  = CARRY(count1[26] & !\count1[25]~551 )

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(count1[26]),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[25]~551 ),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[26]),
	.cout(),
	.cout0(\count1[26]~552 ),
	.cout1(\count1[26]~552COUT1 ));
// synopsys translate_off
defparam \count1[26]~I .cin_used = "true";
defparam \count1[26]~I .lut_mask = "c30c";
defparam \count1[26]~I .operation_mode = "arithmetic";
defparam \count1[26]~I .output_mode = "reg_only";
defparam \count1[26]~I .register_cascade_mode = "off";
defparam \count1[26]~I .sum_lutc_input = "cin";
defparam \count1[26]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N1
stratix_lcell \count1[27]~I (
// Equation(s):
// count1[27] = DFFEAS(count1[27] $ (!\count1[25]~551  & \count1[26]~552 ) # (\count1[25]~551  & \count1[26]~552COUT1 ), GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[27]~553  = CARRY(!\count1[26]~552  # !count1[27])
// \count1[27]~553COUT1  = CARRY(!\count1[26]~552COUT1  # !count1[27])

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(count1[27]),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[25]~551 ),
	.cin0(\count1[26]~552 ),
	.cin1(\count1[26]~552COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[27]),
	.cout(),
	.cout0(\count1[27]~553 ),
	.cout1(\count1[27]~553COUT1 ));
// synopsys translate_off
defparam \count1[27]~I .cin0_used = "true";
defparam \count1[27]~I .cin1_used = "true";
defparam \count1[27]~I .cin_used = "true";
defparam \count1[27]~I .lut_mask = "3c3f";
defparam \count1[27]~I .operation_mode = "arithmetic";
defparam \count1[27]~I .output_mode = "reg_only";
defparam \count1[27]~I .register_cascade_mode = "off";
defparam \count1[27]~I .sum_lutc_input = "cin";
defparam \count1[27]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N7
stratix_lcell \Equal0~359_I (
// Equation(s):
// \Equal0~359  = count1[24] # count1[25] # count1[27] # count1[26]

	.clk(gnd),
	.dataa(count1[24]),
	.datab(count1[25]),
	.datac(count1[27]),
	.datad(count1[26]),
	.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(\Equal0~359 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \Equal0~359_I .lut_mask = "fffe";
defparam \Equal0~359_I .operation_mode = "normal";
defparam \Equal0~359_I .output_mode = "comb_only";
defparam \Equal0~359_I .register_cascade_mode = "off";
defparam \Equal0~359_I .sum_lutc_input = "datac";
defparam \Equal0~359_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X19_Y17_N9
stratix_lcell \Equal0~358_I (
// Equation(s):
// \Equal0~358  = count1[20] # count1[21] # count1[22] # count1[23]

	.clk(gnd),
	.dataa(count1[20]),
	.datab(count1[21]),
	.datac(count1[22]),
	.datad(count1[23]),
	.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(\Equal0~358 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \Equal0~358_I .lut_mask = "fffe";
defparam \Equal0~358_I .operation_mode = "normal";
defparam \Equal0~358_I .output_mode = "comb_only";
defparam \Equal0~358_I .register_cascade_mode = "off";
defparam \Equal0~358_I .sum_lutc_input = "datac";
defparam \Equal0~358_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X18_Y18_N2
stratix_lcell \Equal0~357_I (
// Equation(s):
// \Equal0~357  = count1[17] # count1[18] # count1[16] # count1[19]

	.clk(gnd),
	.dataa(count1[17]),
	.datab(count1[18]),
	.datac(count1[16]),
	.datad(count1[19]),
	.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(\Equal0~357 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \Equal0~357_I .lut_mask = "fffe";
defparam \Equal0~357_I .operation_mode = "normal";
defparam \Equal0~357_I .output_mode = "comb_only";
defparam \Equal0~357_I .register_cascade_mode = "off";
defparam \Equal0~357_I .sum_lutc_input = "datac";
defparam \Equal0~357_I .synch_mode = "off";
// synopsys translate_on

// atom is at LC_X19_Y17_N2
stratix_lcell \count1[28]~I (
// Equation(s):
// count1[28] = DFFEAS(count1[28] $ (!(!\count1[25]~551  & \count1[27]~553 ) # (\count1[25]~551  & \count1[27]~553COUT1 )), GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[28]~554  = CARRY(count1[28] & (!\count1[27]~553 ))
// \count1[28]~554COUT1  = CARRY(count1[28] & (!\count1[27]~553COUT1 ))

	.clk(\clk~combout ),
	.dataa(count1[28]),
	.datab(vcc),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[25]~551 ),
	.cin0(\count1[27]~553 ),
	.cin1(\count1[27]~553COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[28]),
	.cout(),
	.cout0(\count1[28]~554 ),
	.cout1(\count1[28]~554COUT1 ));
// synopsys translate_off
defparam \count1[28]~I .cin0_used = "true";
defparam \count1[28]~I .cin1_used = "true";
defparam \count1[28]~I .cin_used = "true";
defparam \count1[28]~I .lut_mask = "a50a";
defparam \count1[28]~I .operation_mode = "arithmetic";
defparam \count1[28]~I .output_mode = "reg_only";
defparam \count1[28]~I .register_cascade_mode = "off";
defparam \count1[28]~I .sum_lutc_input = "cin";
defparam \count1[28]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N3
stratix_lcell \count1[29]~I (
// Equation(s):
// count1[29] = DFFEAS(count1[29] $ ((!\count1[25]~551  & \count1[28]~554 ) # (\count1[25]~551  & \count1[28]~554COUT1 )), GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[29]~555  = CARRY(!\count1[28]~554  # !count1[29])
// \count1[29]~555COUT1  = CARRY(!\count1[28]~554COUT1  # !count1[29])

	.clk(\clk~combout ),
	.dataa(count1[29]),
	.datab(vcc),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[25]~551 ),
	.cin0(\count1[28]~554 ),
	.cin1(\count1[28]~554COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[29]),
	.cout(),
	.cout0(\count1[29]~555 ),
	.cout1(\count1[29]~555COUT1 ));
// synopsys translate_off
defparam \count1[29]~I .cin0_used = "true";
defparam \count1[29]~I .cin1_used = "true";
defparam \count1[29]~I .cin_used = "true";
defparam \count1[29]~I .lut_mask = "5a5f";
defparam \count1[29]~I .operation_mode = "arithmetic";
defparam \count1[29]~I .output_mode = "reg_only";
defparam \count1[29]~I .register_cascade_mode = "off";
defparam \count1[29]~I .sum_lutc_input = "cin";
defparam \count1[29]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N4
stratix_lcell \count1[30]~I (
// Equation(s):
// count1[30] = DFFEAS(count1[30] $ (!(!\count1[25]~551  & \count1[29]~555 ) # (\count1[25]~551  & \count1[29]~555COUT1 )), GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )
// \count1[30]~556  = CARRY(count1[30] & (!\count1[29]~555COUT1 ))

	.clk(\clk~combout ),
	.dataa(count1[30]),
	.datab(vcc),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[25]~551 ),
	.cin0(\count1[29]~555 ),
	.cin1(\count1[29]~555COUT1 ),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[30]),
	.cout(\count1[30]~556 ),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \count1[30]~I .cin0_used = "true";
defparam \count1[30]~I .cin1_used = "true";
defparam \count1[30]~I .cin_used = "true";
defparam \count1[30]~I .lut_mask = "a50a";
defparam \count1[30]~I .operation_mode = "arithmetic";
defparam \count1[30]~I .output_mode = "reg_only";
defparam \count1[30]~I .register_cascade_mode = "off";
defparam \count1[30]~I .sum_lutc_input = "cin";
defparam \count1[30]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N5
stratix_lcell \count1[31]~I (
// Equation(s):
// count1[31] = DFFEAS(count1[31] $ \count1[30]~556 , GLOBAL(\clk~combout ), VCC, , , , , \count1[30]~558 , )

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(count1[31]),
	.datac(vcc),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(\count1[30]~558 ),
	.sload(gnd),
	.ena(vcc),
	.cin(\count1[30]~556 ),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(count1[31]),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \count1[31]~I .cin_used = "true";
defparam \count1[31]~I .lut_mask = "3c3c";
defparam \count1[31]~I .operation_mode = "normal";
defparam \count1[31]~I .output_mode = "reg_only";
defparam \count1[31]~I .register_cascade_mode = "off";
defparam \count1[31]~I .sum_lutc_input = "cin";
defparam \count1[31]~I .synch_mode = "on";
// synopsys translate_on

// atom is at LC_X19_Y17_N8
stratix_lcell \Equal0~360_I (
// Equation(s):
// \Equal0~360  = count1[28] # count1[31] # count1[29] # count1[30]

	.clk(gnd),
	.dataa(count1[28]),
	.datab(count1[31]),
	.datac(count1[29]),
	.datad(count1[30]),
	.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(\Equal0~360 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \Equal0~360_I