📄 accum32.v

📁 这是用python语言写的一个数字广播的信号处理工具包。利用它
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	.datac(wire_acc_cella_datac[15:15]),	.ena(clken),	.regout(wire_acc_cella_regout[15:15]),	.sload(sload));	defparam		acc_cella_15.cin_used = "true",		acc_cella_15.lut_mask = "96e8",		acc_cella_15.operation_mode = "arithmetic",		acc_cella_15.sum_lutc_input = "cin",		acc_cella_15.synch_mode = "on",		acc_cella_15.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_16	( 	.aclr(aclr),	.cin(wire_acc_cella_15cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_16cout[0:0]),	.dataa(wire_acc_cella_dataa[16:16]),	.datab(wire_acc_cella_datab[16:16]),	.datac(wire_acc_cella_datac[16:16]),	.ena(clken),	.regout(wire_acc_cella_regout[16:16]),	.sload(sload));	defparam		acc_cella_16.cin_used = "true",		acc_cella_16.lut_mask = "96e8",		acc_cella_16.operation_mode = "arithmetic",		acc_cella_16.sum_lutc_input = "cin",		acc_cella_16.synch_mode = "on",		acc_cella_16.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_17	( 	.aclr(aclr),	.cin(wire_acc_cella_16cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_17cout[0:0]),	.dataa(wire_acc_cella_dataa[17:17]),	.datab(wire_acc_cella_datab[17:17]),	.datac(wire_acc_cella_datac[17:17]),	.ena(clken),	.regout(wire_acc_cella_regout[17:17]),	.sload(sload));	defparam		acc_cella_17.cin_used = "true",		acc_cella_17.lut_mask = "96e8",		acc_cella_17.operation_mode = "arithmetic",		acc_cella_17.sum_lutc_input = "cin",		acc_cella_17.synch_mode = "on",		acc_cella_17.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_18	( 	.aclr(aclr),	.cin(wire_acc_cella_17cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_18cout[0:0]),	.dataa(wire_acc_cella_dataa[18:18]),	.datab(wire_acc_cella_datab[18:18]),	.datac(wire_acc_cella_datac[18:18]),	.ena(clken),	.regout(wire_acc_cella_regout[18:18]),	.sload(sload));	defparam		acc_cella_18.cin_used = "true",		acc_cella_18.lut_mask = "96e8",		acc_cella_18.operation_mode = "arithmetic",		acc_cella_18.sum_lutc_input = "cin",		acc_cella_18.synch_mode = "on",		acc_cella_18.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_19	( 	.aclr(aclr),	.cin(wire_acc_cella_18cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_19cout[0:0]),	.dataa(wire_acc_cella_dataa[19:19]),	.datab(wire_acc_cella_datab[19:19]),	.datac(wire_acc_cella_datac[19:19]),	.ena(clken),	.regout(wire_acc_cella_regout[19:19]),	.sload(sload));	defparam		acc_cella_19.cin_used = "true",		acc_cella_19.lut_mask = "96e8",		acc_cella_19.operation_mode = "arithmetic",		acc_cella_19.sum_lutc_input = "cin",		acc_cella_19.synch_mode = "on",		acc_cella_19.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_20	( 	.aclr(aclr),	.cin(wire_acc_cella_19cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_20cout[0:0]),	.dataa(wire_acc_cella_dataa[20:20]),	.datab(wire_acc_cella_datab[20:20]),	.datac(wire_acc_cella_datac[20:20]),	.ena(clken),	.regout(wire_acc_cella_regout[20:20]),	.sload(sload));	defparam		acc_cella_20.cin_used = "true",		acc_cella_20.lut_mask = "96e8",		acc_cella_20.operation_mode = "arithmetic",		acc_cella_20.sum_lutc_input = "cin",		acc_cella_20.synch_mode = "on",		acc_cella_20.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_21	( 	.aclr(aclr),	.cin(wire_acc_cella_20cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_21cout[0:0]),	.dataa(wire_acc_cella_dataa[21:21]),	.datab(wire_acc_cella_datab[21:21]),	.datac(wire_acc_cella_datac[21:21]),	.ena(clken),	.regout(wire_acc_cella_regout[21:21]),	.sload(sload));	defparam		acc_cella_21.cin_used = "true",		acc_cella_21.lut_mask = "96e8",		acc_cella_21.operation_mode = "arithmetic",		acc_cella_21.sum_lutc_input = "cin",		acc_cella_21.synch_mode = "on",		acc_cella_21.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_22	( 	.aclr(aclr),	.cin(wire_acc_cella_21cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_22cout[0:0]),	.dataa(wire_acc_cella_dataa[22:22]),	.datab(wire_acc_cella_datab[22:22]),	.datac(wire_acc_cella_datac[22:22]),	.ena(clken),	.regout(wire_acc_cella_regout[22:22]),	.sload(sload));	defparam		acc_cella_22.cin_used = "true",		acc_cella_22.lut_mask = "96e8",		acc_cella_22.operation_mode = "arithmetic",		acc_cella_22.sum_lutc_input = "cin",		acc_cella_22.synch_mode = "on",		acc_cella_22.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_23	( 	.aclr(aclr),	.cin(wire_acc_cella_22cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_23cout[0:0]),	.dataa(wire_acc_cella_dataa[23:23]),	.datab(wire_acc_cella_datab[23:23]),	.datac(wire_acc_cella_datac[23:23]),	.ena(clken),	.regout(wire_acc_cella_regout[23:23]),	.sload(sload));	defparam		acc_cella_23.cin_used = "true",		acc_cella_23.lut_mask = "96e8",		acc_cella_23.operation_mode = "arithmetic",		acc_cella_23.sum_lutc_input = "cin",		acc_cella_23.synch_mode = "on",		acc_cella_23.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_24	( 	.aclr(aclr),	.cin(wire_acc_cella_23cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_24cout[0:0]),	.dataa(wire_acc_cella_dataa[24:24]),	.datab(wire_acc_cella_datab[24:24]),	.datac(wire_acc_cella_datac[24:24]),	.ena(clken),	.regout(wire_acc_cella_regout[24:24]),	.sload(sload));	defparam		acc_cella_24.cin_used = "true",		acc_cella_24.lut_mask = "96e8",		acc_cella_24.operation_mode = "arithmetic",		acc_cella_24.sum_lutc_input = "cin",		acc_cella_24.synch_mode = "on",		acc_cella_24.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_25	( 	.aclr(aclr),	.cin(wire_acc_cella_24cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_25cout[0:0]),	.dataa(wire_acc_cella_dataa[25:25]),	.datab(wire_acc_cella_datab[25:25]),	.datac(wire_acc_cella_datac[25:25]),	.ena(clken),	.regout(wire_acc_cella_regout[25:25]),	.sload(sload));	defparam		acc_cella_25.cin_used = "true",		acc_cella_25.lut_mask = "96e8",		acc_cella_25.operation_mode = "arithmetic",		acc_cella_25.sum_lutc_input = "cin",		acc_cella_25.synch_mode = "on",		acc_cella_25.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_26	( 	.aclr(aclr),	.cin(wire_acc_cella_25cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_26cout[0:0]),	.dataa(wire_acc_cella_dataa[26:26]),	.datab(wire_acc_cella_datab[26:26]),	.datac(wire_acc_cella_datac[26:26]),	.ena(clken),	.regout(wire_acc_cella_regout[26:26]),	.sload(sload));	defparam		acc_cella_26.cin_used = "true",		acc_cella_26.lut_mask = "96e8",		acc_cella_26.operation_mode = "arithmetic",		acc_cella_26.sum_lutc_input = "cin",		acc_cella_26.synch_mode = "on",		acc_cella_26.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_27	( 	.aclr(aclr),	.cin(wire_acc_cella_26cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_27cout[0:0]),	.dataa(wire_acc_cella_dataa[27:27]),	.datab(wire_acc_cella_datab[27:27]),	.datac(wire_acc_cella_datac[27:27]),	.ena(clken),	.regout(wire_acc_cella_regout[27:27]),	.sload(sload));	defparam		acc_cella_27.cin_used = "true",		acc_cella_27.lut_mask = "96e8",		acc_cella_27.operation_mode = "arithmetic",		acc_cella_27.sum_lutc_input = "cin",		acc_cella_27.synch_mode = "on",		acc_cella_27.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_28	( 	.aclr(aclr),	.cin(wire_acc_cella_27cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_28cout[0:0]),	.dataa(wire_acc_cella_dataa[28:28]),	.datab(wire_acc_cella_datab[28:28]),	.datac(wire_acc_cella_datac[28:28]),	.ena(clken),	.regout(wire_acc_cella_regout[28:28]),	.sload(sload));	defparam		acc_cella_28.cin_used = "true",		acc_cella_28.lut_mask = "96e8",		acc_cella_28.operation_mode = "arithmetic",		acc_cella_28.sum_lutc_input = "cin",		acc_cella_28.synch_mode = "on",		acc_cella_28.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_29	( 	.aclr(aclr),	.cin(wire_acc_cella_28cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_29cout[0:0]),	.dataa(wire_acc_cella_dataa[29:29]),	.datab(wire_acc_cella_datab[29:29]),	.datac(wire_acc_cella_datac[29:29]),	.ena(clken),	.regout(wire_acc_cella_regout[29:29]),	.sload(sload));	defparam		acc_cella_29.cin_used = "true",		acc_cella_29.lut_mask = "96e8",		acc_cella_29.operation_mode = "arithmetic",		acc_cella_29.sum_lutc_input = "cin",		acc_cella_29.synch_mode = "on",		acc_cella_29.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_30	( 	.aclr(aclr),	.cin(wire_acc_cella_29cout[0:0]),	.clk(clock),	.cout(wire_acc_cella_30cout[0:0]),	.dataa(wire_acc_cella_dataa[30:30]),	.datab(wire_acc_cella_datab[30:30]),	.datac(wire_acc_cella_datac[30:30]),	.ena(clken),	.regout(wire_acc_cella_regout[30:30]),	.sload(sload));	defparam		acc_cella_30.cin_used = "true",		acc_cella_30.lut_mask = "96e8",		acc_cella_30.operation_mode = "arithmetic",		acc_cella_30.sum_lutc_input = "cin",		acc_cella_30.synch_mode = "on",		acc_cella_30.lpm_type = "stratix_lcell";	stratix_lcell   acc_cella_31	( 	.aclr(aclr),	.cin(wire_acc_cella_30cout[0:0]),	.clk(clock),	.dataa(wire_acc_cella_dataa[31:31]),	.datab(wire_acc_cella_datab[31:31]),	.datac(wire_acc_cella_datac[31:31]),	.ena(clken),	.regout(wire_acc_cella_regout[31:31]),	.sload(sload));	defparam		acc_cella_31.cin_used = "true",		acc_cella_31.lut_mask = "9696",		acc_cella_31.operation_mode = "normal",		acc_cella_31.sum_lutc_input = "cin",		acc_cella_31.synch_mode = "on",		acc_cella_31.lpm_type = "stratix_lcell";	assign		wire_acc_cella_dataa = data,		wire_acc_cella_datab = wire_acc_cella_regout,		wire_acc_cella_datac = data;	assign		result = wire_acc_cella_regout,		sload = 1'b0;endmodule //accum32_accum_nta//VALID FILEmodule accum32 (	data,	clock,	clken,	aclr,	result)/* synthesis synthesis_clearbox = 1 */;	input	[31:0]  data;	input	  clock;	input	  clken;	input	  aclr;	output	[31:0]  result;	wire [31:0] sub_wire0;	wire [31:0] result = sub_wire0[31:0];	accum32_accum_nta	accum32_accum_nta_component (				.clken (clken),				.aclr (aclr),				.clock (clock),				.data (data),				.result (sub_wire0));endmodule// ============================================================// CNX file retrieval info// ============================================================// Retrieval info: PRIVATE: WIDTH_IN NUMERIC "32"// Retrieval info: PRIVATE: WIDTH_OUT NUMERIC "32"// Retrieval info: PRIVATE: LPM_REPRESENTATION NUMERIC "0"// Retrieval info: PRIVATE: SLOAD NUMERIC "0"// Retrieval info: PRIVATE: ADD_SUB NUMERIC "0"// Retrieval info: PRIVATE: CIN NUMERIC "0"// Retrieval info: PRIVATE: CLKEN NUMERIC "1"// Retrieval info: PRIVATE: ACLR NUMERIC "1"// Retrieval info: PRIVATE: COUT NUMERIC "0"// Retrieval info: PRIVATE: OVERFLOW NUMERIC "0"// Retrieval info: PRIVATE: LATENCY NUMERIC "0"// Retrieval info: PRIVATE: EXTRA_LATENCY NUMERIC "0"// Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone"// Retrieval info: CONSTANT: WIDTH_IN NUMERIC "32"// Retrieval info: CONSTANT: WIDTH_OUT NUMERIC "32"// Retrieval info: CONSTANT: LPM_REPRESENTATION STRING "SIGNED"// Retrieval info: CONSTANT: LPM_TYPE STRING "altaccumulate"// Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone"// Retrieval info: USED_PORT: data 0 0 32 0 INPUT NODEFVAL data[31..0]// Retrieval info: USED_PORT: result 0 0 32 0 OUTPUT NODEFVAL result[31..0]// Retrieval info: USED_PORT: clock 0 0 0 0 INPUT GND clock// Retrieval info: USED_PORT: clken 0 0 0 0 INPUT VCC clken// Retrieval info: USED_PORT: aclr 0 0 0 0 INPUT GND aclr// Retrieval info: CONNECT: @data 0 0 32 0 data 0 0 32 0// Retrieval info: CONNECT: result 0 0 32 0 @result 0 0 32 0// Retrieval info: CONNECT: @clock 0 0 0 0 clock 0 0 0 0// Retrieval info: CONNECT: @clken 0 0 0 0 clken 0 0 0 0// Retrieval info: CONNECT: @aclr 0 0 0 0 aclr 0 0 0 0// Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all
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