ram_control.vo

FPGA设计初级班和提高班培训课堂PPT；实验的源代码；实验指导书！

	.devpor(devpor),
	.combout(\state~122 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \state~122_I .operation_mode = "normal";
defparam \state~122_I .synch_mode = "off";
defparam \state~122_I .register_cascade_mode = "off";
defparam \state~122_I .sum_lutc_input = "datac";
defparam \state~122_I .lut_mask = "5F0F";
defparam \state~122_I .output_mode = "comb_only";
// synopsys translate_on

// atom is at LC_X15_Y2_N6
cyclone_lcell \state.STATE2~I (
// Equation(s):
// \state.STATE2  = DFFEAS(\rst~combout  & (\countwr[4]  # !\reduce_nor~22 ), GLOBAL(\clk~combout ), VCC, , \state~122 , , , , )

	.clk(\clk~combout ),
	.dataa(\reduce_nor~22 ),
	.datab(vcc),
	.datac(\rst~combout ),
	.datad(\countwr[4] ),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(\state~122 ),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\state.STATE2 ),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \state.STATE2~I .operation_mode = "normal";
defparam \state.STATE2~I .synch_mode = "off";
defparam \state.STATE2~I .register_cascade_mode = "off";
defparam \state.STATE2~I .sum_lutc_input = "datac";
defparam \state.STATE2~I .lut_mask = "F050";
defparam \state.STATE2~I .output_mode = "reg_only";
// synopsys translate_on

// atom is at LC_X14_Y2_N6
cyclone_lcell \reduce_nor~22_I (
// Equation(s):
// \reduce_nor~22  = !\countwr[1]  & !\countwr[0]  & !\countwr[2]  & !\countwr[3] 

	.clk(gnd),
	.dataa(\countwr[1] ),
	.datab(\countwr[0] ),
	.datac(\countwr[2] ),
	.datad(\countwr[3] ),
	.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(\reduce_nor~22 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \reduce_nor~22_I .operation_mode = "normal";
defparam \reduce_nor~22_I .synch_mode = "off";
defparam \reduce_nor~22_I .register_cascade_mode = "off";
defparam \reduce_nor~22_I .sum_lutc_input = "datac";
defparam \reduce_nor~22_I .lut_mask = "0001";
defparam \reduce_nor~22_I .output_mode = "comb_only";
// synopsys translate_on

// atom is at LC_X16_Y2_N6
cyclone_lcell \reduce_nor~0_I (
// Equation(s):
// \reduce_nor~0  = \countwr[4]  # !\reduce_nor~22 

	.clk(gnd),
	.dataa(\reduce_nor~22 ),
	.datab(vcc),
	.datac(vcc),
	.datad(\countwr[4] ),
	.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(\reduce_nor~0 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \reduce_nor~0_I .operation_mode = "normal";
defparam \reduce_nor~0_I .synch_mode = "off";
defparam \reduce_nor~0_I .register_cascade_mode = "off";
defparam \reduce_nor~0_I .sum_lutc_input = "datac";
defparam \reduce_nor~0_I .lut_mask = "FF55";
defparam \reduce_nor~0_I .output_mode = "comb_only";
// synopsys translate_on

// atom is at LC_X16_Y2_N4
cyclone_lcell \reduce_nor~1_I (
// Equation(s):
// \reduce_nor~1  = !\countwr[4]  # !\reduce_nor~22 

	.clk(gnd),
	.dataa(\reduce_nor~22 ),
	.datab(vcc),
	.datac(vcc),
	.datad(\countwr[4] ),
	.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(\reduce_nor~1 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \reduce_nor~1_I .operation_mode = "normal";
defparam \reduce_nor~1_I .synch_mode = "off";
defparam \reduce_nor~1_I .register_cascade_mode = "off";
defparam \reduce_nor~1_I .sum_lutc_input = "datac";
defparam \reduce_nor~1_I .lut_mask = "55FF";
defparam \reduce_nor~1_I .output_mode = "comb_only";
// synopsys translate_on

// atom is at LC_X16_Y2_N5
cyclone_lcell \wren~I (
// Equation(s):
// wren = DFFEAS(\state.STATE2  & (wren) # !\state.STATE2  & (wren & \reduce_nor~1  # !\reduce_nor~0 ), GLOBAL(\clk~combout ), VCC, , , , , !\rst~combout , )

	.clk(\clk~combout ),
	.dataa(\reduce_nor~0 ),
	.datab(wren),
	.datac(\reduce_nor~1 ),
	.datad(\state.STATE2 ),
	.aclr(gnd),
	.aload(gnd),
	.sclr(!\rst~combout ),
	.sload(gnd),
	.ena(vcc),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(wren),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \wren~I .operation_mode = "normal";
defparam \wren~I .synch_mode = "on";
defparam \wren~I .register_cascade_mode = "off";
defparam \wren~I .sum_lutc_input = "datac";
defparam \wren~I .lut_mask = "CCD5";
defparam \wren~I .output_mode = "reg_only";
// synopsys translate_on

// atom is at LC_X16_Y2_N2
cyclone_lcell \data[0]~61_I (
// Equation(s):
// \data[0]~61  = !\state.STATE2  # !\rst~combout 

	.clk(gnd),
	.dataa(vcc),
	.datab(vcc),
	.datac(\rst~combout ),
	.datad(\state.STATE2 ),
	.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(\data[0]~61 ),
	.regout(),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \data[0]~61_I .operation_mode = "normal";
defparam \data[0]~61_I .synch_mode = "off";
defparam \data[0]~61_I .register_cascade_mode = "off";
defparam \data[0]~61_I .sum_lutc_input = "datac";
defparam \data[0]~61_I .lut_mask = "0FFF";
defparam \data[0]~61_I .output_mode = "comb_only";
// synopsys translate_on

// atom is at LC_X15_Y2_N8
cyclone_lcell \data[0]~I (
// Equation(s):
// \data[0]  = DFFEAS(\rst~combout  & (\countwr[0] ), GLOBAL(\clk~combout ), VCC, , \data[0]~61 , , , , )

	.clk(\clk~combout ),
	.dataa(\rst~combout ),
	.datab(vcc),
	.datac(\countwr[0] ),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(\data[0]~61 ),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\data[0] ),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \data[0]~I .operation_mode = "normal";
defparam \data[0]~I .synch_mode = "off";
defparam \data[0]~I .register_cascade_mode = "off";
defparam \data[0]~I .sum_lutc_input = "datac";
defparam \data[0]~I .lut_mask = "A0A0";
defparam \data[0]~I .output_mode = "reg_only";
// synopsys translate_on

// atom is at LC_X15_Y2_N2
cyclone_lcell \data[1]~I (
// Equation(s):
// \data[1]  = DFFEAS(\rst~combout  & \countwr[1] , GLOBAL(\clk~combout ), VCC, , \data[0]~61 , , , , )

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(vcc),
	.datac(\rst~combout ),
	.datad(\countwr[1] ),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(\data[0]~61 ),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\data[1] ),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \data[1]~I .operation_mode = "normal";
defparam \data[1]~I .synch_mode = "off";
defparam \data[1]~I .register_cascade_mode = "off";
defparam \data[1]~I .sum_lutc_input = "datac";
defparam \data[1]~I .lut_mask = "F000";
defparam \data[1]~I .output_mode = "reg_only";
// synopsys translate_on

// atom is at LC_X15_Y2_N5
cyclone_lcell \data[2]~I (
// Equation(s):
// \data[2]  = DFFEAS(\rst~combout  & \countwr[2] , GLOBAL(\clk~combout ), VCC, , \data[0]~61 , , , , )

	.clk(\clk~combout ),
	.dataa(vcc),
	.datab(vcc),
	.datac(\rst~combout ),
	.datad(\countwr[2] ),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(\data[0]~61 ),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\data[2] ),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \data[2]~I .operation_mode = "normal";
defparam \data[2]~I .synch_mode = "off";
defparam \data[2]~I .register_cascade_mode = "off";
defparam \data[2]~I .sum_lutc_input = "datac";
defparam \data[2]~I .lut_mask = "F000";
defparam \data[2]~I .output_mode = "reg_only";
// synopsys translate_on

// atom is at LC_X15_Y2_N4
cyclone_lcell \wraddress[3]~I (
// Equation(s):
// \wraddress[3]  = DFFEAS(\rst~combout  & (\countwr[3] ), GLOBAL(\clk~combout ), VCC, , \data[0]~61 , , , , )

	.clk(\clk~combout ),
	.dataa(\rst~combout ),
	.datab(vcc),
	.datac(\countwr[3] ),
	.datad(vcc),
	.aclr(gnd),
	.aload(gnd),
	.sclr(gnd),
	.sload(gnd),
	.ena(\data[0]~61 ),
	.cin(gnd),
	.cin0(gnd),
	.cin1(vcc),
	.inverta(gnd),
	.regcascin(gnd),
	.devclrn(devclrn),
	.devpor(devpor),
	.combout(),
	.regout(\wraddress[3] ),
	.cout(),
	.cout0(),
	.cout1());
// synopsys translate_off
defparam \wraddress[3]~I .operation_mode = "normal";
defparam \wraddress[3]~I .synch_mode = "off";
defparam \wraddress[3]~I .register_cascade_mode = "off";
defparam \wraddress[3]~I .sum_lutc_input = "datac";
defparam \wraddress[3]~I .lut_mask = "A0A0";