P_9102
/
9102_APP


			
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							--lpm_mult DEDICATED_MULTIPLIER_CIRCUITRY="NO" DEVICE_FAMILY="Cyclone IV E" DSP_BLOCK_BALANCING="AUTO" LPM_PIPELINE=0 LPM_REPRESENTATION="SIGNED" LPM_WIDTHA=10 LPM_WIDTHB=11 LPM_WIDTHP=21 MAXIMIZE_SPEED=5 dataa datab result CARRY_CHAIN="MANUAL" CARRY_CHAIN_LENGTH=48
--VERSION_BEGIN 13.0 cbx_cycloneii 2013:04:24:18:08:47:SJ cbx_lpm_add_sub 2013:04:24:18:08:47:SJ cbx_lpm_mult 2013:04:24:18:08:47:SJ cbx_mgl 2013:04:24:18:11:10:SJ cbx_padd 2013:04:24:18:08:47:SJ cbx_stratix 2013:04:24:18:08:47:SJ cbx_stratixii 2013:04:24:18:08:47:SJ cbx_util_mgl 2013:04:24:18:08:47:SJ  VERSION_END


-- Copyright (C) 1991-2013 Altera Corporation
--  Your use of Altera Corporation's design tools, logic functions 
--  and other software and tools, and its AMPP partner logic 
--  functions, and any output files from any of the foregoing 
--  (including device programming or simulation files), and any 
--  associated documentation or information are expressly subject 
--  to the terms and conditions of the Altera Program License 
--  Subscription Agreement, Altera MegaCore Function License 
--  Agreement, or other applicable license agreement, including, 
--  without limitation, that your use is for the sole purpose of 
--  programming logic devices manufactured by Altera and sold by 
--  Altera or its authorized distributors.  Please refer to the 
--  applicable agreement for further details.


FUNCTION carry_sum (cin, sin)
RETURNS ( cout, sout);
FUNCTION lcell (in)
RETURNS ( out);
FUNCTION soft (in)
RETURNS ( out);

--synthesis_resources = lut 151 
SUBDESIGN mult_3go
( 
	dataa[9..0]	:	input;
	datab[10..0]	:	input;
	result[20..0]	:	output;
) 
VARIABLE
	add10_result[20..0]	:	WIRE;
	add14_result[17..0]	:	WIRE;
	add18_result[13..0]	:	WIRE;
	add22_result[9..0]	:	WIRE;
	add26_result[5..0]	:	WIRE;
	cs2a[4..0] : carry_sum;
	cs4a[4..0] : carry_sum;
	le3a[11..0] : lcell;
	le5a[11..0] : lcell;
	le6a[11..0] : lcell;
	le7a[11..0] : lcell;
	le8a[11..0] : lcell;
	le9a[11..0] : lcell;
	sft11a[20..0] : soft;
	sft12a[20..0] : soft;
	sft13a[20..0] : soft;
	sft15a[17..0] : soft;
	sft16a[17..0] : soft;
	sft17a[17..0] : soft;
	sft19a[13..0] : soft;
	sft20a[13..0] : soft;
	sft21a[13..0] : soft;
	sft23a[9..0] : soft;
	sft24a[9..0] : soft;
	sft25a[9..0] : soft;
	sft27a[5..0] : soft;
	sft28a[5..0] : soft;
	sft29a[5..0] : soft;
	dataa_node[10..0]	: WIRE;
	datab_node[9..0]	: WIRE;
	final_result_node[20..0]	: WIRE;
	w12w[9..0]	: WIRE;
	w13w[11..0]	: WIRE;
	w160w[11..0]	: WIRE;
	w211w[11..0]	: WIRE;
	w258w[11..0]	: WIRE;
	w311w[11..0]	: WIRE;
	w364w	: WIRE;
	w388w	: WIRE;
	w588w[20..0]	: WIRE;

BEGIN 
	add10_result[] = sft11a[].out + sft12a[].out;
	add14_result[] = sft15a[].out + sft16a[].out;
	add18_result[] = sft19a[].out + sft20a[].out;
	add22_result[] = sft23a[].out + sft24a[].out;
	add26_result[] = sft27a[].out + sft28a[].out;
	cs2a[].cin = ( B"0", ((w12w[6..6] & cs2a[2].cout) # w12w[7..7]), ((w12w[4..4] & cs2a[1].cout) # w12w[5..5]), ((w12w[2..2] & cs2a[0].cout) # w12w[3..3]), datab_node[1..1]);
	cs2a[].sin = ( cs2a[3].cout, ((((((! w12w[7..7]) & w12w[6..6]) & cs2a[2].cout) # ((w12w[7..7] & w12w[6..6]) & (! cs2a[2].cout))) # ((w12w[7..7] & (! w12w[6..6])) & cs2a[2].cout)) # ((w12w[7..7] & (! w12w[6..6])) & (! cs2a[2].cout))), ((((((! w12w[5..5]) & w12w[4..4]) & cs2a[1].cout) # ((w12w[5..5] & w12w[4..4]) & (! cs2a[1].cout))) # ((w12w[5..5] & (! w12w[4..4])) & cs2a[1].cout)) # ((w12w[5..5] & (! w12w[4..4])) & (! cs2a[1].cout))), ((((((! w12w[3..3]) & w12w[2..2]) & cs2a[0].cout) # ((w12w[3..3] & w12w[2..2]) & (! cs2a[0].cout))) # ((w12w[3..3] & (! w12w[2..2])) & cs2a[0].cout)) # ((w12w[3..3] & (! w12w[2..2])) & (! cs2a[0].cout))), datab_node[1..1]);
	cs4a[].cin = ( B"0", ((w12w[6..6] & cs4a[2].cout) # w12w[7..7]), ((w12w[4..4] & cs4a[1].cout) # w12w[5..5]), ((w12w[2..2] & cs4a[0].cout) # w12w[3..3]), datab_node[1..1]);
	cs4a[].sin = ( (w12w[8..8] $ cs4a[3].cout), ((((((! w12w[7..7]) & (! w12w[6..6])) & cs4a[2].cout) # (((! w12w[7..7]) & w12w[6..6]) & (! cs4a[2].cout))) # ((w12w[7..7] & w12w[6..6]) & (! cs4a[2].cout))) # ((w12w[7..7] & (! w12w[6..6])) & cs4a[2].cout)), ((((((! w12w[5..5]) & (! w12w[4..4])) & cs4a[1].cout) # (((! w12w[5..5]) & w12w[4..4]) & (! cs4a[1].cout))) # ((w12w[5..5] & w12w[4..4]) & (! cs4a[1].cout))) # ((w12w[5..5] & (! w12w[4..4])) & cs4a[1].cout)), ((((((! w12w[3..3]) & (! w12w[2..2])) & cs4a[0].cout) # (((! w12w[3..3]) & w12w[2..2]) & (! cs4a[0].cout))) # ((w12w[3..3] & w12w[2..2]) & (! cs4a[0].cout))) # ((w12w[3..3] & (! w12w[2..2])) & cs4a[0].cout)), datab_node[0..0]);
	le3a[].in = (((((w12w[9..9] & (! w12w[8..8])) & (! cs2a[4].sout)) & (! ( dataa_node[], B"0"))) # ((((! w12w[9..9]) & w12w[8..8]) & cs2a[4].sout) & ( dataa_node[], B"0"))) # ((w12w[9..9] & w12w[8..8]) & cs2a[4].sout));
	le5a[].in = (! ((! le3a[].out) & (! (cs4a[4].sout & (w12w[9..9] $ ( dataa_node[10..10], dataa_node[]))))));
	le6a[].in = (! ((! (((! ( dataa_node[], B"0")) & cs2a[0].sout) & (! cs4a[0].sout))) & (! ((((! ( dataa_node[10..10], dataa_node[])) & cs2a[0].sout) & cs4a[0].sout) # ((( dataa_node[10..10], dataa_node[]) & (! cs2a[0].sout)) & cs4a[0].sout)))));
	le7a[].in = (! ((! (((! ( dataa_node[], B"0")) & cs2a[1].sout) & (! cs4a[1].sout))) & (! ((((! ( dataa_node[10..10], dataa_node[])) & cs2a[1].sout) & cs4a[1].sout) # ((( dataa_node[10..10], dataa_node[]) & (! cs2a[1].sout)) & cs4a[1].sout)))));
	le8a[].in = (! ((! (((! ( dataa_node[], B"0")) & cs2a[2].sout) & (! cs4a[2].sout))) & (! ((((! ( dataa_node[10..10], dataa_node[])) & cs2a[2].sout) & cs4a[2].sout) # ((( dataa_node[10..10], dataa_node[]) & (! cs2a[2].sout)) & cs4a[2].sout)))));
	le9a[].in = (! ((! (((! ( dataa_node[], B"0")) & cs2a[3].sout) & (! cs4a[3].sout))) & (! ((((! ( dataa_node[10..10], dataa_node[])) & cs2a[3].sout) & cs4a[3].sout) # ((( dataa_node[10..10], dataa_node[]) & (! cs2a[3].sout)) & cs4a[3].sout)))));
	sft11a[].in = ( w364w, ( (! w13w[11..11]), ( le5a[10..10].out, ( sft17a[15..15].out, ( sft17a[14..14].out, ( sft17a[13..13].out, ( sft17a[12..12].out, ( sft17a[11..11].out, ( sft17a[10..10].out, ( sft17a[9..9].out, ( sft17a[8..8].out, ( sft17a[7..7].out, ( sft17a[6..6].out, ( sft17a[5..5].out, ( sft17a[4..4].out, ( sft17a[3..3].out, ( sft17a[2..2].out, ( le7a[1..1].out, ( le7a[0..0].out, ( le6a[1..0].out))))))))))))))))))));
	sft12a[].in = ( w388w, ( sft17a[17..17].out, ( sft17a[16..16].out, ( sft21a[13..13].out, ( sft21a[12..12].out, ( sft21a[11..11].out, ( sft21a[10..10].out, ( sft21a[9..9].out, ( sft21a[8..8].out, ( sft21a[7..7].out, ( sft21a[6..6].out, ( sft21a[5..5].out, ( sft21a[4..4].out, ( sft21a[3..3].out, ( sft21a[2..2].out, ( sft21a[1..1].out, ( sft21a[0..0].out, ( sft17a[1..1].out, ( sft17a[0..0].out, ( w388w, cs2a[0].sout))))))))))))))))))));
	sft13a[].in = add10_result[];
	sft15a[].in = ( w388w, ( w364w, ( le5a[9..9].out, ( le5a[8..8].out, ( le5a[7..7].out, ( le5a[6..6].out, ( le5a[5..5].out, ( le5a[4..4].out, ( le5a[3..3].out, ( le5a[2..2].out, ( le5a[1..1].out, ( le5a[0..0].out, ( le9a[1..1].out, ( le9a[0..0].out, ( le8a[1..1].out, ( le8a[0..0].out, ( le6a[3..2].out)))))))))))))))));
	sft16a[].in = ( w388w, ( w388w, ( (! w311w[11..11]), ( le9a[10..10].out, ( le9a[9..9].out, ( sft25a[8..8].out, ( sft25a[7..7].out, ( sft25a[6..6].out, ( sft25a[5..5].out, ( sft25a[4..4].out, ( sft25a[3..3].out, ( sft25a[2..2].out, ( sft25a[1..1].out, ( sft25a[0..0].out, ( le7a[3..3].out, ( le7a[2..2].out, ( w388w, cs2a[1].sout)))))))))))))))));
	sft17a[].in = add14_result[];
	sft19a[].in = ( w388w, ( w364w, ( (! w258w[11..11]), ( le9a[8..8].out, ( le9a[7..7].out, ( le9a[6..6].out, ( le9a[5..5].out, ( le9a[4..4].out, ( le9a[3..3].out, ( le9a[2..2].out, ( le8a[3..3].out, ( le8a[2..2].out, ( le6a[5..5].out, cs2a[2].sout)))))))))))));
	sft20a[].in = ( w388w, ( w388w, ( sft25a[9..9].out, ( le8a[10..10].out, ( sft29a[5..5].out, ( sft29a[4..4].out, ( sft29a[3..3].out, ( sft29a[2..2].out, ( sft29a[1..1].out, ( sft29a[0..0].out, ( le7a[5..5].out, ( le7a[4..4].out, ( w388w, le6a[4..4].out)))))))))))));
	sft21a[].in = add18_result[];
	sft23a[].in = ( w388w, ( w364w, ( le8a[9..9].out, ( le8a[8..8].out, ( le8a[7..7].out, ( le8a[6..6].out, ( le8a[5..5].out, ( le8a[4..4].out, ( le6a[7..6].out)))))))));
	sft24a[].in = ( w388w, ( w388w, ( (! w211w[11..11]), ( le7a[10..10].out, ( le7a[9..9].out, ( le7a[8..8].out, ( le7a[7..7].out, ( le7a[6..6].out, ( w388w, cs2a[3].sout)))))))));
	sft25a[].in = add22_result[];
	sft27a[].in = ( w388w, ( w364w, ( (! w160w[11..11]), ( le6a[10..10].out, ( le6a[9..8].out)))));
	sft28a[].in = ( w388w, ( w388w, ( w364w, ( w388w, ( w388w, w12w[9..9])))));
	sft29a[].in = add26_result[];
	dataa_node[] = ( datab[10..0]);
	datab_node[] = ( dataa[9..0]);
	final_result_node[] = ( w588w[20..0]);
	result[] = ( final_result_node[20..0]);
	w12w[] = datab_node[];
	w13w[] = le5a[].out;
	w160w[] = le6a[].out;
	w211w[] = le7a[].out;
	w258w[] = le8a[].out;
	w311w[] = le9a[].out;
	w364w = B"1";
	w388w = B"0";
	w588w[] = ( sft13a[20..19].out, sft13a[18..17].out, sft13a[16..15].out, sft13a[14..13].out, sft13a[12..11].out, sft13a[10..9].out, sft13a[8..7].out, sft13a[6..5].out, sft13a[4..3].out, sft13a[2..1].out, sft13a[0..0].out);
END;
--VALID FILE