HIF003
--
-- Copyright (C) 1988-2001 Altera Corporation
-- Any megafunction design, and related net list (encrypted or decrypted),
-- support information, device programming or simulation file, and any other
-- associated documentation or information provided by Altera or a partner
-- under Altera's Megafunction Partnership Program may be used only to
-- program PLD devices (but not masked PLD devices) from Altera. Any other
-- use of such megafunction design, net list, support information, device
-- programming or simulation file, or any other related documentation or
-- information is prohibited for any other purpose, including, but not
-- limited to modification, reverse engineering, de-compiling, or use with
-- any other silicon devices, unless such use is explicitly licensed under
-- a separate agreement with Altera or a megafunction partner. Title to
-- the intellectual property, including patents, copyrights, trademarks,
-- trade secrets, or maskworks, embodied in any such megafunction design,
-- net list, support information, device programming or simulation file, or
-- any other related documentation or information provided by Altera or a
-- megafunction partner, remains with Altera, the megafunction partner, or
-- their respective licensors. No other licenses, including any licenses
-- needed under any third party's intellectual property, are provided herein.
--
-- Warning: do not edit this file!
--
FILES
{
cout8.vhd
{
cout8 [] [U2043679.DLS,U7449008.DLS,U1147235.DLS]
{
15 [] [];
}
}
changedl.vhd
{
changedl [] [U2043679.DLS,U7449008.DLS,U1147235.DLS]
{
5 [] [];
}
}
cout40.vhd
{
cout40 [] [U5125632.DLS,U9092257.DLS,U9234712.DLS,U9587408.DLS,U2043679.DLS,U7449008.DLS,U1147235.DLS]
{
4 [] [];
}
}
bl.vhd
{
bl [] [U5125632.DLS,U9092257.DLS,U9234712.DLS,U9587408.DLS,U2043679.DLS,U7449008.DLS,U1147235.DLS]
{
2 [] [];
}
}
xxout.vhd
{
xxout [] [U5125632.DLS,U9092257.DLS,U9234712.DLS,U9587408.DLS,U2043679.DLS,U7449008.DLS,U1147235.DLS]
{
3 [] [];
}
}
altshift.tdf
{
altshift [DEPTH=0,WIDTH=4,USE_LPM_FOR_AHDL_OPERATORS] []
{
9 [DEPTH=0,WIDTH=4,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result3,result2,result1,result0,data3,data2,data1,data0];
14 [DEPTH=0,WIDTH=3,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result2,result1,result0,data2,data1,data0];
10 [DEPTH=0,WIDTH=1,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result0,data0];
}
}
addcore.tdf
{
addcore [DEVICE_FAMILY,CARRY_CHAIN_LENGTH,CARRY_CHAIN,CONSTANT_CIN,width,USE_LPM_FOR_AHDL_OPERATORS] [addcore.inc,aglobal.inc]
{
8 [DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,CONSTANT_CIN=0,width=8,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result4,result3,result2,result1,result0,dataa3,dataa2,dataa1,dataa0,datab3,datab2,datab1,datab0,cin];
7 [DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,CONSTANT_CIN=0,width=4,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result3,result2,result1,result0,dataa3,dataa2,dataa1,dataa0,datab3,datab2,datab1,datab0,cin];
13 [DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,CONSTANT_CIN=0,width=8,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result3,result2,result1,result0,dataa2,dataa1,dataa0,datab2,datab1,datab0,cin];
12 [DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,CONSTANT_CIN=0,width=3,USE_LPM_FOR_AHDL_OPERATORS=OFF] [result2,result1,result0,dataa2,dataa1,dataa0,datab2,datab1,datab0,cin];
}
}
lpm_add_sub.tdf
{
lpm_add_sub [STYLE,DEVICE_FAMILY,CARRY_CHAIN_LENGTH=32,CARRY_CHAIN=IGNORE,OPTIMIZE_FOR_SPEED=5,MAXIMIZE_SPEED=5,LPM_PIPELINE=0,ONE_INPUT_IS_CONSTANT=NO,LPM_DIRECTION=DEFAULT,LPM_REPRESENTATION=SIGNED,LPM_WIDTH,USE_LPM_FOR_AHDL_OPERATORS] [lpm_add_sub.inc,addcore.inc,look_add.inc,bypassff.inc,altshift.inc,aglobal.inc]
{
6 [STYLE=NORMAL,DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,OPTIMIZE_FOR_SPEED=5,MAXIMIZE_SPEED=5,LPM_PIPELINE=0,ONE_INPUT_IS_CONSTANT=NO,LPM_DIRECTION=DEFAULT,LPM_REPRESENTATION=SIGNED,LPM_WIDTH=4,USE_LPM_FOR_AHDL_OPERATORS=OFF] [RESULT3,RESULT2,RESULT1,RESULT0,CIN,DATAB3,DATAB2,DATAB1,DATAB0,DATAA3,DATAA2,DATAA1,DATAA0];
11 [STYLE=NORMAL,DEVICE_FAMILY=MAX7000S,CARRY_CHAIN_LENGTH=0,CARRY_CHAIN=IGNORE,OPTIMIZE_FOR_SPEED=5,MAXIMIZE_SPEED=5,LPM_PIPELINE=0,ONE_INPUT_IS_CONSTANT=NO,LPM_DIRECTION=DEFAULT,LPM_REPRESENTATION=SIGNED,LPM_WIDTH=3,USE_LPM_FOR_AHDL_OPERATORS=OFF] [DATAA0,DATAA1,DATAA2,DATAB0,DATAB1,DATAB2,CIN,RESULT0,RESULT1,RESULT2];
}
}
cout.gdf
{
cout [] []
{
0 [] [];
}
}
}
TREE
{
cout::(0,0):(0): cout.gdf
{
cout8::(0,0):(325): cout8.vhd;
changedl::(0,0):(323): changedl.vhd;
cout40::(0,0):(322): cout40.vhd
{
lpm_add_sub:6:(34,9):(120): lpm_add_sub.tdf
{
addcore:7:(212,4):(46,adder): addcore.tdf
{
addcore:8:(178,10):(43,adder0): addcore.tdf;
}
altshift:9:(222,2):(65,result_ext_latency_ffs): altshift.tdf;
altshift:10:(224,2):(79,carry_ext_latency_ffs): altshift.tdf;
altshift:10:(226,2):(87,oflow_ext_latency_ffs): altshift.tdf;
}
lpm_add_sub:11:(36,28):(147): lpm_add_sub.tdf
{
addcore:12:(212,4):(43,adder): addcore.tdf
{
addcore:13:(178,10):(40,adder0): addcore.tdf;
}
altshift:14:(222,2):(59,result_ext_latency_ffs): altshift.tdf;
altshift:10:(224,2):(71,carry_ext_latency_ffs): altshift.tdf;
altshift:10:(226,2):(79,oflow_ext_latency_ffs): altshift.tdf;
}
lpm_add_sub:6:(43,9):(186): lpm_add_sub.tdf
{
addcore:7:(212,4):(46,adder): addcore.tdf
{
addcore:8:(178,10):(43,adder0): addcore.tdf;
}
altshift:9:(222,2):(65,result_ext_latency_ffs): altshift.tdf;
altshift:10:(224,2):(79,carry_ext_latency_ffs): altshift.tdf;
altshift:10:(226,2):(87,oflow_ext_latency_ffs): altshift.tdf;
}
lpm_add_sub:11:(46,17):(213): lpm_add_sub.tdf
{
addcore:12:(212,4):(43,adder): addcore.tdf
{
addcore:13:(178,10):(40,adder0): addcore.tdf;
}
altshift:14:(222,2):(59,result_ext_latency_ffs): altshift.tdf;
altshift:10:(224,2):(71,carry_ext_latency_ffs): altshift.tdf;
altshift:10:(226,2):(79,oflow_ext_latency_ffs): altshift.tdf;
}
}
bl::(0,0):(222): bl.vhd;
xxout::(0,0):(228): xxout.vhd;
}
}
