--lpm_decode CASCADE_CHAIN="MANUAL" DEVICE_FAMILY="Cyclone II" IGNORE_CASCADE_BUFFERS="OFF" LPM_DECODES=8 LPM_PIPELINE=1 LPM_WIDTH=3 aclr clken clock data enable eq CARRY_CHAIN="MANUAL" CARRY_CHAIN_LENGTH=48 --VERSION_BEGIN 7.1SP1 cbx_cycloneii 2007:01:23:09:39:40:SJ cbx_lpm_add_sub 2007:01:08:11:15:18:SJ cbx_lpm_compare 2007:02:05:11:33:54:SJ cbx_lpm_decode 2006:11:21:10:27:00:SJ cbx_mgl 2007:06:11:08:05:04:SJ cbx_stratix 2007:04:12:16:43:52:SJ cbx_stratixii 2007:02:12:17:08:26:SJ VERSION_END -- Copyright (C) 1991-2007 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. --synthesis_resources = reg 8 SUBDESIGN decode_aoi ( aclr : input; clken : input; clock : input; data[2..0] : input; enable : input; eq[7..0] : output; ) VARIABLE dffe1a[7..0] : dffe; data_wire[2..0] : WIRE; enable_wire : WIRE; eq_node[7..0] : WIRE; eq_wire[7..0] : WIRE; w_anode18w[3..0] : WIRE; w_anode1w[3..0] : WIRE; w_anode28w[3..0] : WIRE; w_anode38w[3..0] : WIRE; w_anode48w[3..0] : WIRE; w_anode58w[3..0] : WIRE; w_anode68w[3..0] : WIRE; w_anode78w[3..0] : WIRE; BEGIN dffe1a[].clk = clock; dffe1a[].clrn = (! aclr); dffe1a[].d = ( eq_node[]); dffe1a[].ena = clken; data_wire[] = data[]; enable_wire = enable; eq[7..0] = dffe1a[7..0].q; eq_node[7..0] = eq_wire[7..0]; eq_wire[] = ( w_anode78w[3..3], w_anode68w[3..3], w_anode58w[3..3], w_anode48w[3..3], w_anode38w[3..3], w_anode28w[3..3], w_anode18w[3..3], w_anode1w[3..3]); w_anode18w[] = ( (w_anode18w[2..2] & (! data_wire[2..2])), (w_anode18w[1..1] & (! data_wire[1..1])), (w_anode18w[0..0] & data_wire[0..0]), enable_wire); w_anode1w[] = ( (w_anode1w[2..2] & (! data_wire[2..2])), (w_anode1w[1..1] & (! data_wire[1..1])), (w_anode1w[0..0] & (! data_wire[0..0])), enable_wire); w_anode28w[] = ( (w_anode28w[2..2] & (! data_wire[2..2])), (w_anode28w[1..1] & data_wire[1..1]), (w_anode28w[0..0] & (! data_wire[0..0])), enable_wire); w_anode38w[] = ( (w_anode38w[2..2] & (! data_wire[2..2])), (w_anode38w[1..1] & data_wire[1..1]), (w_anode38w[0..0] & data_wire[0..0]), enable_wire); w_anode48w[] = ( (w_anode48w[2..2] & data_wire[2..2]), (w_anode48w[1..1] & (! data_wire[1..1])), (w_anode48w[0..0] & (! data_wire[0..0])), enable_wire); w_anode58w[] = ( (w_anode58w[2..2] & data_wire[2..2]), (w_anode58w[1..1] & (! data_wire[1..1])), (w_anode58w[0..0] & data_wire[0..0]), enable_wire); w_anode68w[] = ( (w_anode68w[2..2] & data_wire[2..2]), (w_anode68w[1..1] & data_wire[1..1]), (w_anode68w[0..0] & (! data_wire[0..0])), enable_wire); w_anode78w[] = ( (w_anode78w[2..2] & data_wire[2..2]), (w_anode78w[1..1] & data_wire[1..1]), (w_anode78w[0..0] & data_wire[0..0]), enable_wire); END; --VALID FILE