de0-zx-spectrum/cpu/alu/alu_select.v

// 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.

// PROGRAM		"Quartus II 64-Bit"
// VERSION		"Version 13.0.1 Build 232 06/12/2013 Service Pack 1 SJ Web Edition"
// CREATED		"Mon Oct 13 11:59:39 2014"

module alu_select(
	ctl_alu_oe,
	ctl_alu_shift_oe,
	ctl_alu_op2_oe,
	ctl_alu_res_oe,
	ctl_alu_op1_oe,
	ctl_alu_bs_oe,
	ctl_alu_op1_sel_bus,
	ctl_alu_op1_sel_low,
	ctl_alu_op1_sel_zero,
	ctl_alu_op2_sel_zero,
	ctl_alu_op2_sel_bus,
	ctl_alu_op2_sel_lq,
	ctl_alu_sel_op2_neg,
	ctl_alu_sel_op2_high,
	ctl_alu_core_R,
	ctl_alu_core_V,
	ctl_alu_core_S,
	alu_oe,
	alu_shift_oe,
	alu_op2_oe,
	alu_res_oe,
	alu_op1_oe,
	alu_bs_oe,
	alu_op1_sel_bus,
	alu_op1_sel_low,
	alu_op1_sel_zero,
	alu_op2_sel_zero,
	alu_op2_sel_bus,
	alu_op2_sel_lq,
	alu_sel_op2_neg,
	alu_sel_op2_high,
	alu_core_R,
	alu_core_V,
	alu_core_S
);


input wire	ctl_alu_oe;
input wire	ctl_alu_shift_oe;
input wire	ctl_alu_op2_oe;
input wire	ctl_alu_res_oe;
input wire	ctl_alu_op1_oe;
input wire	ctl_alu_bs_oe;
input wire	ctl_alu_op1_sel_bus;
input wire	ctl_alu_op1_sel_low;
input wire	ctl_alu_op1_sel_zero;
input wire	ctl_alu_op2_sel_zero;
input wire	ctl_alu_op2_sel_bus;
input wire	ctl_alu_op2_sel_lq;
input wire	ctl_alu_sel_op2_neg;
input wire	ctl_alu_sel_op2_high;
input wire	ctl_alu_core_R;
input wire	ctl_alu_core_V;
input wire	ctl_alu_core_S;
output wire	alu_oe;
output wire	alu_shift_oe;
output wire	alu_op2_oe;
output wire	alu_res_oe;
output wire	alu_op1_oe;
output wire	alu_bs_oe;
output wire	alu_op1_sel_bus;
output wire	alu_op1_sel_low;
output wire	alu_op1_sel_zero;
output wire	alu_op2_sel_zero;
output wire	alu_op2_sel_bus;
output wire	alu_op2_sel_lq;
output wire	alu_sel_op2_neg;
output wire	alu_sel_op2_high;
output wire	alu_core_R;
output wire	alu_core_V;
output wire	alu_core_S;


assign	alu_oe = ctl_alu_oe;
assign	alu_shift_oe = ctl_alu_shift_oe;
assign	alu_op2_oe = ctl_alu_op2_oe;
assign	alu_res_oe = ctl_alu_res_oe;
assign	alu_op1_oe = ctl_alu_op1_oe;
assign	alu_bs_oe = ctl_alu_bs_oe;
assign	alu_op1_sel_bus = ctl_alu_op1_sel_bus;
assign	alu_op1_sel_low = ctl_alu_op1_sel_low;
assign	alu_op1_sel_zero = ctl_alu_op1_sel_zero;
assign	alu_op2_sel_zero = ctl_alu_op2_sel_zero;
assign	alu_op2_sel_bus = ctl_alu_op2_sel_bus;
assign	alu_op2_sel_lq = ctl_alu_op2_sel_lq;
assign	alu_sel_op2_neg = ctl_alu_sel_op2_neg;
assign	alu_sel_op2_high = ctl_alu_sel_op2_high;
assign	alu_core_R = ctl_alu_core_R;
assign	alu_core_V = ctl_alu_core_V;
assign	alu_core_S = ctl_alu_core_S;




endmodule