AQUA LOGIC

Brand	Owner (click to sort)	Address	Description
ACQUALOGIC	AcquaLogic, Inc.	1525 SEABRIGHT AVE SANTA CRUZ CA 95062	AQUA LOGIC;Apparatus and installations for decomposing toxic substances in water; environmental control apparatus, namely, particle activators for use in soil remediation, drinking water treatment, municipal and industrial wastewater treatment; filters for fluids, namely, for water and area-water solutions; industrial-water purifying apparatus; sustainable onsite water recycling and wastewater treatment systems; waste water purification apparatus, installations and tanks; water filtering apparatus; water treatment equipment, namely, water filtration units and reverse osmosis units;Analysis of stream water quality; consulting in the field of environmental protection, namely, detection of contaminants in water; engineering services for the construction of water treatment and purification plants, solid waste treatment plants and other municipal infrastructure facilities; environmental services, namely, detection of contaminants in water; hydrologic and engineering modeling and design of measures to protect areas likely to be inundated by storm-water and flood-waters; technical monitoring services for conditions of water; water analysis; water meter reading and data analysis; water quality control services;
AQUALOGIC	COSMAIR, INC.	575 Fifth Avenue New York NY 10017	AQUA LOGIC;SKIN MOISTURIZING LOTION;
AQUALOGIC	Spycher, Nicholas	2321 Russell Street Berkeley CA 94705	AQUA LOGIC;consultation in the field of hydrology; computer software design for others;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A programmable logic structure is disclosed that has a set of dedicated lines which extend internally throughout different dedicated logic cells within a logic and routing block (LRB), extend from a previous logic routing block to the present logic and routing block, or extend from the present logic and routing block to the next logic and routing block. One set of dedicated lines from a first logic and routing block can be stitched to another set of dedicated lines of a second logic and routing block for extending the reach as well as bypassing a logic and routing block, or bypassing a dedicated logic cell in the same logic and routing block. The dedicated lines between logic and routing blocks allow a logic and routing block to receive more inputs from its own switch box or to drive more outputs than provided by the logic and routing block as specified by a given function.