Two aspects of identification of products - documental and objective are known. Documental identification is actually brought together to official registration of papers on this or that material resource. This aspect of identification - the first and the most widespread. Objective identification is a serious step forward as it admits possibility to store a part of the information not only in the deed, but also is direct in on) the most material resource. More often objective identification is manifested through plotting of numeric codes on manufactured goods. Objective identification is realized in a regime when each unit of a cargo gains the number, and deeds are escorted by a database with these numbers. It is possible to put numbers on products laser, needles shock and other production engineering. There is a question - how to protect a product numeric code, having made its non-reproducible. For the informational protection of a code it is possible to use natural (natural) encryption computers, for example, to apply an electric discharge. At an electric discharge between an electrode and identification gauge-mark on last there is a track from substance of an electrode, and the collection of stains from electric discharges derivates a non-reproducible picture. It is possible to put a non-reproducible, unique gauge-mark and a chemical-electric method, for example, with usage of a multisection electrode [1]. Feature of such approach is connection of each section of an electrode to the current source through the random number generator. It is possible to ensure possibility of a variety of gained individual dies at the expense of moving and forming of an interelectrode gap also under the law of random numbers. Last direction has been realized because the part of sections works in a regime of anodic dissolution, and a part - in a regime of cathode sedimentation [2]. The laser irradiation inducted into an interelectrode gap through a semipermeable electrode and effecting scanning of a surface of installation under the law, set by the random number generator, has allowed doing without a multisection electrode [3]. There is a row of problems purely the informational, linked to difficulties of numbering of a nonreproducible surface. However by means of electrochemistry it is possible to create sections of a surface read out by the computer, for example, in the form of a bar code on which further it is possible to rebuild and a product numeric code. This way is used for plotting of a hidden bar code in helical flutes of cylindrical surfaces by plotting of an individual die in the form of a datum point at an installation and bar code end face, and a reference grid form also on the basis of a spiral with its informational time stamping to physical put datum point on installation. Feature is that form a bar code in the form of the separate strips distributed on a helical flute on its length, and the algorithm of assemblage of strips in a shrih-code is stored in a database. For realization of a way the electrode-tool in which the dielectric holder is fulfilled from two parts between which the working unit which screw flanges are fulfilled dielectric is had is offered and is continuation of dielectric screw flanges of both parts of the holder. Thus directing screw riffles are stocked by a set of replaceable units alternated on breadth current-carrying and a dielectric, and current-carrying thimbles are connected to a negative pole of the current source.