The Computer Tape Librarian is an educated professional who maintains the data found on multiple magnetic tape devices, also called as back-ups. They oversee a classified library of magnetic tapes for data through verification, correction, labeling, and bar-coding. They also create a tape library report through the use of the computer’s hardware and software terminal.

The librarian retrieves files from a server and archives them on tape back-ups. This technician remains the primary expert and first point-of-contact in reference to data disaster management. They perform the disaster recovery process with a dedicated data recovery process, under unexpected circumstances, at global locations.

In the data storage section, the librarian plays a vital role in creating and archiving essential data back-ups for organizations or individuals. Archived files stored on magnetic tapes rarely change which makes this a beneficial storage medium. The tape library is also known as a tape automation system. The Computer Tape system comprises of storage racks for holding the cartridges and a robotic device for shifting the cartridge to the drive

The tape library is at times also called as a tape silo, a tape robot or tape jukebox. This technician manages the tape cartridges for a given slot, will bar-code it for easy reference. They also utilize automated methods for loading tapes through the robotic mechanism. Tape Librarian make use of recommended office machines to take the backups as it is beneficial in case of disaster recovery.
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It is hard to believe that a modern processor (CPU) is the most complex product in the world. What is so complex in this piece of metal?



In this article I will try to explain how a modern processer (CPU) is made from the sand.

Processor Manufacturing

It takes about $ 5 billion dollars to build a processor manufacturing factory. This factory approximately has 4 years to return the invested funds in its technology, before it will start making the profit. If we make some simple calculations that comes to 100 microchips per hour that the factory should manufacture in order to return the invested funds.