Isolinear Optical Chips

Isolinear optical chips are the primary software and data storage medium employed in computer systems employed by the Federation.

These nanotech devices represent a number of significant advances over the crystal memory cards used in earlier systems, since these chips make use of single-axis optical crystal layering to achieve sub wavelength switching distances. Nanopulse matrix techniques yield a total memory capacity of 2.15 kiloquads per chip in standard holographic format.

Like earlier crystal memory devices, isolinear chips optimize memory access by employing onboard nanoprocessors, and higher processing speeds permit individual chips to manage data configuration independent of LCARS control, reducing system access time by up to 7%. Additionally, the chip substrate is infused with trace quantities of superconductive platinum / iridium, which permits FTL optical data transmission when energized by the core's subspace flux, and again results in a dramatic 335% increase in processing speed when used in one of the main computer cores.

Isolinear chips can be ruggedized with the application of protective tripolymer sealant over the refractive gloves, and when so treated, isolinear chips are used as a convenient form of information transport. Many portable data handling devises, such as tricorders, PADDs, and optical chip readers, are able to read and write to standard format isolinear chips.