Various embodiments are generally directed to techniques to power encryption circuitry, such as with a power converter, for instance. Some embodiments are particularly directed to a power converter that utilizes one or more capacitors to power encryption circuitry while masking the power signature of the encryption circuitry. In one or more embodiments, for example, a power converter may charge a capacitor with a power source of a computing platform, and then power encryption circuitry with the capacitor to perform a first portion of an encryption operation. In one or more such embodiments, the power converter may recharge the capacitor with the power source after completion of the first portion of the encryption operation, and perform a second portion of the encryption operation.

A method for secure transmission and visualization of encrypted information. A first grid of first and second element types is applied to a first medium. The types differently modify a property of light through the medium. A key defined by element distribution is determined. A second grid with different light-modifying element types is applied to a second medium. A second-grid contoured area defines an information item. Second-grid elements are distributed such that a first-grid element of the second type corresponds to a second-grid element of the first type, a first-grid element of the first type corresponds to a second-grid element of the second type outside the area, and a first-grid element of the second type corresponds to a second-grid element of the second type, and a first-grid element of the first type corresponds to a second-grid element of the first type inside the area. Grid superimposition makes the information visible.