Each computer has a digital signal processing processor (DSP), permanent and RAM variable configuration, direct access to memory, two serial ports, built-in timers and a system bus controller.
The following interfaces are implemented in various modifications of embedded modules:
intermodule parallel interface (MPI) according to GOST267565. 51-86;
serial phase-controlled interface GOST26765. 52-87;
serial bipolar interface according to GOST18977-87;
interface of one-time commands according to GOST18977-87;
parallel VME-bus;
RS-422 serial interface;
parallel VMD system bus;
USB 2.0.;
byte link channels.

The use of AMD is particularly effective in real-time control systems that require minimal weight, size, power consumption and low cost.

The use of the DSP processor allows AMD to solve a wide range of tasks in many areas of special and General equipment:
communication – transmission of discrete information on switched and non-switched channels of PM communication systems of the Russian Federation, management of communication channels with automatic frequency readjustment, navigation;

radar-calculation of phase distribution codes of the phased array antenna (HEADLIGHT), control of switching phase shifters;

power plants - control of engine operation modes;

medicine-cardiography, monitoring of the patient's condition;

automation of filling stations.

There is a wide range of tools for creating and testing software: assembler, C compiler, archiver, link editor, special function libraries.
Modular open architecture based on AMD serves as the basis for building various configurations of computing systems required performance and reliability. Unification of hardware allows to interact with other systems on standard buses, flexibly redistribute the functions of failed subsystems at the expense of the same type of elements of another subsystem, which significantly increases reliability, improves maintainability of the system and simplifies maintenance.