Abstract

The development of trusted fault-tolerant VLSI requires achieving economic efficiency, along with the functional and operational characteristics for the target equipment. To minimize errors, reduce costs and time to market, the practice of “reusing” technical solutions in the form of complex functional blocks (IP blocks), element libraries, etc. is widely used. In case the developers are not limited by various kinds of sanctions, they can choose the basic technical process for their project among several options according to the same design standards. The choice of a non-optimal for a given product and less stable technical process with a low-quality set of design tools leads to non-fulfillment of the requirements for the developed components or to the uncompetitiveness of the developed IP. Since it is almost impossible to localize the production of all the necessary electronic components, it is reasonable to determine the main technological directions for localization, while for all used processes to achieve the highest possible level of reuse of IP and libraries, ensuring the highest possible yield and a large series, apply a platform approach. The study considers multifactorial aspects of the design and development of platforms dedicated to trusted fault-tolerant systems on the levels of electronic component base (systems on a chip) and radio-electronic equipment (systems in package, micromodules and the corresponding infrastructure of support and services). We propose the solutions based on standard assembly components and allowing to implement the required functionality, increase economic efficiency and provide the high level of reliability and security, including the circumstances of sanctions restrictions.

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