Secure Mutual Testing Strategy for Cryptographic SoCs

This article presents a secure mutual testing strategy for System-on-Chips (SoCs) that implement cryptographic functionalities. Such approach eliminates the need for an additional trusted component that is used to test security sensitive cores in a SoC, like symmetric and public-key cryptographic modules. We combine two test approaches: Logic Built In Self Test (BIST) and secure scan-chain based testing and develop a strategy that preserves the test quality of the standard test methods, enhancing security of the testing scheme. In order to minimize the area overhead of the presented solution, we re-use the existing modules in different manners: a public-key cryptographic core to build the BIST infrastructure and a symmetric one to authenticate a device under test to a test server, thus preventing an unauthorized user from accessing the test interface. By doing so, we achieve both testability and security at the minimal cost

SpiderFab: Process for On-Orbit Construction of Kilometer-Scale Apertures

The SpiderFab effort has investigated the value proposition and feasibility of radically changing the way we build and deploy spacecraft by enabling space systems to fabricate and integrate key components on-orbit. In this Phase II effort, we have focused on developing and demonstrating tools and processes to enable robotic systems to manufacture and assemble high performance structural elements that will serve as the support structures for components such as antennas and solar arrays. Through testing of these technologies in the laboratory environment,these efforts have established the technical feasibility of the key capabilities required for in-space manufacture of large apertures such as antennas, solar arrays, and optical systems,maturing prototype technical solutions for these capabilities to TRL-4. The SpiderFab effort has resulted in successful post-NIAC transition of the technology, first to SBIR-funded development of a technology for in-space manufacture (ISM) of truss structures, and then to a NASA/STMD Tipping Point Technologies funded effort to prepare a flight demonstration of ISM of a structure for a GEO communications satellite