The solution includes embedded infrastructure and automation that decouples core-level DFT requirements from the chip-level test delivery resources. This enables a no-compromise, bottom-up DFT flow that can dramatically simplify DFT planning and implementation, while reducing test time up to 4X. With full support for tiled designs and optimization for identical cores, it is ideal for increasingly large emerging compute architectures.
This new software comes in response to the growing demand for next-generation integrated circuits (ICs) that deliver the performance required for fast-evolving applications such as artificial intelligence and autonomous driving that has resulted in an unprecedented increase in the size of IC designs, which can integrate many billions of transistors. For IC engineering teams, larger IC design sizes and associated complexity have translated in to a dramatic rise in the time and cost required to test these massive IC designs, as well as the engineering effort needed to plan for and deploy design-for-test (DFT) structures and functionalities across each design.
“The dramatic spike in IC test complexity due to increasing design sizes, advanced technology nodes, and use-model requirements presents significant challenges for IC design organizations,” said Brady Benware, vice president and general manager of Tessent Silicon Lifecycle Solutions for Mentor, a Siemens business. “With the Tessent Streaming Scan Network, our customers can be ready for the designs of tomorrow, while slashing test implementation effort and simultaneously optimizing manufacturing test cost today.”
The Tessent Streaming Scan Network is a bus-based scan data distribution architecture that enables simultaneous testing of any number of cores. It helps shorten test time by enabling high-speed data distribution, efficiently handling imbalances between cores, and supporting testing of any number of identical cores with a constant cost. It also provides a plug-and-play interface in each core that simplifies scan timing closure and is well-suited for abutted tiles.
The solution consists of a series of host nodes in each design block that are networked together. Each host distributes data between the network and the test structures in the block. The software automates the implementation, pattern generation, and failure reverse mapping processes. DFT engineers can fully optimise DFT test resources for each block without concern for impacts to the rest of the design. This helps to dramatically reduce the implementation effort. Along with optimized handling of identical cores, elimination of waste in the test data, and time multiplexing, this solution enables substantial reductions in test data time and volume.
The Tessent Streaming Scan Network is fully compatible with all other Tessent DFT products and can be combined with Tessent Diagnosis cell-aware and layout-aware diagnosis for a complete end-to-end defect detection and diagnosis solution. All Tessent DFT products are part of the Tessent Safe ecosystem and qualified for all ASIL ISO 26262 projects with a complete set of certified ISO 26262 documentation