Siemens Digital Industries Software today unveiled Tessent™ RTL Pro, an innovative software solution developed to help integrated circuit (IC) design teams streamline and accelerate a broad array of critical design-for-test (DFT) tasks for their next-generation designs.
As IC designs continue to grow in both size and complexity, engineers must identify and address testability issues at the earliest possible stages of design. Siemens’ Tessent software helps customers meet this need by enabling the analysis and insertion of a large majority of their DFT logic very early in the design flow, performing quick synthesis and then running ATPG (automatic test pattern generation) to identify and address outlier blocks and take appropriate measures.
Extending the Tessent portfolio’s industry-leading design editing capabilities, Tessent RTL Pro automates the analysis and insertion of test points, wrapper cells, and x-bounding logic earlier in the design flow, which can help customers shorten design cycles and improve the testability of their designs. Unlike competing solutions, Tessent RTL Pro handles complex Verilog and SystemVerilog constructs while maintaining the look and feel of the original RTL design.
Renesas, a leading semiconductor company, has adopted Tessent RTL Pro to further its shift-left efforts. "Adopting Tessent RTL Pro for our next-generation automotive semiconductor design allows us to extend our shift-left strategy and reduce the iterations of the conventional design flow. This is all possible while maintaining our best-in-class coverage and pattern count," said Tatsuya Saito, senior principal EDA engineer, Digital Design Technology Department, Shared R&D EDA Division Renesas Electronics Corporation. “The ability to provide our back-end and verification teams with the same, complete design view containing all Tessent IP, including VersaPoint test points in RTL, is paramount for our competitiveness."
The new solution works with Siemens’ market-leading Tessent DFT tools to deliver industry-first functionality. Tessent RTL Pro enables analysis of RTL complexity and its adaptability for test point insertion, evaluating whether the customer’s RTL structure can be edited efficiently, which is a critical factor when adding test points throughout the design. This innovative functionality can help customers reduce their design turn-around-time and improve time-to-market.
Tessent RTL Pro’s "shift-left" functionality also helps enhance the ability of third-party tools to optimize area and timing when adding DFT logic prior to synthesis, leaving only scan insertion for the gate level. Design insertion happens at the RTL development stage, with RTL output, allowing seamless integration with third-party synthesis and verification software. In addition, RTL Pro generates design files that work with any downstream synthesis or verification flows, without requiring a closed-flow process.
“Tessent RTL Pro continues Siemens’ drive to provide the industry’s most advanced solutions to chip designers and DFT engineers for their design flows,” said Ankur Gupta, vice president and general manager, Tessent division, Siemens Digital Industries Software. “With the ability to analyze and insert wrapper cells, x-bounding logic, and VersaPoint test points at the RTL stage of design, customers can now extend their shift-left initiatives by substantially enhancing the testability of their designs.”
For more information about Tessent RTL Pro and Siemens EDA's comprehensive suite of IC design solutions, please visit
www.siemens.com/tessent
Siemens Digital Industries Software helps organizations of all sizes digitally transform using software, hardware and services from the Siemens Xcelerator business platform. Siemens' software and the comprehensive digital twin enable companies to optimize their design, engineering and manufacturing processes to turn today's ideas into the sustainable products of the future. From chips to entire systems, from product to process, across all industries, Siemens Digital Industries Software – Accelerating transformation.