At Think Silicon, we are a leading company specializing in Design for Test (DFT) services. Our experienced team possesses a comprehensive understanding of DFT requirements and specifications, ensuring that all aspects of DFT at both the block and TOP levels are meticulously designed and verified using industry-standard tools.

Our DFT services encompass various critical areas, including:

  1. DFT Planning, Architecture, Flow, and Methodology Development: We provide thorough planning and development of DFT strategies, architectures, flows, and methodologies tailored to your specific project needs. With our expertise, we ensure seamless integration of DFT practices into your design process.
  2. DFT Implementation: Our team excels in DFT implementation, encompassing various essential techniques such as User Defined Registers (UDR) definitions for enhanced controllability, Test Pin-Muxing, SCAN Insertion, LBIST Insertion, Compression Logic Insertion, Boundary Scan Insertion, Memory BIST insertion, and IOs. We adopt a meticulous approach to guarantee the highest level of functionality and testability.
  3. Automatic Test Pattern Generation (ATPG) and Verification: We leverage state-of-the-art ATPG tools and methodologies to generate optimized test patterns and ensure their effectiveness in detecting faults and achieving high test coverage. Our thorough verification process guarantees the reliability of the generated patterns.
  4. DFT Simulations: We conduct extensive pre-silicon and post-silicon DFT simulations to validate the functionality and timing aspects of various modes, including SCAN, Boundary SCAN, MBIST, and LBIST. By identifying potential issues early on, we enable efficient debugging and optimization.
  5. Pre-silicon and Post-silicon Debug: Our expertise extends to comprehensive pre-silicon and post-silicon debugging services. We employ advanced techniques and tools to identify and resolve design issues, ensuring optimal performance and functionality.
  6. ATE Test Program Development and Production Support: We specialize in the development of Automated Test Equipment (ATE) programs tailored to your specific requirements. Our team works closely with you to ensure seamless integration and provide ongoing production support for efficient and reliable testing.
  7. ATE Hardware Development and Packaging: As part of our end-to-end solutions, we offer ATE hardware development and packaging services. We create customized hardware solutions optimized for your testing needs, ensuring efficient and accurate data acquisition.

Why Choose Think Silicon:

  1. Expertise and Experience: With our dedicated team of experienced professionals, we bring a wealth of knowledge and expertise to every project. We have successfully delivered DFT solutions for a wide range of industries, earning a reputation for excellence.
  2. Industry-Standard Tools and Methodologies: We utilize industry-standard tools and methodologies to ensure the highest quality of our DFT services. Our commitment to staying up-to-date with the latest advancements guarantees the effectiveness and reliability of our solutions.
  3. Customized Approach: We understand that each project has unique requirements. Our team works closely with you to tailor our services to your specific needs, ensuring that the DFT solutions provided align perfectly with your goals.
  4. Comprehensive Support: Think Silicon provides comprehensive support throughout the entire project lifecycle. From planning and implementation to debugging and production, we are committed to your success and offer ongoing assistance.
  5. Reliability and Trust: We prioritize the trust and satisfaction of our customers. By delivering reliable and efficient DFT solutions, we aim to build long-term partnerships based on trust and mutual success.

Choose Think Silicon for industry-leading DFT services that drive your design excellence, optimize testability, and ensure the highest quality of your products. Contact us today to discuss your specific requirements and discover how we can contribute to your success.