A robust DFT strategy enhances chip reliability and manufacturing yield. Our solutions cover all aspects of testability, ensuring seamless post-silicon validation and production testing.

• Scan Insertion & ATPG – We implement scan-based testing methodologies to improve fault detection and automate test pattern generation.

• Built-in Self-Test (BIST) – Our BIST solutions enhance in-field diagnostics and self-repair capabilities, reducing testing costs.

• Timing Analysis –We perform detailed static and dynamic timing analysis to identify and mitigate timing violations.

• Verification – Our DFT verification methodologies validate test logic integration, ensuring high coverage and manufacturability.

Physical design is crucial for transforming RTL into a manufacturable layout. Our solutions optimize performance, power, and area while ensuring compliance with advanced process nodes.

• Gate-Level Simulation – We perform gate-level simulations to verify logic functionality post-synthesis.

• Synthesis in Advanced Technology Nodes (3nm / 4nm) – Our synthesis expertise in advanced nodes ensures optimal power, timing, and area constraints.

• Place & Route Optimization – We optimize floor planning, placement, and routing to meet stringent design constraints.

• Power Integrity & Signal Integrity Analysis – Our solutions ensure robust power and signal integrity, reducing noise and timing issues.

• AI/ML Integration – We integrate AI and machine learning capabilities into semiconductor designs, optimizing hardware for deep learning, neural networks, and AI inference applications. This enables faster processing and more efficient computation, addressing the growing demand for AI-driven innovation.

• MEMS – We specialize in Micro-Electro-Mechanical Systems (MEMS) design for sensors, actuators, and other microelectronics. Our solutions enable high-precision sensing and control in applications ranging from automotive to healthcare, providing the reliability and performance required in critical systems.

• Edge Computing – Our edge computing solutions empower real-time data processing at the source, minimizing latency and reducing the load on central servers. We design systems that optimize both power consumption and processing efficiency, ensuring robust performance for applications in IoT, autonomous systems, and smart devices.

• Chiplet-Based Architectures – We design modular chiplet solutions that allow for flexible, scalable, and cost-effective semiconductor systems. By using chiplets, we can combine different specialized functions (e.g., CPU, memory, I/O) in a single package, enhancing performance and simplifying integration for complex systems. This approach is ideal for applications in AI, high-performance computing, and cloud infrastructure.

• GPU Design – Our GPU design expertise focuses on high-performance computing (HPC) and AI workloads. We create efficient, scalable GPU architectures optimized for parallel processing, enabling faster computations in areas like machine learning, gaming, and scientific simulations.