UVM Design VerificationDriving Coverage, Closure, and Confidence
We deliver scalable, reusable UVM-based verification solutions across IP, subsystem, and full SoC levels. Our expertise spans architecture of verification environments, coverage-driven validation, and protocol-compliant verification to ensure robust, silicon-ready designs.
UVM Environment Architecture & Development Read More →
Functional Verification & Coverage Closure Read More →
Protocol & SoC-Level Verification Expertise Read More →
AI-Assisted Verification Acceleration Read More →
UVM Environment Architecture & Development
Design of scalable, reusable verification environments aligned with industry best practices.
- UVM testbench architecture (agents, scoreboards, sequences)
- Reusable and configurable components
- VIP integration (third-party and custom)
- Scalable environments from IP to SoC
Functional Verification & Coverage Closure
Comprehensive, coverage-driven verification ensuring functional correctness and signoff readiness.
- Constrained-random and directed testing
- Functional, code, and toggle coverage
- Assertion-based verification (SVA)
- Coverage closure and regression optimization
- Gate-level simulation and X-propagation analysis
- Power-aware verification (UPF-based)
Protocol & SoC-Level Verification
Verification of complex SoCs with deep protocol expertise and system-level validation.
- CPU-based SoC verification (ARM, RISC-V, etc.)
- HSIO: PCIe, CXL, UCIe, Ethernet
- Memory: DDR, LPDDR, HBM
- Peripheral interfaces: I2C, SPI, UART
- Subsystem and full-chip integration validation
AI-Assisted Verification Acceleration
Enhancing verification productivity and efficiency using AI-driven techniques.
- Automated testbench generation
- Intelligent stimulus and test generation
- Coverage gap analysis
- Regression optimization