Core Capabilities

Deep expertise across high-speed interfaces, advanced nodes (7nm and beyond), and automation-driven methodologies supports scalable and high-performance solutions for AI and data-centric systems.

RTL Design/SOC Integration

Design of scalable, high-performance digital systems with emphasis on micro-architecture and system efficiency.

  • Micro-architecture definition and RTL development
  • Low-power and performance-driven design techniques
  • Protocols: AMBA AXI, AHB, APB, ACE, CHI, ATB, NVME, PCIE-CXL, NVLink, DDR
  • Design optimization for timing, power, and scalability

Design Verification (DV)

Comprehensive verification solutions ensuring functional correctness, performance, and robustness across IP, subsystem, and SoC levels using industry-standard methodologies.

  • UVM-based verification environments
  • IP, subsystem, and SoC-level verification
  • Coverage-driven verification (functional and code)
  • Assertion-based verification (SVA)
  • Debug, root-cause analysis, and failure triage
  • Processor knowledge: ARM A/R/M series, RISC-V

Physical Design (PD)

Complete RTL-to-GDSII implementation with strong expertise in advanced nodes and high-performance designs.

  • Floorplanning, placement, CTS, routing
  • Timing closure & signoff (STA, SI, IR/EM)
  • Multi-voltage and low-power implementation
  • ECO and convergence methodologies
  • Advanced tech: 7nm/10nm/FinFET, CoWoS & packaging

Analog Layout & Custom Design

Specialized analog and mixed-signal layout solutions focused on precision, reliability, and manufacturability across advanced technology nodes.

  • Custom analog/mixed-signal layout
  • Matching-sensitive and parasitic-aware methodologies
  • DRC/LVS/ERC, PEX, and post-layout support
  • Reliability: EM/IR, latch-up considerations
  • Foundry-compliant, tapeout-ready deliverables

FPGA Prototyping & Validation

Rapid validation and early silicon enablement through FPGA-based prototyping.

  • FPGA-based ASIC prototyping
  • RTL validation and debugging
  • High-speed interface bring-up
  • FPGA-to-ASIC correlation

AI Based Infrastructure and Automation Development

Scalable engineering infrastructure designed to accelerate semiconductor development cycles.

  • End-to-end CI/CD pipelines for RTL, DV, and PD
  • Jenkins-based automation frameworks
  • Regression systems and release management
  • Data-driven analytics and dashboards

IoT and Robotics

Applied product engineering for real-world systems.

  • Agriculture automation systems
  • Drone development platforms
  • Embedded control and sensing integration
  • Edge AI and robotics enablement