FPGA/IP Design

Delivering tailored Field-Programmable Gate Array (FPGA) solutions and reusable Intellectual Property (IP) for high-performance and flexible computing needs.

  • High-Speed Digital Design
  • RTL Coding (VHDL/Verilog/SystemVerilog)
  • IP Core Selection and Integration
  • Optimization for Power and Area
  • Timing Closure and Critical Path Analysis
  • System-Level Prototyping

ASIC/SoC Design

Providing end-to-end design and implementation services for Application-Specific Integrated Circuits (ASIC) and System-on-Chip (SoC) solutions.

  • Front-End Design and Architecture
  • Low-Power Design Techniques (LPD)
  • Physical Synthesis and Floorplanning
  • Timing and Signal Integrity Analysis
  • Technology Node Selection and Mapping
  • Tape-Out and Foundry Interface Management

Design Verification

Ensuring the functional correctness and specification compliance of complex digital designs through rigorous testing and simulation.

  • Testbench Architecture and Development
  • Universal Verification Methodology (UVM)
  • Formal Verification and Assertion-Based Verification (ABV)
  • Functional Coverage Closure
  • Gate-Level Simulation (GLS)
  • Verification IP (VIP) Integration

IC Layout

Executing the physical design (layout) of integrated circuits to meet stringent performance, power, and area (PPA) requirements.

  • Full-Custom and Semi-Custom Layout
  • DRC/LVS (Design Rule Check/Layout Versus Schematic) Verification
  • Power and Ground Planning
  • Clock Tree Synthesis (CTS)
  • Signal Integrity and Electro-Migration Analysis
  • Mask Generation and Sign-Off

PCB Design

Developing multi-layer Printed Circuit Boards (PCB) for robust and high-speed integration of semiconductor components and systems.

  • High-Speed Signal Integrity Analysis
  • Power Integrity Analysis and Decoupling
  • Multi-Layer Stack-up Definition
  • Schematic Capture and Component Footprinting
  • Thermal Management and Heat Dissipation Solutions
  • Manufacturing File Generation (Gerber, Drill)

Embedded Software Development

Creating low-level firmware and drivers essential for the operation and control of embedded systems and silicon.

  • Device Driver Development
  • Firmware Development (C/C++)
  • Real-Time Operating System (RTOS) Porting
  • Board Support Package (BSP) Development
  • Low-Level Hardware Interfacing
  • Debugging and Profiling on Target Hardware

Mechanical Design

Providing mechanical engineering support for semiconductor systems, focusing on packaging, enclosures, and thermal solutions.

  • Custom Enclosure and Housing Design
  • Thermal Analysis and Heat Sink Design
  • System Integration and Assembly Modeling
  • Stress and Vibration Analysis
  • Manufacturing Documentation (BOMs, Drawings)
  • 3D Modeling and Prototyping

RTL Design

Developing the Register-Transfer Level (RTL) code—the fundamental digital logic representation—for hardware components.

  • RTL Coding in Verilog/VHDL
  • Micro-Architecture Definition
  • Design-for-Test (DFT) Implementation
  • Linting and Clock Domain Crossing (CDC) Checks
  • Synthesis Constraint Development
  • Performance Optimization (Throughput/Latency)

Validation

Post-silicon testing and characterization of the fabricated IC to ensure it functions correctly in a real-world system environment.

  • Post-Silicon Validation Test Plan Development
  • Lab-Based Silicon Debug and Characterization
  • Automated Test Equipment (ATE) Program Development
  • Yield Analysis and Improvement
  • Reliability Testing (HTOL, HAST)
  • Correlation with Pre-Silicon Verification Results

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