Analog Mixed Signal DesignBringing Digital Precision to Analog Realities
We design high-performance analog and mixed-signal IPs for modern SoCs, spanning precision, high-speed, and power-efficient domains. Our expertise covers circuit design, mixed-signal integration, and silicon validation, enabling robust and scalable analog subsystems.
Analog IP & Circuit Design Read More →
High-Speed & Interface Design Read More →
Mixed-Signal Integration & Modeling Read More →
Layout, Validation & Silicon Bring-up Read More →
Analog IP & Circuit Design
Design of high-performance analog building blocks across power, signal processing, and high-speed domains.
- Power management: LDOs, DC-DC converters, bandgaps
- Data converters: ADCs, DACs
- Clocking circuits: PLLs, DLLs, clock generation and distribution
- High-speed analog front-ends and signal conditioning
High-Speed & Interface Design
Development of analog subsystems for high-speed I/O and advanced interconnects.
- SerDes design (CTLE, DFE/FFE, equalization techniques)
- High-speed interfaces: PCIe, UCIe, DDR/LPDDR, HBM
- Receiver/transmitter design and link optimization
- Signal integrity and jitter/noise analysis
Mixed-Signal Integration & Modeling
Seamless integration of analog and digital domains within complex SoCs.
- AMS integration with digital subsystems
- Behavioral modeling (Verilog-A/AMS)
- Co-simulation and mixed-signal verification
- Interface definition and cross-domain synchronization
Layout, Validation & Silicon Bring-up
Ensuring robust implementation and silicon-proven performance.
- Analog layout (matching, parasitic-aware design, symmetry)
- Post-layout extraction and simulation
- Corner, Monte Carlo, and variation analysis
- Silicon validation, characterization, and debug