FPGA DESIGN SERVICES
Vendors, Tools, and Device Families We Use Regularly
FPGA & SoC Platforms
We work extensively with leading FPGA and SoC families, selecting devices based on performance, determinism, power, and long-term availability.
AMD / Xilinx – Zynq™-7000, Zynq™ UltraScale+™, Artix™, Kintex™, Spartan™
Intel / Altera – Cyclone®, MAX10® families
- Efinix – Trion™, Titanium™ families
FPGA Modules & Embedded Platforms
To reduce NRE, accelerate schedules, and de-risk hardware design, we frequently use proven off-the-shelf FPGA and SoC modules from:
Avnet / Tria Technologies
Trenz Electronic
MYIR
Development & Verification Tools
Our workflows rely on industry-standard toolchains for RTL design, simulation, embedded software, and system-level verification.
Vivado, Vitis
Quartus Prime
ModelSim / Questa
- Icarus / GTKWave
MATLAB, Python for algorithm development and modeling
Selected Advanced Solutions Delivered
Ultra-Precision Motion Control
Architected and delivered control systems for ultra-precision industrial machines enabling full 3D tool positioning with nanometer-range accuracy, integrating high-resolution encoders, real-time feedback, and deterministic motion control.
Real-Time Hyperspectral Image Processing
Designed FPGA-accelerated pipelines for real-time hyperspectral image processing at rates up to 1500 video frames per second, enabling low-latency spectral analysis for scientific and industrial instrumentation.
Mixed-Signal Biometric Sensor Development
Implemented and verified mixed-signal biometric sensor ASIC control and data-path logic in FPGA, supporting high-throughput acquisition, precise timing, and robust validation prior to ASIC tape-out.
High-Precision Sequencing & Synchronization
Developed deterministic sequencers synchronizing multi-axis mechanical motion, position-sensor ADCs, scanners, and laser pulses with picosecond-range timing accuracy, critical for advanced optical and inspection systems.
High-Bandwidth IR Signal Processing
Created infrared photodetector signal-processing chains delivering enhanced SNR and linearity across hundreds of megahertz bandwidth, combining analog front-end optimization with FPGA-based digital processing.
Why choose AESEES FPGA Design Services?
Development Speed and Quality
Our structured, modular development process—combined with deep expertise in FPGA, embedded software, and system architecture—significantly shortens development cycles. Reusable building blocks and proven design patterns allow us to move from concept to working system quickly and efficiently.
Cost-Effective Solutions
AESEES extensively leverages off-the-shelf (OTS) FPGA modules from Avnet / Tria Technologies, Trenz Electronic, and MYIR to drastically simplify system design and accelerate time-to-market. This approach minimizes NRE, reduces technical risk, and enables rapid prototyping and early validation.
Collaboration
We provide flexible on-site and off-site engagement models, working as an extension of your engineering team. Close technical collaboration, transparent communication, and hands-on problem solving ensure successful delivery of complex, high-performance systems on time and budget.
Expertise
Members of our engineering team began their FPGA design careers over 30 years ago, bringing deep, hands-on experience across multiple FPGA generations and architectures. In 2014, we successfully delivered our first customer project based on the Zynq™ SoC using the ZedBoard development platform, marking an early adoption of SoC-class FPGA architectures from Xilinx (now part of AMD) and development hardware from Avnet. AESEES became a member of Xilinx Alliance Program in 2014.