28nm ASIC · High-Speed Perception Chip

Redefining the
Boundaries of Perception SYNMEWON

Self-developed high-speed 3D perception chips delivering 10,000+ fps real-time processing and micron-level precision, powering the perception revolution in industrial vision, precision medicine, and commercial aerospace.

70K fps
Peak Frame Rate
1μm
Axial Resolution
28nm
Process Node
90%
Logic Utilization
SYNMEWON
28nm
ASIC · HIGH-SPEED
PERCEPTION

Suzhou Synmewon
Microelectronics

Synmewon is a hard-tech company dedicated to high-speed 3D perception chips. Based in Suzhou Industrial Park, we build proprietary ASIC chips that break through the bottlenecks of traditional FPGA architectures and put high-end perception silicon under full independent control.

Our core team comes from research institutes, top universities, and leading public companies, with over a decade of expertise in image processing, chip design, and precision optics — covering the full chain from algorithm definition to volume chip production.

With dual technology tracks — laser line profiling and spectral measurement — we are building a complete perception platform spanning industrial inspection, medical optics, commercial aerospace, and embodied AI.

Industrial Vision

Weld seam tracking, precision inspection, robot guidance — 10,000+ fps 100% inline inspection

Spectral Measurement

Precision spectral metrology: OCT, point and line spectral confocal sensing

Commercial Aerospace

Radiation-hardened design for on-orbit satellite servicing and sub-millimeter docking

Embodied AI

Real-time point cloud reconstruction for dexterous manipulation and random bin picking

High-Speed Perception · Core Technologies

Synmewon's self-developed 28nm ASIC follows an algorithm-defined-hardware philosophy, achieving 90% logic utilization and eliminating the memory-wall bottleneck of traditional FPGA architectures — true high-speed, high-precision perception.

Dual Technology Tracks · Unified Chip Architecture

Spectral imaging and line structured light serve very different applications, yet both are fundamentally high-speed 2D/1D cameras with built-in 3D algorithms. Through a unified hardware architecture, a single Synmewon ASIC supports both scenarios with over 80% hardware reuse.

Standardized five-stage pipeline: high-speed image capture → real-time image processing → feature extraction → data conversion → 4 Gbps real-time output.

70K fps
Peak real-time frame rate (area-scan mode)
1–50 μm
3D measurement accuracy
700 KHz
OCT A-scan rate (line-scan mode)
2K → 8K
Resolution roadmap
01 · Line Structured Light

Ultra-High-Speed Industrial 3D Perception

10,000+ fps real-time capture with micron-level 3D reconstruction enables 100% inline inspection of fast-moving targets, robust against reflective surfaces and other harsh conditions — up to 100× the precision of LiDAR.

02 · Spectral Measurement

Subsurface Imaging Through Transparent Media

The only 3D imaging technology that resolves internal tomographic structures through transparent and translucent media. With 1 μm axial resolution, it sees through molten metal, glass, and biological tissue for true internal quality monitoring.

03 · Dedicated ASIC

Algorithm-Defined Chip Architecture

A systolic NPU pipeline eliminates the memory wall entirely, achieving 90% logic utilization.

T-800 Series
Perception Module Platform

Built on a unified ASIC foundation, the T-800 series forms a complete product matrix covering high-speed industrial perception, spectral inspection, commercial aerospace, and consumer applications — hardware and software co-designed for rapid productization.

T-800A

High-Speed Structured-Light Module

2K–8K resolution with 10,000+ fps real-time processing — for inline measurement, adhesive dispensing inspection, high-speed-rail wheel inspection, and line spectral confocal applications.

Industrial Perception
T-800B

High-Speed 2D Industrial Camera

100-megapixel sensor, 100 fps processing, 160 Gbps data throughput — built for semiconductor wafer inspection and high-speed motion capture.

Precision Inspection
T-800C

High-Speed Spectrometer

700 KHz scan rate; images internal tomographic structures through glass and molten metal — for ophthalmic and laser-welding OCT applications.

Spectral Imaging
T-800D

Aerospace-Hardened Edition

Radiation hardening and wide-temperature design for satellite payloads and deep-space imaging in extreme environments, supporting sub-millimeter on-orbit docking guidance.

Aerospace

Our Philosophy

Enabling machines to truly see the world —
with high-speed, high-precision perception chips
driving intelligent manufacturing toward deep space and the microscopic

At Synmewon, we believe perception is where intelligence begins. We don't just build chips — we are defining the infrastructure of next-generation high-speed perception. From factory lines to operating rooms, from robot end-effectors to satellite orbits, our mission is to make every critical scenario precisely perceived and responded to in real time.

01
Extreme Precision
Micron-level 3D reconstruction
02
Real-Time Response
10,000+ fps inline processing
03
Fully Self-Developed
Independent, in-house silicon
04
Expanding Boundaries
From the factory floor to deep space

Burn Algorithms into Silicon
Push the Limits of Perception with Us

Open Positions

Algorithm Engineer

R&D · Full-time
  • Research, design, and implement algorithms for laser line sensors and profilers, covering line structured light (single-line / multi-line / composite grating), point laser, point spectral confocal, line spectral confocal, and 3D reconstruction
  • Develop and optimize image processing algorithms, including preprocessing, laser stripe center extraction, noise suppression, and sub-pixel accuracy optimization
  • Design robust laser stripe decoding algorithms to handle reflections, occlusion, and motion blur in real-world scenarios
  • Support algorithm adaptation and performance optimization for FPGA hardware acceleration (in collaboration with hardware engineers)
  • Work with hardware and software teams to integrate algorithms into products
  • Write technical documentation, contribute to patent filings, and track industry frontiers
Line Laser Point Laser Line Spectral Point Spectral OCT Spectrometer

FPGA Engineer

R&D · Full-time
  • Own the full module development cycle: specification, Verilog RTL design, and unit self-testing
  • Independently build simulation environments; complete module-level simulation, FPGA prototyping, and verification
  • Work with the algorithm team to map algorithms into hardware while meeting resource, timing, and power targets
  • Iterate and optimize RTL code for performance, power efficiency, and interface compatibility
  • Deliver standardized design documents: interface specs, detailed designs, and logic flow diagrams
Competitive PayEquity IncentivesFlexible HoursContinuous LearningTeam EventsPremium Benefits

Contact Us

For partnerships, investment inquiries, or technical exchanges, feel free to reach out anytime.

  • Company Suzhou Synmewon Microelectronics Technology Co., Ltd.
  • Locations Suzhou, Jiangsu | Xi'an, Shanxi · China
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Suzhou Industrial Park

Suzhou Synmewon Microelectronics Technology Co., Ltd.

7F, Building 11, Phase V, International Science Park, SIP  |  Suzhou, Jiangsu

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XJTU Qujiang Campus

Xi'an R&D Center

West Building 4, Qujiang Campus, Xi'an Jiaotong University, Yanxiang Road  |  Yanta District, Xi'an, Shanxi