Vectology offers services focusing on five technology areas: FPGA computing; high-speed simulation of numerical computations using FPGAs; small-signal analog/high-frequency analog; FPGA prototyping for ASIC; and chassis design, board design, and support for manufacturing and mass production.

FPGA Computing

Vectology is contributing to the latest FPGA-based IoT industries, including medical, virtual reality, voice/image recognition, deep learning, etc. Vectology’s FPGA computing technology could be the perfect choice for these fields, where highly precise and rapid computation is indispensable. As product developments are getting complicated and advanced, the hurdles for the required computing power are likely to become even higher. The fact that Vectology’s FPGA computing technology is the perfect choice is backed up by its adoption record to date.

• Using FPGA for video processing and arithmetic processing which cannot be realized by CPU/GPU
• A lot of 8K/120fps image processing units
• Development of real-time VR image processing units at 8K/30fps
• Using FPGA for AI-related arithmetic processing devices
• Evaluation environment development for next-generation wireless devices
• Development and implementation of custom calculation IP
  Development of IPs for challenging high-speed serial and advanced calculation

Faster Numerical Computation Simulation using FPGA

Our unique dedicated computing modules, which are at the core of Vectology, can be applied to various fields such as simulation, FPGA contracted development, and edge computing. The benefits are enormous. Because miniaturization has made it possible to implement extremely complicated hardware, algorithms developed for software can be implemented for hardware, realizing additional computing power. And, by using dedicated computing circuits that utilize the features of FPGA, it is now possible to achieve even higher computing power. Unlike other contract developers, Vectology not only constructs testing environments, but also provides total support, from algorithm development to testing environment construction, mounting work, and delivery of computing devices.  Currently, these computing platforms are being implemented at national universities, medical device manufacturers, automobile manufacturers, and communication device manufacturers and are receiving increased attention.

• Using FPGA in automotive, financial, AI and other environments for simulation up to 1,000 times faster
• Delivery record to many research institutions and universities in Japan

Ultra-small Signal Analog/High-frequency Analog

• Per NDA, closed sensor technology (acoustic, electromagnetic, non-visible light, etc.) front-end amplifier to FPGA
• Wireless front-end with more than 10 GHz bandwidth
• Technology for connecting ultra-high speed ADC/DAC to FPGA

 

ASIC-oriented FPGA Prototyping

• Includes selection of FPGA board, research on implementation, and evaluation software for peripherals

 

Chassis Design/Board Design/Production

• • Capable of designing new board using Xilinx FPGAs, as well as manufacturing supports and production
  • Highly experienced in testing, as well as the design, production, and delivery of rack-mount chassis
  • Capable of working with high-frequency, small signals