01/ Special Purpose Computers
High performance embedded and airborne computers for various real-time applications including Full-HD video processing.
Hardware accelerators based on FPGA for complex algorithms and time-consuming tasks.
Fault-tolerant computers with structural redundancy (2-оut-of-3 and other architectures) for systems with strong requirements on functional safety and security.
Industrial and specialized controllers for Internet of Things (IoT) and autonomous robotic systems featured by high number of sensors and actuators, computer vision and satellite navigation functions
02 / IP-cores for FPGA and ASICs
IP cores for image and video processing in embedded and airborne systems solve real-time tasks of video rectification and analysis such as pattern recognition, stereo-vision, optical distortions compensation, panoramic photography.
IP cores of digital signal processing for broadband radio channels provide the echo and distortion compensation, channel equalizing and precise synchronization of base stations and repeaters in the modern digital broadcasting networks.
IP cores of intra-system communications provide the solutions for high-performance, multiple core and complex data path systems on FPGA and ASICs.
IP cores of software configurable logic open the way to flexible in-chip solutions with a deep parameterization and control by the user.
03 / Telecommunication Equipment
Trusted switches and routers for backbone trunks, corporate level and local area Ethernet networks applied FPGA-based solutions for the security threats counteraction.
Firewalls and security gateways for building reliable, secure and fault-tolerant networks. Independent security design allows mitigating backdoors and trojans in the network devices and components that are non-trusted or hacked.
High performance packet brokers for metro-level networks performing classification, analysis and extraction by user-defined rules the network traffic at any protocol level (L2 to L7).
Navigation equipment provides automatic detection of coordinates, time, speed, spatial orientation angles by GPS/GNSS signals. In addition, the navigation devices support multi-channel, fault-tolerant communication to control centers over HF/UHF radio, GSM cellular networks and satellite links.
04 / Legacy Systems Hardware Reengineering
Reengineering (the hardware update) of legacy systems keeps unchanged the architecture and instruction set of the original platform, supporting longer life cycle of complex and valuable systems contained obsolete components and aged parts with expired servicing. Reengineering project eliminates the necessity of software modification or re-skilling of staff. The binary level compatibility of the code is implemented by complete legacy system hardware emulation on FPGA level.
InChip.Tech Company - Hardware Design Center.
The main directions of activity are the engineering and creation of specialized computers and compute modules, IP-cores for FPGAs and ASICs, embedded software and hardware components for telecommunication equipment and communication systems, IC design.
Among our partners there are research groups, electronic industry companies and associations.
Our specialists possess deep experience in implementation of the complex and scientific-intensive projects. The project list includes the integrated communication systems, fault-tolerant computers, antijam radio, digital signal processors, video broadcasting systems, industrial and consumer electronics.
To create hardware and software solutions, we use our own design technology BASIS, which is a set of basic technologies and tools integrated into a single design path. This allows us to effectively create targeted solutions with advanced technical characteristics.