Our strategical axes

The institute’s work is organised along three lines of research. The following buttons will show you the assigned projects for each line.

 

Efficient Information Processing

Axis coordinator: Yann Thoma

Our skills in the field of programmable circuits (FPGA/CPLD) and interconnection technologies (high-speed interfaces and buses) lead to innovative solutions in the domain of applications requiring high-speed data processing (hardware acceleration, signal processing, cryptography, etc.).
 
Our realizations rely on a solid experience of digital systems development and verification methodologies (VHDL, SystemVerilog, EDA tools, Matalab Simulink).
 
  • Computing accelerator
  • Hardware implementation tailored to dedicated algorithms (Cryptography, signal processing, etc.)
  • High-speed data communication
  • Co-design and data flow optimization
  • Software for hardware design

Under development


TASYMO

May 2, 2014, 15:16 PM
Technology for interfacing optical measurement systems
Page:
00000000-0000-0000-0000-000000000000
Select a choice:
Terminated
StartDate:
Jan 1, 2014, 00:00 AM
EndDate:
Feb 28, 2015, 00:00 AM

The objective of this project was to create a new reconfigurable and scalable architecture for the interpolation of an incremental signal, that can process more than 15 Gb/s of data. The main target market is the dimensional metrology, with possible applications in other industries.

This project has studied the possibilities offered by the latest generation of FPGA, but also the study of solutions with little material resources and low cost such as DSP-based microcontrollers.

 

axes:
  • Hardware-oriented Efficient Information Processing
domaines-d-application:
Tags:

Completed projects


TASYMO

May 2, 2014, 15:16 PM
Technology for interfacing optical measurement systems
Page:
00000000-0000-0000-0000-000000000000
Select a choice:
Terminated
StartDate:
Jan 1, 2014, 00:00 AM
EndDate:
Feb 28, 2015, 00:00 AM

The objective of this project was to create a new reconfigurable and scalable architecture for the interpolation of an incremental signal, that can process more than 15 Gb/s of data. The main target market is the dimensional metrology, with possible applications in other industries.

This project has studied the possibilities offered by the latest generation of FPGA, but also the study of solutions with little material resources and low cost such as DSP-based microcontrollers.

 

axes:
  • Hardware-oriented Efficient Information Processing
domaines-d-application:
Tags: