The goal of the course is the introduction of the reconfigurable computing paradigm, existing today thanks to the capabilities of electronic devices such as logic programmable devices (FPGAs and CPDs), Multicores and Systems on Programmable Chips (SoPC). The reconfigurable computing is applied to several contest such as telecommunication, aerospace, automotive, biomedical and automotive as well as for the speed-up of scientific and mathematical applications. During the course, theories and methods, design techniques and scientific applications based on the reconfigurable computing paradigm will be presented. Lectures will be supported also with the principal research papers related on the topics.

Computer Architecture, Design of Circuits in Verilog or VHDL

Introduction on reconfigurability. Logic Programmable Devices. Field Programmable Gate Arrays. Dynamic Reconfigurability. Partial and Dynamic reconfiguration. Reconfigurable Placement. Reconfigurable Routing. Network virtualization with FPGAs. On-chip monitoring infrastructures. Dynamically reconfigurable Circuits. Multicore Programmable Devices. Logic Emulation. Fault Simulation. Reconfigurable Coprocessors. Reconfigurable Memory Security. Reconfigurability for aerospace. Automotive reconfigurable platforms. Biomedical reconfigurable applications. Safety reconfigurable computing. Fast mathematic transformation based on reconfigurable computing. Reconfigurable architecture based on 3D devices.

In presenza

Presentazione orale - Test a risposta multipla

P.D.1-1 - Febbraio