The programmable imperative—the critical need to achieve more with less, to reduce risks wherever possible, and to quickly create differentiated products using programmable hardware design platforms—is driving the search for FPGA-based solutions that provide the capacity, lower power, and higher bandwidth with which users can create the system-level functionality currently delivered by ASICs and ASSPs.
Xilinx has developed an innovative approach for designing and manufacturing FPGAs that address two key requirements of the programmable imperative. Stacked silicon interconnect technology is the foundation of a new generation of FPGAs that breaks through the limitations of Moore’s law and delivers the capabilities to satisfy the most demanding design requirements. It also enables Xilinx to reduce the time required to deliver the largest FPGAs in the quantities needed to satisfy end-customer volume production requirements. This white paper explores the technical and economic challenges that led Xilinx to develop stacked silicon interconnect technology and innovations that make it possible.
Author: Patrick Dorsey, Xilinx