Pattern-Based FPGA Logic Block and Clustering Algorithm

In classical FPGA, LUTs and DFFs are pre-packed into BLEs and then BLEs are grouped into logic blocks. We propose a novel logic block architecture with fast combinational paths between LUTs, called pattern-based logic blocks. A new clustering algorithm is developed to release the potential of pattern-based logic blocks. Experimental results show that the novel architecture and the associated clustering algorithm lead to a 14% performance gain and a 8% wirelength reduction with a 3% area overhead compared to conventional architecture in large control-instensive benchmarks

On the Use of Directed Moves for Placement in VLSI CAD

Search-based placement methods have long been used for placing integrated circuits targeting the field programmable gate array (FPGA) and standard cell design styles. Such methods offer the potential for high-quality solutions but often come at the cost of long run-times compared to alternative methods. This dissertation examines strategies for enhancing local search heuristics---and in particular, simulated annealing---through the application of directed moves. These moves help to guide a search-based optimizer by focusing efforts on states which are most likely to yield productive improvement, effectively pruning the size of the search space. The engineering theory and implementation details of directed moves are discussed in the context of both field programmable gate array and standard cell designs. This work explores the ways in which such moves can be used to improve the quality of FPGA placements, improve the robustness of floorplan repair and legalization methods for mixed-size standard cell designs, and enhance the quality of detailed placement for standard cell circuits. The analysis presented herein confirms the validity and efficacy of directed moves, and supports the use of such heuristics within various optimization frameworks

The IPS fidelity scale as a guideline to implement Supported Employment

info:eu-repo/semantics/publishe