Library-Based Placement and Routing in FPGAs with Support of Partial Reconfiguration

Abstract: While traditional Field-Programmable Gate Array design flow usually employs fine-grained tile-based placement, modular placement is increasingly required to speed up the large-scale placement and save the synthesis time. Moreover, the commonly used modules can be pre-synthesized and stored in the library for design reuse to significantly save the design, verification time, and development cost. Previous work mainly focuses on modular floorplanning without module placement information. In this article, we propo… Show more

“…The work in [5] is focusing on automating the interface design using simulated annealing while in [6], [7], [8], and [9] the whole floorplanning process for the static system and/or partial modules was automated for RTL designs and demonstrated for a small number of modules. Static system only floorplanning was presented in [10] and [11]. The problem of physically designing relocatable modules was addressed, for example, in [12], [13], and [14].…”

HLS Enabled Partially Reconfigurable Module Implementation

“…The work in [5] is focusing on automating the interface design using simulated annealing while in [6], [7], [8], and [9] the whole floorplanning process for the static system and/or partial modules was automated for RTL designs and demonstrated for a small number of modules. Static system only floorplanning was presented in [10] and [11]. The problem of physically designing relocatable modules was addressed, for example, in [12], [13], and [14].…”

HLS Enabled Partially Reconfigurable Module Implementation

Automatic and Simultaneous Floorplanning and Placement in Field-Programmable Gate Arrays With Dynamic Partial Reconfiguration Based on Genetic Algorithm

Dynamic Module Partitioning for Library Based Placement on Heterogeneous FPGAs