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An FPGA implementation requires a significant effort of the hardware designer, who optimizes FPGA designs by going through many time-consuming CAD flow iterations. These iterations provide two types of feedback: (1) the FPGA performance and (2) the identification of the parts having the highest impact on the FPGA performance. Both depend on the wirelength behavior. Studies have been dedicated to the...
Dynamic Circuit Specialisation (DCS) is a technique that uses the reconfigurability of an FPGA to optimise a circuit during run-time, thus achieving higher performance and lower resource cost. However, run-time reconfiguration causes transitional effects that form an important problem for DCS. Because of these, the DCS circuit cannot be used while it is being reconfigured. This limits the usability...
Using dynamic partial reconfiguration (DPR), several circuits can be time-multiplexed on the same FPGA region, saving considerable area compared to an implementation without DPR. However, the long reconfiguration time to switch between circuits remains a significant problem. In this work we show that it is possible to significantly reduce this overhead when the number of circuits is limited. We lower...
A multi-mode circuit implements the functionality of a limited number of circuits, called modes, of which at any given time only one needs to be realised. Using dynamic partial reconfiguration of an FPGA, all the modes can be implemented on the same reconfigurable region, requiring only an area that can contain the biggest mode. This can save considerable chip area. Conventional dynamic partial reconfiguration...
Dynamic Circuit Specialization (DCS) is an optimization technique used for implementing a parameterized application on an FPGA. The application is said to be parameterized when some of its inputs, called parameters, are infrequently changing compared to the other inputs. Instead of implementing these parameter inputs as regular inputs, in the DCS approach these inputs are implemented as constants...
Fine grained Field Programmable Gate Arrays (FPGA) are complex to program and therefore suffer from high development costs. To solve this problem, Virtual Coarse Grained Reconfigurable Arrays (Virtual CGRA), or CGRAs implemented on FPGAs, have been proposed. Conventional implementations of VCGRAs use functional FPGA resources, such as LookUp Tables, to implement the virtual switch blocks, registers...
Parameterised configurations for FPGAs are configuration bitstreams of which part of the bits are defined as Boolean functions of parameters. By evaluating these Boolean functions using different parameter values, it is possible to quickly and efficiently derive specialised configuration bitstreams with different properties. An important application of parameterised configurations is the generation...
Previous work has shown that run-time reconfiguration of FPGAs benefits greatly from the use of Tunable LUT (TLUT) circuits. These can be rapidly transformed into a specialized LUT circuit and are also very memory efficient when representing regularly structured designs, where the same hardware module is instantiated many times. However, the memory requirements and reconfiguration time of a run-time...
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