Frank Hannig, Moritz Schmid, Vahid Lari, Srinivas Boppu, J. Teich
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System integration of tightly-coupled processor arrays using reconfigurable buffer structures
As data locality is a key factor for the acceleration of loop programs on processor arrays, we propose a buffer architecture that can be configured at run-time to select between different schemes for memory access. In addition to traditional address-based memory banks, the buffer architecture can deliver data in a streaming manner to the processing elements of the array, which supports dense and sparse stencil operations. Moreover, to minimize data transfers to the buffers, the design contains an interlinked mode, which is especially targeted at 2-D kernel computations. The buffers can be used individually to achieve high data throughput by utilizing a maximum number of I/O channels to the array, or concatenated to provide higher storage capacity at a reduced amount of I/O channels.
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