Recent computing-oriented FPGAs feature DSP blocks including small embedded multipliers. A large integer multiplier, for instance for a double-precision floating-point multiplier, consumes many of these DSP blocks. This article studies three non-standard implementation techniques of large multipliers: the Karatsuba-Ofman algorithm, nonstandard multiplier tiling, and specialized squarers. They allow for large multipliers working at the peak frequency of the DSP blocks while reducing the DSP block usage. Their overhead in term of logic resources, if any, is much lower than that of emulating embedded multipliers. Their latency overhead, if any, is very small. Complete algorithmic descriptions are provided, carefully mapped on recent Xilinx and Altera devices, and validated by synthesis results.
This article studies two common situations where the flexibility of FPGAs allows one to design application-specific floating-point operators which are more efficient and more accurate than those offered by processors and GPUs. First, for applications involving the addition of a large number of floating-point values, an ad-hoc accumulator is proposed. By tailoring its parameters to the numerical requirements of the application, it can be made arbitrarily accurate, at an area cost comparable for most applications to that of a standard floating-point adder, and at a higher frequency. The second example is the sum-of-product operation, which is the building block of matrix computations. A novel architecture is proposed that feeds the previous accumulator out of a floating-point multiplier without its rounding logic, again improving both area and accuracy. These architectures are implemented within the FloPoCo generator, freely available under the GPL.
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