International audienceAs FPGAs are increasingly being used for floating-point computing, the feasibility of a library of floating-point elementary functions for FPGAs is discussed. An initial implementation of such a library contains parameterized operators for the logarithm and exponential functions. In single precision, those operators use a small fraction of the FPGA's resources, have a smaller latency than their software equivalent on a high-end processor, and provide about ten times the throughput in pipelined version. Previous work had shown that FPGAs could use massive parallelism to balance the poor performance of their basic floating-point operators compared to the equivalent in processors. As this work shows, when evaluating an el...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...
International audienceElementary functions from the mathematical library input and output floating-p...
New hardware FPGA implementations for the efficient computations of division, natural logarithm and ...
International audienceAs FPGAs are increasingly being used for floating-point computing, the feasibi...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
International audienceThe study of specific hardware circuits for the evaluation of floating-point e...
International audienceThis article presents a floating-point exponential operator generator targetin...
Abstract—This article presents a floating-point exponential operator generator targeting recent FPGA...
The high performance and capacity of current FPGAs makes them suitable as acceleration co-processors...
It has been shown that FPGAs could outperform high-end microprocessors on floating-point computation...
Elementary function design has recently been added yet another level of flexibility with the integra...
International audienceThe high performance and capacity of current FPGAs makes them suitable as acce...
This article addresses the development of complex, heavily parameterized and flexible operators to b...
In recent years we have investigated the use of a logarithmic number representation as an alternativ...
Many computationally intensive scientific applications involve repetitive floating point operations ...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...
International audienceElementary functions from the mathematical library input and output floating-p...
New hardware FPGA implementations for the efficient computations of division, natural logarithm and ...
International audienceAs FPGAs are increasingly being used for floating-point computing, the feasibi...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
International audienceThe study of specific hardware circuits for the evaluation of floating-point e...
International audienceThis article presents a floating-point exponential operator generator targetin...
Abstract—This article presents a floating-point exponential operator generator targeting recent FPGA...
The high performance and capacity of current FPGAs makes them suitable as acceleration co-processors...
It has been shown that FPGAs could outperform high-end microprocessors on floating-point computation...
Elementary function design has recently been added yet another level of flexibility with the integra...
International audienceThe high performance and capacity of current FPGAs makes them suitable as acce...
This article addresses the development of complex, heavily parameterized and flexible operators to b...
In recent years we have investigated the use of a logarithmic number representation as an alternativ...
Many computationally intensive scientific applications involve repetitive floating point operations ...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...
International audienceElementary functions from the mathematical library input and output floating-p...
New hardware FPGA implementations for the efficient computations of division, natural logarithm and ...