The high performance and capacity of current FPGAs makes them suitable as acceleration co-processors. This article studies the implementation, for such accelerators, of the floating-point power function xy as defined by the C99 and IEEE 754-2008 standards, generalized here to arbitrary exponent and mantissa sizes. Last-bit accuracy at the smallest possible cost is obtained thanks to a careful study of the various subcomponents: a floating-point logarithm, a modified floating-point exponential, and a truncated floating-point multiplier. A parameterized architecture generator in the open-source FloPoCo project is presented in details and evaluated
We disclose hardware (HW) intrinsic CPU or DSP instructions architecture and microarchitecture that ...
Nowadays, there are many commercial demands for decimal floating-point (DFP) arithmetic operations s...
Due to their potential performance and unmatched flexibility, FPGA-based accelerators are part of mo...
The high performance and capacity of current FPGAs makes them suitable as acceleration co-processors...
International audienceThe high performance and capacity of current FPGAs makes them suitable as acce...
International audienceAs FPGAs are increasingly being used for floating-point computing, the feasibi...
This paper presents the design and the implementation of a fully combinatorial floating point unit (...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
© 2023 IEEE. This version of the paper has been accepted for publication. Personal use of this mate...
International audienceThe study of specific hardware circuits for the evaluation of floating-point e...
Many computationally intensive scientific applications involve repetitive floating point operations ...
International audienceThis article presents a floating-point exponential operator generator targetin...
This article addresses the development of complex, heavily parameterized and flexible operators to b...
It has been shown that FPGAs could outperform high-end microprocessors on floating-point computation...
De plus en plus de constructeurs proposent des accélérateurs de calculs à base de circuits reconfigu...
We disclose hardware (HW) intrinsic CPU or DSP instructions architecture and microarchitecture that ...
Nowadays, there are many commercial demands for decimal floating-point (DFP) arithmetic operations s...
Due to their potential performance and unmatched flexibility, FPGA-based accelerators are part of mo...
The high performance and capacity of current FPGAs makes them suitable as acceleration co-processors...
International audienceThe high performance and capacity of current FPGAs makes them suitable as acce...
International audienceAs FPGAs are increasingly being used for floating-point computing, the feasibi...
This paper presents the design and the implementation of a fully combinatorial floating point unit (...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
© 2023 IEEE. This version of the paper has been accepted for publication. Personal use of this mate...
International audienceThe study of specific hardware circuits for the evaluation of floating-point e...
Many computationally intensive scientific applications involve repetitive floating point operations ...
International audienceThis article presents a floating-point exponential operator generator targetin...
This article addresses the development of complex, heavily parameterized and flexible operators to b...
It has been shown that FPGAs could outperform high-end microprocessors on floating-point computation...
De plus en plus de constructeurs proposent des accélérateurs de calculs à base de circuits reconfigu...
We disclose hardware (HW) intrinsic CPU or DSP instructions architecture and microarchitecture that ...
Nowadays, there are many commercial demands for decimal floating-point (DFP) arithmetic operations s...
Due to their potential performance and unmatched flexibility, FPGA-based accelerators are part of mo...