The library contains a complete set of high level mathematical functions that have been written in C, and uses advanced algorithms to maximize performance levels.
All of the functionality is fully verified, for both single and double precision operations. The RISC-V variant, like the existing variant for ARM, is optimised for both high-speed operation and small code size. The balance between size and speed can be configured at library build time.
The SEGGER Floating-Point Library for RISC-V is much smaller than equivalent open-source libraries currently available, while achieving up to 100 times the performance on some key operations. This library is also a part of the company’s Runtime Library, which is already included in the widely-used Embedded Studio platform.
For details refer to the SEGGER Runtime Library webpage, see the link below.
SEGGER releases Floating-Point Library to support RISC-V
SEGGER's stand-alone Floating-Point Library has now been extended to include an assembly-optimised variant for RISC-V implementations.