Commit Graph

6 Commits

Author SHA1 Message Date
Joe Ramsay
b39e9db5e3 aarch64: Add vector implementations of exp2 routines
Some routines reuse table from v_exp_data.c
2023-10-23 15:00:45 +01:00
Joe Ramsay
f554334c05 aarch64: Add vector implementations of tan routines
This includes some utility headers for evaluating polynomials using
various schemes.
2023-10-23 15:00:44 +01:00
Joe Ramsay
4a9392ffc2 aarch64: Add vector implementations of exp routines
Optimised implementations for single and double precision, Advanced
SIMD and SVE, copied from Arm Optimized Routines.

As previously, data tables are used via a barrier to prevent
overly aggressive constant inlining. Special-case handlers are
marked NOINLINE to avoid incurring the penalty of switching call
standards unnecessarily.

Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
2023-06-30 09:04:26 +01:00
Joe Ramsay
78c01a5cbe aarch64: Add vector implementations of log routines
Optimised implementations for single and double precision, Advanced
SIMD and SVE, copied from Arm Optimized Routines. Log lookup table
added as HIDDEN symbol to allow it to be shared between AdvSIMD and
SVE variants.

As previously, data tables are used via a barrier to prevent
overly aggressive constant inlining. Special-case handlers are
marked NOINLINE to avoid incurring the penalty of switching call
standards unnecessarily.

Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
2023-06-30 09:04:22 +01:00
Joe Ramsay
3bb1af2051 aarch64: Add vector implementations of sin routines
Optimised implementations for single and double precision, Advanced
SIMD and SVE, copied from Arm Optimized Routines.

As previously, data tables are used via a barrier to prevent
overly aggressive constant inlining. Special-case handlers are
marked NOINLINE to avoid incurring the penalty of switching call
standards unnecessarily.

Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
2023-06-30 09:04:16 +01:00
Joe Ramsay
cd94326a13 Enable libmvec support for AArch64
This patch enables libmvec on AArch64. The proposed change is mainly
implementing build infrastructure to add the new routines to ABI,
tests and benchmarks. I have demonstrated how this all fits together
by adding implementations for vector cos, in both single and double
precision, targeting both Advanced SIMD and SVE.

The implementations of the routines themselves are just loops over the
scalar routine from libm for now, as we are more concerned with
getting the plumbing right at this point. We plan to contribute vector
routines from the Arm Optimized Routines repo that are compliant with
requirements described in the libmvec wiki.

Building libmvec requires minimum GCC 10 for SVE ACLE. To avoid raising
the minimum GCC by such a big jump, we allow users to disable libmvec
if their compiler is too old.

Note that at this point users have to manually call the vector math
functions. This seems to be acceptable to some downstream users.

Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
2023-05-03 12:09:49 +01:00