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Commit Graph

32 Commits

Author SHA1 Message Date
Rémi Denis-Courmont
29b9d616c2 lavu/float_dsp: rework RISC-V V scalar product
1) Take the reductive sum out of the loop,
   leaving a regular vector addition in the loop.
2) Merge the addition and the multiplication.
3) Unroll.

Before:
scalarproduct_float_rvv_f32: 832.5

After:
scalarproduct_float_rvv_f32: 275.2
2023-07-20 22:54:34 +03:00
Rémi Denis-Courmont
b710f881ce lavu/float_dsp: unroll RISC-V V loops
butterflies_float_c: 1057.0
butterflies_float_rvv_f32: 351.0 (before)
butterflies_float_rvv_f32: 329.5 (after)

vector_dmac_scalar_c: 819.0
vector_dmac_scalar_rvv_f64: 670.5 (before)
vector_dmac_scalar_rvv_f64: 431.0 (after)

vector_dmul_c: 800.2
vector_dmul_rvv_f64: 541.5 (before)
vector_dmul_rvv_f64: 426.0 (after)

vector_dmul_scalar_c: 545.7
vector_dmul_scalar_rvv_f64: 670.7 (before)
vector_dmul_scalar_rvv_f64: 324.7 (after)

vector_fmac_scalar_c: 804.5
vector_fmac_scalar_rvv_f32: 412.7 (before)
vector_fmac_scalar_rvv_f32: 214.5 (after)

vector_fmul_c: 811.2
vector_fmul_rvv_f32: 285.7 (before)
vector_fmul_rvv_f32: 214.2 (after)

vector_fmul_add_c: 1313.0
vector_fmul_add_rvv_f32: 349.0 (before)
vector_fmul_add_rvv_f32: 290.2 (after)

vector_fmul_reverse_c: 815.7
vector_fmul_reverse_rvv_f32: 529.2 (before)
vector_fmul_reverse_rvv_f32: 515.7 (after)

vector_fmul_scalar_c: 546.0
vector_fmul_scalar_rvv_f32: 350.2 (before)
vector_fmul_scalar_rvv_f32: 169.5 (after)
2023-07-20 22:54:34 +03:00
Rémi Denis-Courmont
b6585eb04c lavu: add/use flag for RISC-V Zba extension
The code was blindly assuming that Zbb or V implied Zba. While the
earlier is practically always true, the later broke some QEMU setups,
as V was introduced earlier than Zba.
2023-07-19 19:29:35 +03:00
Rémi Denis-Courmont
3d79afbe70 lavu/fixed_dsp: unroll RISC-V V loop
Before:
butterflies_fixed_c: 804.7
butterflies_fixed_rvv_i32: 348.2

After:
butterflies_fixed_rvv_i32: 308.7
2023-07-17 18:48:42 +03:00
Rémi Denis-Courmont
0e580806d8 riscv/intmath: use builtins for counting ones
As with the earlier bswap change, all versions of GCC and Clang that
support RISC-V support the popcount built-ins, so we can just use them
instead of inline assembler.
2023-05-02 22:08:25 +02:00
Rémi Denis-Courmont
7dcb5e1ab0 riscv/bswap: use compiler builtins
av_bswapXX() are used in context that expect exact size types, notably
variable arguments to av_log(). On Linux RV64, uint_fast32_t is an
unsigned long, so the current inline assembler does not work properly.

Since GCC and Clang gained their byte-swap built-ins before they
supported RISC-V, we can simply defer to them. As an added bonus, the
compiler can do instruction scheduling, which it couldn't with the Zbb
inline assembler.
2023-05-02 22:08:21 +02:00
Rémi Denis-Courmont
96a83ceea4 riscv: fix scalar product initialisation
VSETVLI xd, x0, ...' has rather nonobvious semantics:
- If xd is x0, then it preserves the current vector length.
- If xd is not x0, it sets the vector length to the supported maximum.

Also somewhat confusingly, while VMV.X.S always does its thing
regardless of the selected vector length, VMV.S.X does _nothing_ if the
selected vector length is zero.

So the current code breaks fails to initialise the accumulator if we
are unlucky to have a selected vector length of zero on entry. Fix it
by forcing the vector length to one.
2022-10-13 10:17:38 +02:00
Rémi Denis-Courmont
f59a767ccd lavu/riscv: helper macro for VTYPE encoding
On most cases, the vector type (VTYPE) for the RISC-V Vector extension
is supplied as an immediate value, with either of the VSETVLI or
VSETIVLI instructions. There is however a third instruction VSETVL
which takes the vector type from a general purpose register. That is so
the type can be selected at run-time.

This introduces a macro to load a (valid) vector type into a register.
The syntax follows that of VSETVLI and VSETIVLI, with element size,
group multiplier, then tail and mask policies.
2022-10-10 02:22:12 +02:00
Rémi Denis-Courmont
37d5ddc317 lavu/riscv: CPU flag for the Zbb extension
Unfortunately, it is common, and will remain so, that the Bit
manipulations are not enabled at compilation time. This is an official
policy for Debian ports in general (though they do not support RISC-V
officially as of yet) to stick to the minimal target baseline, which
does not include the B extension or even its Zbb subset.

For inline helpers (CPOP, REV8), compiler builtins (CTZ, CLZ) or
even plain C code (MIN, MAX, MINU, MAXU), run-time detection seems
impractical. But at least it can work for the byte-swap DSP functions.
2022-10-05 08:26:19 +02:00
Rémi Denis-Courmont
3ba5579e55 riscv: remove unnecessary #include's
Pointed out by Andreas Rheinhardt.
2022-10-05 06:54:56 +02:00
Rémi Denis-Courmont
c47ebfa141 lavu/riscv: helper to read the vector length 2022-09-28 11:43:17 +02:00
Rémi Denis-Courmont
c1bb19e263 lavu/fixeddsp: RISC-V V butterflies_fixed 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
cd77662953 lavu/floatdsp: RISC-V V scalarproduct_float 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
b493370662 lavu/floatdsp: RISC-V V vector_fmul_window 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
9aeb6aca3a lavu/floatdsp: RISC-V V vector_fmul_reverse 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
47ce9735cc lavu/floatdsp: RISC-V V butterflies_float 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
f4ea45040f lavu/floatdsp: RISC-V V vector_fmul_add 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
d120ab5b91 lavu/floatdsp: RISC-V V vector_dmac_scalar 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
c3db27ba95 lavu/floatdsp: RISC-V V vector_fmac_scalar 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
da169a210d lavu/floatdsp: RISC-V V vector_dmul 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
7058af9969 lavu/floatdsp: RISC-V V vector_fmul 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
89b7ec65a8 lavu/floatdsp: RISC-V V vector_dmul_scalar 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
a6c10d05fe lavu/floatdsp: RISC-V V vector_fmul_scalar
This is based on existing code from the VLC git tree with two minor
changes to account for the different function prototypes.
2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
39357cad37 lavu/riscv: fallback macros for SH{1, 2, 3}ADD
Those mnemonics require the very latest binutils release at the time of
writing. These macros provide seamless backward compatibility.
2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
0c0a3deb18 lavu/cpu: CPU flags for the RISC-V Vector extension
RVV defines a total of 12 different extensions, including:

- 5 different instruction subsets:
  - Zve32x: 8-, 16- and 32-bit integers,
  - Zve32f: Zve32x plus single precision floats,
  - Zve64x: Zve32x plus 64-bit integers,
  - Zve64f: Zve32f plus Zve64x,
  - Zve64d: Zve64f plus double precision floats.

- 6 different vector lengths:
  - Zvl32b (embedded only),
  - Zvl64b (embedded only),
  - Zvl128b,
  - Zvl256b,
  - Zvl512b,
  - Zvl1024b,

- and the V extension proper: equivalent to Zve64f and Zvl128b.

In total, there are 6 different possible sets of supported instructions
(including the empty set), but for convenience we allocate one bit for
each type sets: up-to-32-bit ints (RVV_I32), floats (RVV_F32),
64-bit ints (RVV_I64) and doubles (RVV_F64).

Whence the vector size is needed, it can be retrieved by reading the
unprivileged read-only vlenb CSR. This should probably be a separate
helper macro if needed at a later point.
2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
746f1ff36a lavu/riscv: initial common header for assembler macros 2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
b95e2fbd85 lavu/cpu: detect RISC-V base extensions
This introduces compile-time and run-time CPU detection on RISC-V. In
practice, I doubt that FFmpeg will ever see a RISC-V CPU without all of
I, F and D extensions, and if it does, it probably won't have run-time
detection. So the flags are essentially always set.

But as things stand, checkasm wants them that way. Compare the ARMV8
flag on AArch64. We are nowhere near running short on CPU flag bits.
2022-09-27 13:19:52 +02:00
Rémi Denis-Courmont
6df3ad9687 lavu/riscv: fix off-by-one in bit-magnitude clip 2022-09-15 18:11:12 -03:00
Rémi Denis-Courmont
a5ce44f301 lavu/riscv: fix av_clip_int16
Some serious copy-paste / squash / rebase mismanipulation here.

Signed-off-by: James Almer <jamrial@gmail.com>
2022-09-14 14:37:21 -03:00
Rémi Denis-Courmont
c177108ae1 lavu/riscv: add <intmath.h> optimisations
This provides some micro-optimisations for signed integer clipping, and
support for bit weight with the Zbb extension.
2022-09-13 16:50:43 -03:00
Rémi Denis-Courmont
df2057041b lavu/riscv: byte-swap operations
If the target supports the Basic bit-manipulation (Zbb) extension, then
the REV8 instruction is available to reverse byte order.

Note that this instruction only exists at the "XLEN" register size,
so we need to right shift the result down to the data width.

If Zbb is not supported, then this patchset does nothing. Support for
run-time detection is left for the future. Currently, there are no
bits in auxv/ELF HWCAP for Z-extensions, so there are no clean ways to
do this.
2022-09-13 16:50:43 -03:00
Rémi Denis-Courmont
d808070547 lavu/riscv: AV_READ_TIME cycle counter
This uses the architected RISC-V 64-bit cycle counter from the
RISC-V unprivileged instruction set.

In 64-bit and 128-bit, this is a straightforward CSR read.
In 32-bit mode, the 64-bit value is exposed as two CSRs, which
cannot be read atomically, so a loop is necessary to detect and fix up
the race condition where the bottom half wraps exactly between the two
reads.
2022-09-13 16:50:43 -03:00