Create core library using high priority operators
A smaller core library is created using a subset of the operators.
Changed the structure of filelist.json in order to include more
information about the kernels and make the selection easier.
Resolves: COMPMID-4514
Change-Id: I079ca7d8e64346174eebdd13b834e1dd4dc36ca2
Signed-off-by: Michalis Spyrou <michalis.spyrou@arm.com>
Reviewed-on: https://review.mlplatform.org/c/ml/ComputeLibrary/+/5786
Tested-by: Arm Jenkins <bsgcomp@arm.com>
Reviewed-by: Georgios Pinitas <georgios.pinitas@arm.com>
Comments-Addressed: Arm Jenkins <bsgcomp@arm.com>
diff --git a/src/core/NEON/kernels/arm_gemm/gemm_quint8.cpp b/src/core/NEON/kernels/arm_gemm/gemm_quint8.cpp
index be27b3a..f3f2f33 100644
--- a/src/core/NEON/kernels/arm_gemm/gemm_quint8.cpp
+++ b/src/core/NEON/kernels/arm_gemm/gemm_quint8.cpp
@@ -50,12 +50,12 @@
static const GemmImplementation<uint8_t, uint8_t, Requantize32> gemm_quint8_methods[] =
{
-#ifdef __ARM_FEATURE_SVE
-#ifdef MMLA_INT8
+#ifdef ARM_COMPUTE_ENABLE_SVE
+#ifdef ARM_COMPUTE_ENABLE_I8MM
{
GemmMethod::GEMM_INTERLEAVED,
"sve_interleaved_u8u32_mmla_8x3VL",
- [](const GemmArgs &args, const Requantize32 &) { return args._ci->has_sve() && (args._Ksize>8); },
+ [](const GemmArgs &args, const Requantize32 &) { return args._ci->has_svei8mm() && (args._Ksize>8); },
[](const GemmArgs &args, const Requantize32 &) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
[](const GemmArgs &args, const Requantize32 &qp) { return new GemmInterleavedQuantized<cls_sve_interleaved_u8u32_mmla_8x3VL, uint8_t, uint8_t>(args, qp); }
},
@@ -67,15 +67,15 @@
[](const GemmArgs &args, const Requantize32 &) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
[](const GemmArgs &args, const Requantize32 &qp) { return new GemmHybridQuantized<cls_sve_smallK_hybrid_u8u32_dot_8x1VL, uint8_t, uint8_t>(args, qp); }
},
-#ifdef SVE2 // Requantizing kernels include some SVE2 only instructions (SQRDMULH, SRSHL)
+#ifdef ARM_COMPUTE_ENABLE_SVE2 // Requantizing kernels include some SVE2 only instructions (SQRDMULH, SRSHL)
{
GemmMethod::GEMM_HYBRID,
"sve_hybrid_u8qa_dot_4x4VL",
- [](const GemmArgs &args, const Requantize32 &qp) { return args._ci->has_sve() && quant_hybrid_asymmetric(qp); },
+ [](const GemmArgs &args, const Requantize32 &qp) { return args._ci->has_sve2() && quant_hybrid_asymmetric(qp); },
[](const GemmArgs &args, const Requantize32 &) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
[](const GemmArgs &args, const Requantize32 &qp) { return new GemmHybridIndirect<cls_sve_hybrid_u8qa_dot_4x4VL, uint8_t, uint8_t, Requantize32>(args, qp); }
},
-#endif
+#endif // ARM_COMPUTE_ENABLE_SVE2
{
GemmMethod::GEMM_HYBRID,
"sve_hybrid_u8u32_dot_6x4VL",
@@ -91,11 +91,11 @@
[](const GemmArgs &args, const Requantize32 &qp) { return new GemmInterleavedQuantized<cls_sve_interleaved_u8u32_dot_8x3VL, uint8_t, uint8_t>(args, qp); }
},
#endif
-#ifdef MMLA_INT8
+#ifdef ARM_COMPUTE_ENABLE_I8MM
{
GemmMethod::GEMM_INTERLEAVED,
"a64_interleaved_u8u32_mmla_8x12",
- [](const GemmArgs &args, const Requantize32 &) { return (args._Ksize>8); },
+ [](const GemmArgs &args, const Requantize32 &) { return args._ci->has_i8mm() && (args._Ksize>8); },
[](const GemmArgs &args, const Requantize32 &) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
[](const GemmArgs &args, const Requantize32 &qp) { return new GemmInterleavedQuantized<cls_a64_interleaved_u8u32_mmla_8x12, uint8_t, uint8_t>(args, qp); }
},