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#include <cassert> |
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#include <cstddef> |
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#include <limits> |
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#include <xnnpack.h> |
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#include <xnnpack/aarch64-assembler.h> |
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#include <xnnpack/gemm.h> |
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#include <xnnpack/memory.h> |
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#include <xnnpack/microparams.h> |
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#include <xnnpack/post-operation.h> |
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namespace xnnpack { |
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namespace aarch64 { |
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namespace { |
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class Generator : public MacroAssembler { |
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using MacroAssembler::MacroAssembler; |
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public: |
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void generate(bool prefetch, size_t max_mr, size_t nc_mod_nr, size_t kc, const jit_gemm_params* jit_gemm_params); |
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void perform_post_operations(size_t max_mr, size_t num_post_operations, const xnn_post_operation* post_operations); |
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}; |
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void Generator::generate(bool prefetch, size_t max_mr, size_t nc_mod_nr, size_t kc, const jit_gemm_params* jit_gemm_params) |
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{ |
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assert(max_mr <= 1); |
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assert(nc_mod_nr < 8); |
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assert(kc != 0); |
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assert(kc % sizeof(float) == 0); |
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Label l0, l1, l2, l3, l4, l5, l6, l7, l8, l9, l10, l11, l12; |
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const size_t num_post_operations = jit_gemm_params->num_post_operations; |
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const xnn_post_operation* post_operations = jit_gemm_params->post_operations; |
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const float min = jit_gemm_params->f32_minmax.min; |
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const float max = jit_gemm_params->f32_minmax.max; |
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const bool clamp_min = min != -std::numeric_limits<float>::infinity(); |
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const bool clamp_max = max != +std::numeric_limits<float>::infinity(); |
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assert(num_post_operations == 0 || (!clamp_min && !clamp_max)); |
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ldp(x14, x8, mem[sp]); |
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if (clamp_min || clamp_max) { |
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ld2r({v4.v4s(), v5.v4s()}, mem[x8]); |
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} |
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bind(l0); |
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ldp(q16, q17, mem[x5], 32); |
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movi(v18.v4s(), 0); |
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if (prefetch) { |
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prfm(kPLDL1KEEP, mem[x5]); |
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} |
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movi(v19.v4s(), 0); |
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if (prefetch) { |
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prfm(kPLDL1KEEP, mem[x5, 64]); |
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prfm(kPLDL1KEEP, mem[x5, 128]); |
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prfm(kPLDL1KEEP, mem[x5, 192]); |
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} |
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subs(x0, x2, 32); |
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b_lo(l3); |
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ldp(q20, q21, mem[x5], 32); |
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ldp(q22, q23, mem[x5], 32); |
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ldp(q24, q25, mem[x5], 32); |
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ldp(q26, q27, mem[x5], 32); |
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ldr(q0, mem[x3], 16); |
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subs(x0, x0, 32); |
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b_lo(l2); |
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bind(l1); |
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fmla(v16.v4s(), v20.v4s(), v0.s()[0]); |
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ldr(q1, mem[x3], 16); |
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fmla(v17.v4s(), v21.v4s(), v0.s()[0]); |
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ldp(q20, q21, mem[x5], 32); |
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fmla(v18.v4s(), v22.v4s(), v0.s()[1]); |
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if (prefetch) { |
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prfm(kPLDL1KEEP, mem[x5, 96]); |
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} |
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fmla(v19.v4s(), v23.v4s(), v0.s()[1]); |
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ldp(q22, q23, mem[x5], 32); |
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fmla(v16.v4s(), v24.v4s(), v0.s()[2]); |
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fmla(v17.v4s(), v25.v4s(), v0.s()[2]); |
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ldp(q24, q25, mem[x5], 32); |
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fmla(v18.v4s(), v26.v4s(), v0.s()[3]); |
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fmla(v19.v4s(), v27.v4s(), v0.s()[3]); |
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ldp(q26, q27, mem[x5], 32); |
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fmla(v16.v4s(), v20.v4s(), v1.s()[0]); |
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ldr(q0, mem[x3], 16); |
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fmla(v17.v4s(), v21.v4s(), v1.s()[0]); |
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ldp(q20, q21, mem[x5], 32); |
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fmla(v18.v4s(), v22.v4s(), v1.s()[1]); |
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fmla(v19.v4s(), v23.v4s(), v1.s()[1]); |
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ldp(q22, q23, mem[x5], 32); |
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fmla(v16.v4s(), v24.v4s(), v1.s()[2]); |
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fmla(v17.v4s(), v25.v4s(), v1.s()[2]); |
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ldp(q24, q25, mem[x5], 32); |
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fmla(v18.v4s(), v26.v4s(), v1.s()[3]); |
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fmla(v19.v4s(), v27.v4s(), v1.s()[3]); |
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subs(x0, x0, 32); |
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ldp(q26, q27, mem[x5], 32); |
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b_hs(l1); |
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bind(l2); |
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fmla(v16.v4s(), v20.v4s(), v0.s()[0]); |
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ldr(q1, mem[x3], 16); |
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fmla(v17.v4s(), v21.v4s(), v0.s()[0]); |
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ldp(q20, q21, mem[x5], 32); |
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fmla(v18.v4s(), v22.v4s(), v0.s()[1]); |
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fmla(v19.v4s(), v23.v4s(), v0.s()[1]); |
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ldp(q22, q23, mem[x5], 32); |
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fmla(v16.v4s(), v24.v4s(), v0.s()[2]); |
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fmla(v17.v4s(), v25.v4s(), v0.s()[2]); |
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ldp(q24, q25, mem[x5], 32); |
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fmla(v18.v4s(), v26.v4s(), v0.s()[3]); |
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fmla(v19.v4s(), v27.v4s(), v0.s()[3]); |
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ldp(q26, q27, mem[x5], 32); |
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fmla(v16.v4s(), v20.v4s(), v1.s()[0]); |
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fmla(v17.v4s(), v21.v4s(), v1.s()[0]); |
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fmla(v18.v4s(), v22.v4s(), v1.s()[1]); |
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fmla(v19.v4s(), v23.v4s(), v1.s()[1]); |
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fmla(v16.v4s(), v24.v4s(), v1.s()[2]); |
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fmla(v17.v4s(), v25.v4s(), v1.s()[2]); |
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fmla(v18.v4s(), v26.v4s(), v1.s()[3]); |
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fmla(v19.v4s(), v27.v4s(), v1.s()[3]); |
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bind(l3); |
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tbnz(x0, 4, l5); |
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tbnz(x0, 3, l6); |
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tbnz(x0, 2, l8); |
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bind(l4); |
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fadd(v16.v4s(), v16.v4s(), v18.v4s()); |
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subs(x1, x1, 8); |
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fadd(v17.v4s(), v17.v4s(), v19.v4s()); |
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if (clamp_min) { |
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fmax(v16.v4s(), v16.v4s(), v4.v4s()); |
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fmax(v17.v4s(), v17.v4s(), v4.v4s()); |
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} |
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if (clamp_max) { |
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fmin(v16.v4s(), v16.v4s(), v5.v4s()); |
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fmin(v17.v4s(), v17.v4s(), v5.v4s()); |
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} |
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perform_post_operations(max_mr, num_post_operations, post_operations); |
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b_lo(l9); |
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stp(q16, q17, mem[x6]); |
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add(x6, x6, x14); |
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sub(x3, x3, x2); |
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b_hi(l0); |
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ret(); |
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bind(l5); |
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ldp(q20, q21, mem[x5], 32); |
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ldr(q0, mem[x3], 16); |
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fmla(v16.v4s(), v20.v4s(), v0.s()[0]); |
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fmla(v17.v4s(), v21.v4s(), v0.s()[0]); |
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ldp(q22, q23, mem[x5], 32); |
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ldp(q24, q25, mem[x5], 32); |
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ldp(q26, q27, mem[x5], 32); |
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fmla(v18.v4s(), v22.v4s(), v0.s()[1]); |
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fmla(v19.v4s(), v23.v4s(), v0.s()[1]); |
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fmla(v16.v4s(), v24.v4s(), v0.s()[2]); |
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fmla(v17.v4s(), v25.v4s(), v0.s()[2]); |
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fmla(v18.v4s(), v26.v4s(), v0.s()[3]); |
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fmla(v19.v4s(), v27.v4s(), v0.s()[3]); |
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tbz(x0, 3, l7); |
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bind(l6); |
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ldp(q20, q21, mem[x5], 32); |
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ldr(d0, mem[x3], 8); |
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fmla(v16.v4s(), v20.v4s(), v0.s()[0]); |
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fmla(v17.v4s(), v21.v4s(), v0.s()[0]); |
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ldp(q22, q23, mem[x5], 32); |
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fmla(v18.v4s(), v22.v4s(), v0.s()[1]); |
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fmla(v19.v4s(), v23.v4s(), v0.s()[1]); |
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bind(l7); |
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tbz(x0, 2, l4); |
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bind(l8); |
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ldp(q20, q21, mem[x5], 32); |
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ldr(s0, mem[x3], 4); |
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fmla(v16.v4s(), v20.v4s(), v0.s()[0]); |
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fmla(v17.v4s(), v21.v4s(), v0.s()[0]); |
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b(l4); |
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bind(l9); |
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tbz(x1, 2, l10); |
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str(q16, mem[x6], 16); |
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mov(v16.v16b(), v17.v16b()); |
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bind(l10); |
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tbz(x1, 1, l11); |
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str(d16, mem[x6], 8); |
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dup(d16, v16.d()[1]); |
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bind(l11); |
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tbz(x1, 0, l12); |
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str(s16, mem[x6]); |
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bind(l12); |
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ret(); |
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align(16, AlignInstruction::kHlt); |
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} |
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void Generator::perform_post_operations( |
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size_t max_mr, |
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size_t num_post_operations, |
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const xnn_post_operation* post_operations) |
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{ |
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if (num_post_operations == 0) { |
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return; |
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} |
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for (size_t i = 0; i < num_post_operations; i++) { |
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switch (post_operations[i].op_type) { |
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case xnn_post_operation_type_hardswish: { |
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const auto sixth = v0.v4s(); |
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const auto three = v1.v4s(); |
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const auto six = v2.v4s(); |
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const auto zero = v3.v4s(); |
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ld3r({sixth, three, six}, mem[x8]++); |
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movi(zero, 0); |
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const VRegister accs[] = { |
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v16.v4s(), v17.v4s(), |
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}; |
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const VRegister tmps[] = {v4.v4s(), v5.v4s()}; |
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f32_hardswish(sixth, three, six, zero, &accs[0], XNN_COUNT_OF(accs), &tmps[0], XNN_COUNT_OF(tmps)); |
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break; |
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} |
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default: |
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XNN_UNREACHABLE; |
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} |
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} |
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} |
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} |
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} |
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} |
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xnn_status_t xnn_generate_f32_gemm_ukernel_1x8__aarch64_neonfma_cortex_a75(xnn_code_buffer* code, size_t max_mr, size_t nc_mod_nr, size_t kc, const void* params) { |
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using namespace xnnpack::aarch64; |
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Generator g(code); |
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assert(params != nullptr); |
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g.generate(false, max_mr, nc_mod_nr, kc, static_cast<const jit_gemm_params*>(params)); |
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g.finalize(); |
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if (g.error() != xnnpack::Error::kNoError) { |
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return xnn_status_invalid_state; |
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} |
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return xnn_status_success; |
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} |
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xnn_status_t xnn_generate_f32_gemm_ukernel_1x8__aarch64_neonfma_cortex_a75_prfm(xnn_code_buffer* code, size_t max_mr, size_t nc_mod_nr, size_t kc, const void* params) { |
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using namespace xnnpack::aarch64; |
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Generator g(code); |
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assert(params != nullptr); |
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g.generate(true, max_mr, nc_mod_nr, kc, static_cast<const jit_gemm_params*>(params)); |
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g.finalize(); |
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if (g.error() != xnnpack::Error::kNoError) { |
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return xnn_status_invalid_state; |
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} |
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return xnn_status_success; |
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} |
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