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// Copyright 2019 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.

#include <xnnpack/assembly.h>

# void xnn_f32_gemm${"inc" if INC else ""}_minmax_ukernel_4x8__asm_aarch64_neonfma_cortex_a55(
#     size_t mr,                x0
#     size_t nc,                x1
#     size_t kc,                x2 / x0
#     const float* a,           x3
#     size_t a_stride,          x4
#     const float* w,           x5
#     float* c,                 x6
#     size_t cm_stride,         x7
#     size_t cn_stride,         [sp] -> (x0)
$if INC:
  #     const float* acc,         [sp + 8] -> x15
  #     const xnn_f32_minmax_params* params)  [sp + 16] -> (x8)
$else:
  #     const xnn_f32_minmax_params* params)  [sp + 8] -> (x8)

# d8-d15, x19-x30 need to be preserved if used. x18 is reserved by the OS.

# Vector register usage
# A0  x3 v0     v3
# A1  x9 v0[1]  v3[1]
# A2 x10 v1     v4
# A3 x11 v1[1]  v4[1]
# B   x5 v12 v13 v14 v15 second set of B
# B      v16 v17 v18 v19 first set
# C   x6 v20 v21
# C  x16 v22 v23
# C  x17 v24 v25
# C  x14 v26 v27
# Clamp v6 v7
# temporary vector shadow register x4

# unused A   v8 v9 v10 v11
# x12 a4
# x13 c4
#  x7 c5
# A4  v2     v5
# A5  v2[1]  v5[1]
# C   v28 v29
# C   v30 v31

BEGIN_FUNCTION xnn_f32_gemm${"inc" if INC else ""}_minmax_ukernel_4x8__asm_aarch64_neonfma_cortex_a55

        $if INC:
          # Load acc, params pointer
          LDP         x15, x8, [sp, 8]
        $else:
          # Load params pointer
          LDR         x8, [sp, 8]

        # Clamp A and C pointers
        CMP         x0, 2                   // if mr < 2
        ADD         x9, x3, x4              // a1 = a0 + a_stride
        ADD         x16, x6, x7             // c1 = c0 + cm_stride
        CSEL        x9, x3, x9, LO          //   a1 = a0
        CSEL        x16, x6, x16, LO        //   c1 = c0

        ADD         x10, x9, x4             // a2 = a1 + a_stride
        ADD         x17, x16, x7            // c2 = c1 + cm_stride
                                            // if mr <= 2
        CSEL        x10, x9, x10, LS        //   a2 = a1
        CSEL        x17, x16, x17, LS       //   c2 = c1

        CMP         x0, 4                   // if mr < 4
        ADD         x11, x10, x4            // a3 = a2 + a_stride
        ADD         x14, x17, x7            // c3 = c2 + cm_stride
        CSEL        x11, x10, x11, LO       //   a3 = a2
        CSEL        x14, x17, x14, LO       //   c3 = c2

        # Load min/max values
        LD2R        {v6.4s, v7.4s}, [x8]

        # Save d12-d15 on stack
        STP         d12, d13, [sp, -32]!
        STP         d14, d15, [sp, 16]

0:
        $if INC:
          # Load initial accumulators
          LDP         q20, q21, [x15], 32
          LDP         q22, q23, [x15], 32
          LDP         q24, q25, [x15], 32
          LDP         q26, q27, [x15], 32
          PRFM        PLDL1KEEP,  [x3,  0]    // Prefetch A
          PRFM        PLDL1KEEP,  [x3, 64]
          PRFM        PLDL1KEEP,  [x9,  0]
          PRFM        PLDL1KEEP,  [x9, 64]
          PRFM        PLDL1KEEP, [x10,  0]
          PRFM        PLDL1KEEP, [x10, 64]
          PRFM        PLDL1KEEP, [x11,  0]
          PRFM        PLDL1KEEP, [x11, 64]
          PRFM        PLDL1KEEP, [x5,   0]    // Prefetch B
          PRFM        PLDL1KEEP, [x5,  64]
          PRFM        PLDL1KEEP, [x5, 128]
          PRFM        PLDL1KEEP, [x5, 192]
        $else:
          # Load initial bias from w into accumulators
          LDP         q20, q21, [x5], 32
          MOV         v22.16b, v20.16b
          PRFM        PLDL1KEEP,  [x3,  0]    // Prefetch A
          PRFM        PLDL1KEEP,  [x3, 64]
          MOV         v23.16b, v21.16b
          PRFM        PLDL1KEEP,  [x9,  0]
          PRFM        PLDL1KEEP,  [x9, 64]
          MOV         v24.16b, v20.16b
          PRFM        PLDL1KEEP, [x10,  0]
          PRFM        PLDL1KEEP, [x10, 64]
          MOV         v25.16b, v21.16b
          PRFM        PLDL1KEEP, [x11,  0]
          PRFM        PLDL1KEEP, [x11, 64]
          MOV         v26.16b, v20.16b
          PRFM        PLDL1KEEP, [x5,   0]    // Prefetch B
          MOV         v27.16b, v21.16b
          PRFM        PLDL1KEEP, [x5,  64]
          PRFM        PLDL1KEEP, [x5, 128]
          PRFM        PLDL1KEEP, [x5, 192]

        # Is there at least 4 floats (16 bytes) for prologue + epilogue?
        SUBS        x0, x2, 16              // k = kc - 16
        B.LO        4f

        # Prologue - First group loads, no FMA
        LDR         d0, [x3], 8                 // a0
        LDP         q16, q17, [x5], 32          // b
        LDR         d1, [x10], 8                // a2
        LD1         {v0.d}[1],  [x9], 8         // a1
        LD1         {v1.d}[1], [x11], 8         // a3
        SUBS        x0, x0, 16
        LDR         q18, [x5], 16
        LDR         d19, [x5], 8
        LDR         x4, [x5], 8             // ins is in BLOCK 0

        # Is there at least 4 floats (16 bytes) for main loop?
        B.LO        2f

        # Main loop - 4 floats of A (16 bytes)
        # 32 FMA + 8 LD64 A + 8 LDR B
1:
        # First group of 16 FMA, Second group loads
        # BLOCK 0
        FMLA        v20.4s, v16.4s,  v0.s[0]
        LDR         d3, [x3], 8                 // a0
        FMLA        v22.4s, v16.4s,  v0.s[2]
        INS         v19.d[1], x4                // b from second group
        FMLA        v24.4s, v16.4s,  v1.s[0]
        LDR         x4, [x9], 8                 // a1

        # BLOCK 1
        FMLA        v26.4s, v16.4s,  v1.s[2]
        LDR         d12, [x5]
        FMLA        v21.4s, v17.4s,  v0.s[0]
        INS         v3.d[1], x4                 // a1 ins
        FMLA        v23.4s, v17.4s,  v0.s[2]
        LDR         x4, [x5, 8]             // b

        # BLOCK 2
        FMLA        v25.4s, v17.4s,  v1.s[0]
        LDR         d4, [x10], 8                // a2
        FMLA        v27.4s, v17.4s,  v1.s[2]
        INS         v12.d[1], x4            // b  ins
        FMLA        v20.4s, v18.4s,  v0.s[1]
        LDR         x4, [x11], 8                // a3

        # BLOCK 3
        FMLA        v22.4s, v18.4s,  v0.s[3]
        LDR         d13, [x5, 16]
        FMLA        v24.4s, v18.4s,  v1.s[1]
        INS         v4.d[1], x4                 // a3 ins
        FMLA        v26.4s, v18.4s,  v1.s[3]
        LDR         x4, [x5, 24]

        # BLOCK 4
        FMLA        v21.4s, v19.4s,  v0.s[1]
        LDR         d14, [x5, 32]
        FMLA        v23.4s, v19.4s,  v0.s[3]
        INS         v13.d[1], x4            // b
        FMLA        v25.4s, v19.4s,  v1.s[1]
        LDR         x4, [x5, 40]

        # BLOCK 5
        # NOPs to ensure 4 cycle LDR lands on next LDR
        FMLA        v27.4s, v19.4s,  v1.s[3]
        LDR         d15, [x5, 48]
        NOP
        INS         v14.d[1], x4            // b from previous
        SUBS        x0, x0, 16
        LDR         x4, [x5, 56]

        # Second group of 16 FMA, First group of loads
        # BLOCK 0
        FMLA        v20.4s, v12.4s,  v3.s[0]
        LDR         d0, [x3], 8                 // a0
        FMLA        v22.4s, v12.4s,  v3.s[2]
        INS         v15.d[1], x4            // b from previous
        FMLA        v24.4s, v12.4s,  v4.s[0]
        LDR         x4, [x9], 8                 // a1

        # BLOCK 1
        FMLA        v26.4s, v12.4s,  v4.s[2]
        LDR         d16, [x5, 64]
        FMLA        v21.4s, v13.4s,  v3.s[0]
        INS         v0.d[1], x4                 // a1 ins
        FMLA        v23.4s, v13.4s,  v3.s[2]
        LDR         x4, [x5, 72]            // b

        # BLOCK 2
        FMLA        v25.4s, v13.4s,  v4.s[0]
        LDR         d1, [x10], 8                // a2
        FMLA        v27.4s, v13.4s,  v4.s[2]
        INS         v16.d[1], x4            // b
        FMLA        v20.4s, v14.4s,  v3.s[1]
        LDR         x4, [x11], 8                // a3

        # BLOCK 3
        FMLA        v22.4s, v14.4s,  v3.s[3]
        LDR         d17, [x5, 80]
        FMLA        v24.4s, v14.4s,  v4.s[1]
        INS         v1.d[1], x4                 // a3 ins
        FMLA        v26.4s, v14.4s,  v4.s[3]
        LDR         x4, [x5, 88]

        # BLOCK 4
        FMLA        v21.4s, v15.4s,  v3.s[1]
        LDR         d18, [x5, 96]
        FMLA        v23.4s, v15.4s,  v3.s[3]
        INS         v17.d[1], x4            // b
        FMLA        v25.4s, v15.4s,  v4.s[1]
        LDR         x4, [x5, 104]

        # BLOCK 5
        # NOTE that block needs to be 4 cycles for LDR not to stall
        FMLA        v27.4s, v15.4s,  v4.s[3]
        LDR         d19, [x5, 112]
        INS         v18.d[1], x4
        LDR         x4, [x5, 120]
        ADD         x5, x5, 128
        B.HS        1b

        # Epilogue - 4 floats of A (16 bytes)
        # 32 FMA + 8 LD64 A + 8 LDR B
2:
        # First group of 16 FMA, Second group loads
        # BLOCK 0
        FMLA        v20.4s, v16.4s,  v0.s[0]
        LDR         d3, [x3], 8                 // a0
        FMLA        v22.4s, v16.4s,  v0.s[2]
        INS         v19.d[1], x4                // b from second group
        FMLA        v24.4s, v16.4s,  v1.s[0]
        LDR         x4, [x9], 8                 // a1

        # BLOCK 1
        FMLA        v26.4s, v16.4s,  v1.s[2]
        LDR         d12, [x5]
        FMLA        v21.4s, v17.4s,  v0.s[0]
        INS         v3.d[1], x4                 // a1 ins
        FMLA        v23.4s, v17.4s,  v0.s[2]
        LDR         x4, [x5, 8]             // b

        # BLOCK 2
        FMLA        v25.4s, v17.4s,  v1.s[0]
        LDR         d4, [x10], 8                // a2
        FMLA        v27.4s, v17.4s,  v1.s[2]
        INS         v12.d[1], x4            // b  ins
        FMLA        v20.4s, v18.4s,  v0.s[1]
        LDR         x4, [x11], 8                // a3

        # BLOCK 3
        FMLA        v22.4s, v18.4s,  v0.s[3]
        LDR         d13, [x5, 16]
        FMLA        v24.4s, v18.4s,  v1.s[1]
        INS         v4.d[1], x4                 // a3 ins
        FMLA        v26.4s, v18.4s,  v1.s[3]
        LDR         x4, [x5, 24]

        # BLOCK 4
        FMLA        v21.4s, v19.4s,  v0.s[1]
        LDR         d14, [x5, 32]
        FMLA        v23.4s, v19.4s,  v0.s[3]
        INS         v13.d[1], x4            // b
        FMLA        v25.4s, v19.4s,  v1.s[1]
        LDR         x4, [x5, 40]

        # BLOCK 5
        # NOPs to ensure 4 cycle LDR lands on next LDR
        FMLA        v27.4s, v19.4s,  v1.s[3]
        LDR         d15, [x5, 48]
        NOP         // fma
        INS         v14.d[1], x4
        NOP
        LDR         x4, [x5, 56]

        # Second group of 16 FMA, no loads
        # BLOCK 0
        FMLA        v20.4s, v12.4s,  v3.s[0]
        FMLA        v22.4s, v12.4s,  v3.s[2]
        INS         v15.d[1], x4            // b from previous
        FMLA        v24.4s, v12.4s,  v4.s[0]

        # BLOCK 1
        FMLA        v26.4s, v12.4s,  v4.s[2]
        FMLA        v21.4s, v13.4s,  v3.s[0]
        FMLA        v23.4s, v13.4s,  v3.s[2]

        # BLOCK 2
        FMLA        v25.4s, v13.4s,  v4.s[0]
        FMLA        v27.4s, v13.4s,  v4.s[2]
        FMLA        v20.4s, v14.4s,  v3.s[1]

        # BLOCK 3
        FMLA        v22.4s, v14.4s,  v3.s[3]
        FMLA        v24.4s, v14.4s,  v4.s[1]
        FMLA        v26.4s, v14.4s,  v4.s[3]
        TST         x0, 15

        # BLOCK 4
        FMLA        v21.4s, v15.4s,  v3.s[1]
        FMLA        v23.4s, v15.4s,  v3.s[3]
        FMLA        v25.4s, v15.4s,  v4.s[1]
        ADD         x5, x5, 64

        # BLOCK 5
        FMLA        v27.4s, v15.4s,  v4.s[3]

        # Is there a remainder?- 2 floats of A (8 bytes) or less
        B.NE        4f

3:
        # Clamp
        FMAX        v20.4s, v20.4s, v6.4s
        # Load cn_stride
        LDR         x0, [sp, 32]
        FMAX        v21.4s, v21.4s, v6.4s
        FMAX        v22.4s, v22.4s, v6.4s
        FMAX        v23.4s, v23.4s, v6.4s
        FMAX        v24.4s, v24.4s, v6.4s
        FMAX        v25.4s, v25.4s, v6.4s
        FMAX        v26.4s, v26.4s, v6.4s
        FMAX        v27.4s, v27.4s, v6.4s
        SUBS        x1, x1, 8
        FMIN        v20.4s, v20.4s, v7.4s
        FMIN        v21.4s, v21.4s, v7.4s
        FMIN        v22.4s, v22.4s, v7.4s
        FMIN        v23.4s, v23.4s, v7.4s
        FMIN        v24.4s, v24.4s, v7.4s
        FMIN        v25.4s, v25.4s, v7.4s
        FMIN        v26.4s, v26.4s, v7.4s
        FMIN        v27.4s, v27.4s, v7.4s

        # Store full 4 x 8
        B.LO        6f

        $if INC:
          ST1         {v26.16b, v27.16b}, [x14], x0
          SUB         x3,  x3, x2             // a0 -= kc
          ST1         {v24.16b, v25.16b}, [x17], x0
          SUB         x9,  x9, x2             // a1 -= kc
          ST1         {v22.16b, v23.16b}, [x16], x0
          SUB         x10, x10, x2            // a2 -= kc
          ST1         {v20.16b, v21.16b},  [x6], x0
          SUB         x11, x11, x2            // a3 -= kc
        $else:
          ST1         {v20.16b, v21.16b},  [x6], x0
          SUB         x3,  x3, x2             // a0 -= kc
          ST1         {v22.16b, v23.16b}, [x16], x0
          SUB         x9,  x9, x2             // a1 -= kc
          ST1         {v24.16b, v25.16b}, [x17], x0
          SUB         x10, x10, x2            // a2 -= kc
          ST1         {v26.16b, v27.16b}, [x14], x0
          SUB         x11, x11, x2            // a3 -= kc

        B.HI        0b

        # Restore d12-d15 from stack
        LDP         d14, d15, [sp, 16]
        LDP         d12, d13, [sp], 32
        RET

4:
        # Is there a remainder?- 2 floats of A (8 bytes)
        TBZ         x0, 3, 5f

        # Remainder- 2 floats of A (8 bytes)
        LDR         d0,  [x3], 8
        LDR         q16, [x5], 16
        LD1         {v0.d}[1], [x9], 8
        LDR         d1, [x10], 8
        LD1         {v1.d}[1], [x11], 8
        LDR         q17, [x5], 16
        LDR         q18, [x5], 16
        LDR         q19, [x5], 16
        FMLA        v20.4s, v16.4s,  v0.s[0]
        FMLA        v22.4s, v16.4s,  v0.s[2]
        FMLA        v24.4s, v16.4s,  v1.s[0]
        FMLA        v26.4s, v16.4s,  v1.s[2]
        FMLA        v21.4s, v17.4s,  v0.s[0]
        FMLA        v23.4s, v17.4s,  v0.s[2]
        FMLA        v25.4s, v17.4s,  v1.s[0]
        FMLA        v27.4s, v17.4s,  v1.s[2]

        FMLA        v20.4s, v18.4s,  v0.s[1]
        FMLA        v22.4s, v18.4s,  v0.s[3]
        FMLA        v24.4s, v18.4s,  v1.s[1]
        FMLA        v26.4s, v18.4s,  v1.s[3]
        FMLA        v21.4s, v19.4s,  v0.s[1]
        FMLA        v23.4s, v19.4s,  v0.s[3]
        FMLA        v25.4s, v19.4s,  v1.s[1]
        FMLA        v27.4s, v19.4s,  v1.s[3]

        # Is there a remainder?- 1 float of A (4 bytes)
        TBZ         x0, 2, 3b

5:
        # Remainder- 1 float of A (4 bytes)
        LDR         s0,  [x3], 4
        LDR         q16, [x5], 16
        LD1         {v0.s}[2], [x9], 4
        LDR         s1, [x10], 4
        LD1         {v1.s}[2], [x11], 4
        LDR         q17, [x5], 16

        FMLA        v20.4s, v16.4s,  v0.s[0]
        FMLA        v22.4s, v16.4s,  v0.s[2]
        FMLA        v24.4s, v16.4s,  v1.s[0]
        FMLA        v26.4s, v16.4s,  v1.s[2]
        FMLA        v21.4s, v17.4s,  v0.s[0]
        FMLA        v23.4s, v17.4s,  v0.s[2]
        FMLA        v25.4s, v17.4s,  v1.s[0]
        FMLA        v27.4s, v17.4s,  v1.s[2]
        B           3b

        # Store odd width
6:
        TBZ         x1, 2, 7f
        $if INC:
          STR         q26, [x14], 16
          MOV         v26.16b, v27.16b
          STR         q24, [x17], 16
          MOV         v24.16b, v25.16b
          STR         q22, [x16], 16
          MOV         v22.16b, v23.16b
          STR         q20,  [x6], 16
          MOV         v20.16b, v21.16b
        $else:
          STR         q20,  [x6], 16
          MOV         v20.16b, v21.16b
          STR         q22, [x16], 16
          MOV         v22.16b, v23.16b
          STR         q24, [x17], 16
          MOV         v24.16b, v25.16b
          STR         q26, [x14], 16
          MOV         v26.16b, v27.16b

7:
        TBZ         x1, 1, 8f
        $if INC:
          STR         d26, [x14], 8
          STR         d24, [x17], 8
          DUP         d26, v26.d[1]
          DUP         d24, v24.d[1]
          STR         d22, [x16], 8
          STR         d20,  [x6], 8
          DUP         d22, v22.d[1]
          DUP         d20, v20.d[1]
        $else:
          STR         d20,  [x6], 8
          STR         d22, [x16], 8
          DUP         d20, v20.d[1]
          DUP         d22, v22.d[1]
          STR         d24, [x17], 8
          STR         d26, [x14], 8
          DUP         d24, v24.d[1]
          DUP         d26, v26.d[1]

8:
        TBZ         x1, 0, 9f
        $if INC:
          STR         s26, [x14]
          STR         s24, [x17]
          STR         s22, [x16]
          STR         s20,  [x6]
        $else:
          STR         s20,  [x6]
          STR         s22, [x16]
          STR         s24, [x17]
          STR         s26, [x14]
9:
        # Restore d12-d15 from stack
        LDP         d14, d15, [sp, 16]
        LDP         d12, d13, [sp], 32
        RET

END_FUNCTION xnn_f32_gemm${"inc" if INC else ""}_minmax_ukernel_4x8__asm_aarch64_neonfma_cortex_a55

#ifdef __ELF__
.section ".note.GNU-stack","",%progbits
#endif