AE_SLAI32 — 2-way shift left by immediate

Instruction Word

Slot
ae2_slot0
6
3
6
2
6
1
6
0
5
9
5
8
5
7
5
6
5
5
5
4
5
3
5
2
5
1
5
0
4
9
4
8
4
7
4
6
4
5
4
4
4
3
4
2
4
1
4
0
3
9
3
8
3
7
3
6
3
5
3
4
3
3
3
2
3
1
3
0
2
9
2
8
2
7
2
6
2
5
2
4
2
3
2
2
2
1
2
0
1
9
1
8
1
7
1
6
1
5
1
4
1
3
1
2
1
1
1
0
9876543210
Format ae_format2 - 64 bit(s)0000 1110
AE_SLAI32 1000000000001011 1 00
ae_fld_shift_d 3210
ae_fld_shift_d0 3210
ae_fld_osa32 43210

Slot
ae_slot2_0
6
3
6
2
6
1
6
0
5
9
5
8
5
7
5
6
5
5
5
4
5
3
5
2
5
1
5
0
4
9
4
8
4
7
4
6
4
5
4
4
4
3
4
2
4
1
4
0
3
9
3
8
3
7
3
6
3
5
3
4
3
3
3
2
3
1
3
0
2
9
2
8
2
7
2
6
2
5
2
4
2
3
2
2
2
1
2
0
1
9
1
8
1
7
1
6
1
5
1
4
1
3
1
2
1
1
1
0
9876543210
Format ae_format - 64 bit(s) 1111
AE_SLAI320001100
ae_fld_shift_d 3210
ae_fld_shift_d0 3210
ae_fld_osa32 4 3210

Slot
Inst
6
3
6
2
6
1
6
0
5
9
5
8
5
7
5
6
5
5
5
4
5
3
5
2
5
1
5
0
4
9
4
8
4
7
4
6
4
5
4
4
4
3
4
2
4
1
4
0
3
9
3
8
3
7
3
6
3
5
3
4
3
3
3
2
3
1
3
0
2
9
2
8
2
7
2
6
2
5
2
4
2
3
2
2
2
1
2
0
1
9
1
8
1
7
1
6
1
5
1
4
1
3
1
2
1
1
1
0
9876543210
Format x24 - 24 bit(s) 0
AE_SLAI32 1001011 0100
ae_fld_shift_d 3210
ae_fld_shift_d0 3210
ae_fld_osa32 4 3210

Assembler Syntax

AE_SLAI32 aed0..15(ae_shift_d), aed0..15(ae_shift_d0), 0..31

C Syntax

#include <xtensa/tie/xt_hifi2.h>

extern ae_int32x2 AE_SLAI32(ae_int32x2 d0, immediate sa);

Description

AE_SLAI32 is a two-way left shift of AE_DR register d0 by immediate, with result placed in d.

d.L = d0.L << i

d.H = d0.H << i

Implementation Pipeline

In Out
ae_shift_d0 Mstage ae_shift_d Mstage

Protos that use AE_SLAI32

proto AE_ADDX2_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 1;
AE_ADD32 a, t, c;
}
proto AE_ADDX4_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 2;
AE_ADD32 a, t, c;
}
proto AE_ADDX8_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 3;
AE_ADD32 a, t, c;
}
proto AE_INT24X2_SLAI { out ae_int24x2 d, in ae_int24x2 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_INT24_SLAI { out ae_int24 d, in ae_int24 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_INT32X2_SLAI { out ae_int32x2 d, in ae_int32x2 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_INT32X4_SLAI32 { out ae_int32x4 d, in ae_int32x4 d0, in immediate i }{}{
AE_SLAI32 d->d0, d0->d0, i + 0;
AE_SLAI32 d->d1, d0->d1, i + 0;
}
proto AE_INT32_SLAI { out ae_int32 d, in ae_int32 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_SLAI32 { out ae_int32x2 d, in ae_int32x2 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_SLLI32 { out ae_int32x2 d, in ae_int32x2 d0, in immediate sa }{}{
AE_SLAI32 d, d0, sa + 0;
}
proto AE_SLLI_32 { out ae_int32 a, in ae_int32 b, in immediate c }{}{
AE_SLAI32 a, b, c + 0;
}
proto AE_SUBX2_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 1;
AE_SUB32 a, t, c;
}
proto AE_SUBX4_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 2;
AE_SUB32 a, t, c;
}
proto AE_SUBX8_32 { out ae_int32 a, in ae_int32 b, in ae_int32 c }{ae_int32 t}{
AE_SLAI32 t, b, 3;
AE_SUB32 a, t, c;
}
proto ae_f24_rtor_ae_f16 { out ae_f16 a, in ae_f24 b }{ae_int32x2 t}{
AE_SLAI32 t, b, 8;
AE_SEL16I a, t, t, 7;
}
proto ae_int16u_rtor_uint16 { out uint16 a, in ae_int16u d }{ae_int32 t, ae_int32 t2}{
AE_SLAI32 t, d, 16;
AE_SRLI32 t2, t, 16;
AE_MOVAD32.L a, t2;
}
proto int32_rtor_ae_f24 { out ae_f24 d, in int32 a }{ae_f32x2 t1, ae_f32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRAI32 d, t2, 8;
}
proto int32_rtor_ae_f24x2 { out ae_f24x2 d, in int32 a }{ae_f32x2 t1, ae_f32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRAI32 d, t2, 8;
}
proto int32_rtor_ae_int24 { out ae_int24 d, in int32 a }{ae_int32x2 t1, ae_int32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRAI32 d, t2, 8;
}
proto int32_rtor_ae_int24x2 { out ae_int24x2 d, in int32 a }{ae_int32x2 t1, ae_int32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRAI32 d, t2, 8;
}
proto uint32_rtor_ae_f24x2 { out ae_f24x2 d, in uint32 a }{ae_f32x2 t1, ae_f32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRLI32 d, t2, 8;
}
proto uint32_rtor_ae_int24x2 { out ae_int24x2 d, in uint32 a }{ae_int32x2 t1, ae_int32x2 t2}{
AE_MOVDA32 t1, a;
AE_SLAI32 t2, t1, 8;
AE_SRLI32 d, t2, 8;
}