Add i64x2 integer multiplication using AVX512DQ
This commit is contained in:
Andrew Brown
@@ -1612,6 +1612,7 @@ fn define_simd(
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let x86_ptest = x86.by_name("x86_ptest");
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// Shorthands for recipes.
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let rec_evex_reg_vvvv_rm_128 = r.template("evex_reg_vvvv_rm_128");
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let rec_f_ib = r.template("f_ib");
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let rec_fa = r.template("fa");
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let rec_fa_ib = r.template("fa_ib");
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@@ -1647,6 +1648,7 @@ fn define_simd(
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let use_ssse3_simd = settings.predicate_by_name("use_ssse3_simd");
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let use_sse41_simd = settings.predicate_by_name("use_sse41_simd");
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let use_sse42_simd = settings.predicate_by_name("use_sse42_simd");
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let use_avx512dq_simd = settings.predicate_by_name("use_avx512dq_simd");
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// SIMD vector size: eventually multiple vector sizes may be supported but for now only
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// SSE-sized vectors are available.
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@@ -1927,6 +1929,16 @@ fn define_simd(
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e.enc_32_64_maybe_isap(imul, rec_fa.opcodes(opcodes), *isap);
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}
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// SIMD integer multiplication for I64x2 using a AVX512.
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{
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let imul = imul.bind(vector(I64, sse_vector_size));
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e.enc_32_64_maybe_isap(
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imul,
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rec_evex_reg_vvvv_rm_128.opcodes(&PMULLQ).w(),
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Some(use_avx512dq_simd), // TODO need an OR predicate to join with AVX512VL
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);
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}
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// SIMD integer average with rounding.
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for (ty, opcodes) in &[(I8, &PAVGB[..]), (I16, &PAVGW[..])] {
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let avgr = avg_round.bind(vector(*ty, sse_vector_size));
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@@ -421,6 +421,10 @@ pub static PMULLW: [u8; 3] = [0x66, 0x0f, 0xd5];
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/// bits of each product in xmm1 (SSE4.1).
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pub static PMULLD: [u8; 4] = [0x66, 0x0f, 0x38, 0x40];
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/// Multiply the packed quadword signed integers in xmm2 and xmm3/m128 and store the low 64
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/// bits of each product in xmm1 (AVX512VL/DQ). Requires an EVEX encoding.
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pub static PMULLQ: [u8; 4] = [0x66, 0x0f, 0x38, 0x40];
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/// Pop top of stack into r{16,32,64}; increment stack pointer.
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pub static POP_REG: [u8; 1] = [0x58];
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17
filetests/isa/x86/simd-avx512-arithmetic-binemit.clif
Normal file
17
filetests/isa/x86/simd-avx512-arithmetic-binemit.clif
Normal file
@@ -0,0 +1,17 @@
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test binemit
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set enable_simd
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target x86_64 skylake has_avx512dq=true
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function %imul_i64x2() {
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block0:
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[-, %xmm1] v0 = vconst.i64x2 [1 2]
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[-, %xmm2] v1 = vconst.i64x2 [2 2]
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[-, %xmm19] v2 = imul v0, v1 ; bin: 62 e2 f5 08 40 da
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; 62, mandatory EVEX prefix
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; e2 = 1110 0010, R, X, B are unset (inverted) while R' is set (MSB in %xmm19); mm is set to 0F38
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; f5 = 1111 0101, W is set (64-bit op), vvvv set to 1 (inverted), bit 2 always set, pp set to 01
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; 08 = 0000 1000, everything, LL' indicates 128-bit, V' is unset (inverted, %xmm1 has MSB of 0)
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; 40, opcode (correct)
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; da = 1100 1010, ModR/M byte using 0b011 from %xmm19 in reg and 0b010 from %xmm2 in r/m
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return
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}
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