The number of Intel SSE4.2 is exactly 313 assembly instruction sets(sum the Intel manual numbers). I want the same number for AVX and AVX2 but couldn't find any trusted reference. I found a reference that tells there are 292 instructions in AVX (page 1, Table 1) and its wrong and SSE4.2 is containing SSSE3 that they didn't count it. So how can I count the AVX/AVX2 instructions? (I thought to write a program and copy the Intel intrinsics guide to a text file and process it. But I need an easier way

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    Do you want to count number of mnemonics, or number of opcodes? Do you want to count VPCMPISTRI as separate from PCMPISTRI, even though there's still only a 128b version of it in AVX2? – Peter Cordes Nov 29 '16 at 7:53
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    Do you want to count all the different forms of FMA (like VFMADD132PS vs. VFMADD213PS vs. VFMADDSUB231PS) as separate instructions? Basically, what do you want to use this number for, and what do you want it to mean? – Peter Cordes Nov 29 '16 at 7:54
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    @PeterCordes yes I want to be the first comment separated, and the second seperated and want mnemonics. no just want the new instruction. for example SSE introduced 70 new instructions (mmx had 57 instructions) , SSE2--->144, SSE3 ---> 13, SSSE3---->32, SSE4 ----> 54 So AVX----> ? and AVX2----->? – Martin Nov 29 '16 at 8:10
  • I want this information to compare the past Intel SIMD technology and AVX or AVX2. researching for publishing an article – Martin Nov 29 '16 at 8:12
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    There are scripts to parse Intels PDF instruction-set ref manual: github.com/zneak/x86doc – Peter Cordes Dec 1 '16 at 3:39

There are 86 instructions in AVX and 137 instructions in AVX2 and totally 223 new instructions introduced by AVX and AVX2. I've copied the Intel intrinsics guide to a word format, deleted intrinsics functions, sorted the assembly instructions and deleted the duplicated instructions. This assumes that all instructions have corresponding intrinsics

AVX ins: vaddpd, vaddps, vaddsubpd, vaddsubps, vandnpd, vandnps, vandpd, vandps, vblendpd, vblendps, vblendvpd, vblendvps, vbroadcastf128, vbroadcastsd, vbroadcastss, vcmppd, vcmpps, vcmpsd, vcmpss, vcvtdq2pd, vcvtdq2ps, vcvtpd2dq, vcvtpd2ps, vcvtps2dq, vcvtps2pd, vcvttpd2dq, vcvttps2dq, vdivpd, vdivps, vdpps, vextractf128, vhaddpd, vhaddps, vhsubpd, vhsubps, vinsertf128, vlddqu, vmaskmovpd, vmaskmovps, vmaxpd, vmaxps, vminpd, vminps, vmovapd, vmovaps, vmovddup, vmovdqa, vmovdqu, vmovmskpd, vmovmskps, vmovntdq, vmovntpd, vmovntps, vmovshdup, vmovsldup, vmovupd, vmovups, vmulpd, vmulps, vorpd, vorps, vperm2f128, vpermilpd, vpermilps, vptest, vpxor, vrcpps, vroundpd, vroundps, vrsqrtps, vshufpd, vshufps, vsqrtpd, vsqrtps, vsubpd, vsubps, vtestpd, vtestps, vunpckhpd, vunpckhps, vunpcklpd, vunpcklps, vxorpd, vxorps, vzeroall, vzeroupper,

and AVX2 ins : movddup, vbroadcasti128, vextracti128, vgatherdpd, vgatherdps, vgatherqpd, vgatherqps, vinserti128, vmovntdqa, vmpsadbw, vpabsb, vpabsd, vpabsw, vpackssdw, vpacksswb, vpackusdw, vpackuswb, vpaddb, vpaddd, vpaddq, vpaddsb, vpaddsw, vpaddusb, vpaddusw, vpaddw, vpalignr, vpand, vpandn, vpavgb, vpavgw, vpblendd, vpblendvb, vpblendw, vpbroadcastb, vpbroadcastd, vpbroadcastq, vpbroadcastw, vpcmpeqb, vpcmpeqd, vpcmpeqq, vpcmpeqw, vpcmpgtb, vpcmpgtd, vpcmpgtq, vpcmpgtw, vperm2i128, vpermd, vpermpd, vpermps, vpermq, vpgatherdd, vpgatherdq, vpgatherqd, vpgatherqq, vphaddd, vphaddsw, vphaddw, vphsubd, vphsubsw, vphsubw, vpmaddubsw, vpmaddwd, vpmaskmovd, vpmaskmovq, vpmaxsb, vpmaxsd, vpmaxsw, vpmaxub, vpmaxud, vpmaxuw, vpminsb, vpminsd, vpminsw, vpminub, vpminud, vpminuw, vpmovmskb, vpmovsxbd, vpmovsxbq, vpmovsxbw, vpmovsxdq, vpmovsxwd, vpmovsxwq, vpmovzxbd, vpmovzxbq, vpmovzxbw, vpmovzxdq, vpmovzxwd, vpmovzxwq, vpmuldq, vpmulhrsw, vpmulhuw, vpmulhw, vpmulld, vpmullw, vpmuludq, vpor, vpsadbw, vpshufb, vpshufd, vpshufhw, vpshuflw, vpsignb, vpsignd, vpsignw, vpslld, vpslldq, vpsllq, vpsllvd, vpsllvq, vpsllw, vpsrad, vpsravd, vpsraw, vpsrld, vpsrldq, vpsrlq, vpsrlvd, vpsrlvq, vpsrlw, vpsubb, vpsubd, vpsubq, vpsubsb, vpsubsw, vpsubusb, vpsubusw, vpsubw, vpunpckhbw, vpunpckhdq, vpunpckhqdq, vpunpckhwd, vpunpcklbw, vpunpckldq, vpunpcklqdq, vpunpcklwd, vpxor.

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    This assumes that all instructions have corresponding intrinsics. – Cody Gray Nov 29 '16 at 23:04
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    I don't see vmovss, the AVX version of MOVSS (_mm_move_ss) in your list. I guess your method will only count instructions that have a new intrinsic in AVX, e.g. for a 256b version, instead of just for a 3-operand version. @CodyGray has a good point. – Peter Cordes Nov 30 '16 at 5:49
  • This might or might not be what the OP wants. There's a bit of a language barrier, so it's still not totally clear. – Peter Cordes Nov 30 '16 at 5:51
  • Yes, you are right, There wasn't intrinsic instruction for vmovss in Intel Intrinsics Guide and my method didn't count it. – ADMS Nov 30 '16 at 11:24
  • @PeterCordes where can I find those instruction organizes to improve my answer? – ADMS Nov 30 '16 at 23:21

This resource also provide an answer to this question:

Intel AVX is a comprehensive ISA enhancement that adds n ew functionality in addition to the compact new encoding format.

• A large number (200+) of legacy Intel SSEx instruction s are upgraded by the enhanced instruction encoding to take advantage of feat ures like a distinct source operand and flexible memory alignment.

• A moderate number (< 100) of legacy 128-bit Intel SS Ex instruction have been promoted to process 256-bit vector data.

• A number of new data processing and arithmetic operatio ns (< 100), not present in legacy Intel SSEx, are added to Intel processors to be launched in 2010 and beyond.

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