-@c Copyright (C) 1991-2020 Free Software Foundation, Inc.
+@c Copyright (C) 1991-2021 Free Software Foundation, Inc.
@c This is part of the GAS manual.
@c For copying conditions, see the file as.texinfo.
@c man end
@code{bdver4},
@code{znver1},
@code{znver2},
+@code{znver3},
@code{btver1},
@code{btver2},
@code{generic32} and
@code{sse},
@code{sse2},
@code{sse3},
+@code{sse4a},
@code{ssse3},
@code{sse4.1},
@code{sse4.2},
@code{nosse},
@code{nosse2},
@code{nosse3},
+@code{nosse4a},
@code{nossse3},
@code{nosse4.1},
@code{nosse4.2},
@code{movdiri},
@code{movdir64b},
@code{enqcmd},
+@code{serialize},
+@code{tsxldtrk},
+@code{kl},
+@code{nokl},
+@code{widekl},
+@code{nowidekl},
+@code{hreset},
@code{avx512f},
@code{avx512cd},
@code{avx512er},
@code{avx512_vbmi2},
@code{avx512_vnni},
@code{avx512_bitalg},
+@code{avx512_vp2intersect},
+@code{tdx},
@code{avx512_bf16},
+@code{avx_vnni},
+@code{avx512_fp16},
@code{noavx512f},
@code{noavx512cd},
@code{noavx512er},
@code{noavx512_vnni},
@code{noavx512_bitalg},
@code{noavx512_vp2intersect},
+@code{notdx},
@code{noavx512_bf16},
+@code{noavx_vnni},
+@code{noavx512_fp16},
@code{noenqcmd},
+@code{noserialize},
+@code{notsxldtrk},
+@code{amx_int8},
+@code{noamx_int8},
+@code{amx_bf16},
+@code{noamx_bf16},
+@code{amx_tile},
+@code{noamx_tile},
+@code{nouintr},
+@code{nohreset},
@code{vmx},
@code{vmfunc},
@code{smx},
@code{movbe},
@code{ept},
@code{lzcnt},
+@code{popcnt},
@code{hle},
@code{rtm},
@code{invpcid},
@code{wbnoinvd},
@code{pconfig},
@code{waitpkg},
+@code{uintr},
@code{cldemote},
@code{rdpru},
@code{mcommit},
+@code{sev_es},
@code{lwp},
@code{fma4},
@code{xop},
@code{3dnowa},
@code{sse4a},
@code{sse5},
-@code{svme},
-@code{abm} and
+@code{snp},
+@code{invlpgb},
+@code{tlbsync},
+@code{svme} and
@code{padlock}.
Note that rather than extending a basic instruction set, the extension
mnemonics starting with @code{no} revoke the respective functionality.
This option specifies that the assembler should encode SSE instructions
with VEX prefix.
+@cindex @samp{-muse-unaligned-vector-move} option, i386
+@cindex @samp{-muse-unaligned-vector-move} option, x86-64
+@item -muse-unaligned-vector-move
+This option specifies that the assembler should encode aligned vector
+move as unaligned vector move.
+
@cindex @samp{-msse-check=} option, i386
@cindex @samp{-msse-check=} option, x86-64
@item -msse-check=@var{none}
slightly bigger. This option only affects the handling of branch
instructions.
+@cindex @samp{-mbig-obj} option, i386
@cindex @samp{-mbig-obj} option, x86-64
@item -mbig-obj
-On x86-64 PE/COFF target this option forces the use of big object file
+On PE/COFF target this option forces the use of big object file
format, which allows more than 32768 sections.
@cindex @samp{-momit-lock-prefix=} option, i386
@option{-malign-branch-prefix-size=5}.
The default doesn't align branches.
+@cindex @samp{-mlfence-after-load=} option, i386
+@cindex @samp{-mlfence-after-load=} option, x86-64
+@item -mlfence-after-load=@var{no}
+@itemx -mlfence-after-load=@var{yes}
+These options control whether the assembler should generate lfence
+after load instructions. @option{-mlfence-after-load=@var{yes}} will
+generate lfence. @option{-mlfence-after-load=@var{no}} will not generate
+lfence, which is the default.
+
+@cindex @samp{-mlfence-before-indirect-branch=} option, i386
+@cindex @samp{-mlfence-before-indirect-branch=} option, x86-64
+@item -mlfence-before-indirect-branch=@var{none}
+@item -mlfence-before-indirect-branch=@var{all}
+@item -mlfence-before-indirect-branch=@var{register}
+@itemx -mlfence-before-indirect-branch=@var{memory}
+These options control whether the assembler should generate lfence
+before indirect near branch instructions.
+@option{-mlfence-before-indirect-branch=@var{all}} will generate lfence
+before indirect near branch via register and issue a warning before
+indirect near branch via memory.
+It also implicitly sets @option{-mlfence-before-ret=@var{shl}} when
+there's no explicit @option{-mlfence-before-ret=}.
+@option{-mlfence-before-indirect-branch=@var{register}} will generate
+lfence before indirect near branch via register.
+@option{-mlfence-before-indirect-branch=@var{memory}} will issue a
+warning before indirect near branch via memory.
+@option{-mlfence-before-indirect-branch=@var{none}} will not generate
+lfence nor issue warning, which is the default. Note that lfence won't
+be generated before indirect near branch via register with
+@option{-mlfence-after-load=@var{yes}} since lfence will be generated
+after loading branch target register.
+
+@cindex @samp{-mlfence-before-ret=} option, i386
+@cindex @samp{-mlfence-before-ret=} option, x86-64
+@item -mlfence-before-ret=@var{none}
+@item -mlfence-before-ret=@var{shl}
+@item -mlfence-before-ret=@var{or}
+@item -mlfence-before-ret=@var{yes}
+@itemx -mlfence-before-ret=@var{not}
+These options control whether the assembler should generate lfence
+before ret. @option{-mlfence-before-ret=@var{or}} will generate
+generate or instruction with lfence.
+@option{-mlfence-before-ret=@var{shl/yes}} will generate shl instruction
+with lfence. @option{-mlfence-before-ret=@var{not}} will generate not
+instruction with lfence. @option{-mlfence-before-ret=@var{none}} will not
+generate lfence, which is the default.
+
@cindex @samp{-mx86-used-note=} option, i386
@cindex @samp{-mx86-used-note=} option, x86-64
@item -mx86-used-note=@var{no}
@end itemize
-Almost all instructions have the same names in AT&T and Intel format.
-There are a few exceptions. The sign extend and zero extend
-instructions need two sizes to specify them. They need a size to
-sign/zero extend @emph{from} and a size to zero extend @emph{to}. This
-is accomplished by using two instruction mnemonic suffixes in AT&T
-syntax. Base names for sign extend and zero extend are
-@samp{movs@dots{}} and @samp{movz@dots{}} in AT&T syntax (@samp{movsx}
-and @samp{movzx} in Intel syntax). The instruction mnemonic suffixes
-are tacked on to this base name, the @emph{from} suffix before the
-@emph{to} suffix. Thus, @samp{movsbl %al, %edx} is AT&T syntax for
-``move sign extend @emph{from} %al @emph{to} %edx.'' Possible suffixes,
-thus, are @samp{bl} (from byte to long), @samp{bw} (from byte to word),
-@samp{wl} (from word to long), @samp{bq} (from byte to quadruple word),
-@samp{wq} (from word to quadruple word), and @samp{lq} (from long to
-quadruple word).
-
@cindex encoding options, i386
@cindex encoding options, x86-64
@item
@samp{@{disp32@}} -- prefer 32-bit displacement.
+@item
+@samp{@{disp16@}} -- prefer 16-bit displacement.
+
@item
@samp{@{load@}} -- prefer load-form instruction.
@samp{@{nooptimize@}} -- disable instruction size optimization.
@end itemize
+Mnemonics of Intel VNNI instructions are encoded with the EVEX prefix
+by default. The pseudo @samp{@{vex@}} prefix can be used to encode
+mnemonics of Intel VNNI instructions with the VEX prefix.
+
@cindex conversion instructions, i386
@cindex i386 conversion instructions
@cindex conversion instructions, x86-64
@samp{cqto} in AT&T naming. @code{@value{AS}} accepts either naming for these
instructions.
+@cindex extension instructions, i386
+@cindex i386 extension instructions
+@cindex extension instructions, x86-64
+@cindex x86-64 extension instructions
+The Intel-syntax extension instructions
+
+@itemize @bullet
+@item
+@samp{movsx} --- sign-extend @samp{reg8/mem8} to @samp{reg16}.
+
+@item
+@samp{movsx} --- sign-extend @samp{reg8/mem8} to @samp{reg32}.
+
+@item
+@samp{movsx} --- sign-extend @samp{reg8/mem8} to @samp{reg64}
+(x86-64 only).
+
+@item
+@samp{movsx} --- sign-extend @samp{reg16/mem16} to @samp{reg32}
+
+@item
+@samp{movsx} --- sign-extend @samp{reg16/mem16} to @samp{reg64}
+(x86-64 only).
+
+@item
+@samp{movsxd} --- sign-extend @samp{reg32/mem32} to @samp{reg64}
+(x86-64 only).
+
+@item
+@samp{movzx} --- zero-extend @samp{reg8/mem8} to @samp{reg16}.
+
+@item
+@samp{movzx} --- zero-extend @samp{reg8/mem8} to @samp{reg32}.
+
+@item
+@samp{movzx} --- zero-extend @samp{reg8/mem8} to @samp{reg64}
+(x86-64 only).
+
+@item
+@samp{movzx} --- zero-extend @samp{reg16/mem16} to @samp{reg32}
+
+@item
+@samp{movzx} --- zero-extend @samp{reg16/mem16} to @samp{reg64}
+(x86-64 only).
+@end itemize
+
+@noindent
+are called @samp{movsbw/movsxb/movsx}, @samp{movsbl/movsxb/movsx},
+@samp{movsbq/movsxb/movsx}, @samp{movswl/movsxw}, @samp{movswq/movsxw},
+@samp{movslq/movsxl}, @samp{movzbw/movzxb/movzx},
+@samp{movzbl/movzxb/movzx}, @samp{movzbq/movzxb/movzx},
+@samp{movzwl/movzxw} and @samp{movzwq/movzxw} in AT&T syntax.
+
@cindex jump instructions, i386
@cindex call instructions, i386
@cindex jump instructions, x86-64
@end itemize
-The AVX2 extensions made in 64-bit mode more registers available:
-
-@itemize @bullet
-
-@item
-the 16 128-bit registers @samp{%xmm16}--@samp{%xmm31} and the 16 256-bit
-registers @samp{%ymm16}--@samp{%ymm31}.
-
-@end itemize
-
The AVX512 extensions added the following registers:
@itemize @bullet
@cindex @code{single} directive, i386
@cindex @code{double} directive, i386
@cindex @code{tfloat} directive, i386
+@cindex @code{hfloat} directive, i386
+@cindex @code{bfloat16} directive, i386
@cindex @code{float} directive, x86-64
@cindex @code{single} directive, x86-64
@cindex @code{double} directive, x86-64
@cindex @code{tfloat} directive, x86-64
+@cindex @code{hfloat} directive, x86-64
+@cindex @code{bfloat16} directive, x86-64
@itemize @bullet
@item
Floating point constructors are @samp{.float} or @samp{.single},
-@samp{.double}, and @samp{.tfloat} for 32-, 64-, and 80-bit formats.
-These correspond to instruction mnemonic suffixes @samp{s}, @samp{l},
-and @samp{t}. @samp{t} stands for 80-bit (ten byte) real. The 80387
-only supports this format via the @samp{fldt} (load 80-bit real to stack
-top) and @samp{fstpt} (store 80-bit real and pop stack) instructions.
+@samp{.double}, @samp{.tfloat}, @samp{.hfloat}, and @samp{.bfloat16} for 32-,
+64-, 80-, and 16-bit (two flavors) formats respectively. The former three
+correspond to instruction mnemonic suffixes @samp{s}, @samp{l}, and @samp{t}.
+@samp{t} stands for 80-bit (ten byte) real. The 80387 only supports this
+format via the @samp{fldt} (load 80-bit real to stack top) and @samp{fstpt}
+(store 80-bit real and pop stack) instructions.
@cindex @code{word} directive, i386
@cindex @code{long} directive, i386
@item
Integer constructors are @samp{.word}, @samp{.long} or @samp{.int}, and
@samp{.quad} for the 16-, 32-, and 64-bit integer formats. The
-corresponding instruction mnemonic suffixes are @samp{s} (single),
+corresponding instruction mnemonic suffixes are @samp{s} (short),
@samp{l} (long), and @samp{q} (quad). As with the 80-bit real format,
the 64-bit @samp{q} format is only present in the @samp{fildq} (load
quad integer to stack top) and @samp{fistpq} (store quad integer and pop
@item @samp{corei7} @tab @samp{l1om} @tab @samp{k1om} @tab @samp{iamcu}
@item @samp{k6} @tab @samp{k6_2} @tab @samp{athlon} @tab @samp{k8}
@item @samp{amdfam10} @tab @samp{bdver1} @tab @samp{bdver2} @tab @samp{bdver3}
-@item @samp{bdver4} @tab @samp{znver1} @tab @samp{znver2} @tab @samp{btver1}
-@item @samp{btver2} @tab @samp{generic32} @tab @samp{generic64}
+@item @samp{bdver4} @tab @samp{znver1} @tab @samp{znver2} @tab @samp{znver3}
+@item @samp{btver1} @tab @samp{btver2} @tab @samp{generic32} @tab @samp{generic64}
@item @samp{.cmov} @tab @samp{.fxsr} @tab @samp{.mmx}
-@item @samp{.sse} @tab @samp{.sse2} @tab @samp{.sse3}
+@item @samp{.sse} @tab @samp{.sse2} @tab @samp{.sse3} @tab @samp{.sse4a}
@item @samp{.ssse3} @tab @samp{.sse4.1} @tab @samp{.sse4.2} @tab @samp{.sse4}
@item @samp{.avx} @tab @samp{.vmx} @tab @samp{.smx} @tab @samp{.ept}
@item @samp{.clflush} @tab @samp{.movbe} @tab @samp{.xsave} @tab @samp{.xsaveopt}
@item @samp{.aes} @tab @samp{.pclmul} @tab @samp{.fma} @tab @samp{.fsgsbase}
@item @samp{.rdrnd} @tab @samp{.f16c} @tab @samp{.avx2} @tab @samp{.bmi2}
-@item @samp{.lzcnt} @tab @samp{.invpcid} @tab @samp{.vmfunc} @tab @samp{.hle}
+@item @samp{.lzcnt} @tab @samp{.popcnt} @tab @samp{.invpcid} @tab @samp{.vmfunc}
+@item @samp{.hle}
@item @samp{.rtm} @tab @samp{.adx} @tab @samp{.rdseed} @tab @samp{.prfchw}
@item @samp{.smap} @tab @samp{.mpx} @tab @samp{.sha} @tab @samp{.prefetchwt1}
@item @samp{.clflushopt} @tab @samp{.xsavec} @tab @samp{.xsaves} @tab @samp{.se1}
@item @samp{.avx512vbmi} @tab @samp{.avx512_4fmaps} @tab @samp{.avx512_4vnniw}
@item @samp{.avx512_vpopcntdq} @tab @samp{.avx512_vbmi2} @tab @samp{.avx512_vnni}
@item @samp{.avx512_bitalg} @tab @samp{.avx512_bf16} @tab @samp{.avx512_vp2intersect}
+@item @samp{.tdx} @tab @samp{.avx_vnni} @tab @samp{.avx512_fp16}
@item @samp{.clwb} @tab @samp{.rdpid} @tab @samp{.ptwrite} @tab @item @samp{.ibt}
@item @samp{.wbnoinvd} @tab @samp{.pconfig} @tab @samp{.waitpkg} @tab @samp{.cldemote}
@item @samp{.shstk} @tab @samp{.gfni} @tab @samp{.vaes} @tab @samp{.vpclmulqdq}
-@item @samp{.movdiri} @tab @samp{.movdir64b} @tab @samp{.enqcmd}
+@item @samp{.movdiri} @tab @samp{.movdir64b} @tab @samp{.enqcmd} @tab @samp{.tsxldtrk}
+@item @samp{.amx_int8} @tab @samp{.amx_bf16} @tab @samp{.amx_tile}
+@item @samp{.kl} @tab @samp{.widekl} @tab @samp{.uintr} @tab @samp{.hreset}
@item @samp{.3dnow} @tab @samp{.3dnowa} @tab @samp{.sse4a} @tab @samp{.sse5}
-@item @samp{.syscall} @tab @samp{.rdtscp} @tab @samp{.svme} @tab @samp{.abm}
+@item @samp{.syscall} @tab @samp{.rdtscp} @tab @samp{.svme}
@item @samp{.lwp} @tab @samp{.fma4} @tab @samp{.xop} @tab @samp{.cx16}
@item @samp{.padlock} @tab @samp{.clzero} @tab @samp{.mwaitx} @tab @samp{.rdpru}
-@item @samp{.mcommit}
+@item @samp{.mcommit} @tab @samp{.sev_es} @tab @samp{.snp} @tab @samp{.invlpgb}
+@item @samp{.tlbsync}
@end multitable
Apart from the warning, there are only two other effects on
@item For @samp{movsxd} with 16-bit destination register, AMD64
supports 32-bit source operand and Intel64 supports 16-bit source
operand.
+
+@item For far branches (with explicit memory operand), both ISAs support
+32- and 16-bit operand size. Intel64 additionally supports 64-bit
+operand size, encoded as @samp{ljmpq} and @samp{lcallq} in AT&T syntax
+and with an explicit @samp{tbyte ptr} operand size specifier in Intel
+syntax.
+
+@item @samp{lfs}, @samp{lgs}, and @samp{lss} similarly allow for 16-
+and 32-bit operand size (32- and 48-bit memory operand) in both ISAs,
+while Intel64 additionally supports 64-bit operand sise (80-bit memory
+operands).
+
@end itemize
@node i386-Bugs