[Qemu-devel] [RISU RFC PATCH v1 7/7] x86.risu: add SSE2 instructions

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[Qemu-devel] [RISU RFC PATCH v1 7/7] x86.risu: add SSE2 instructions

From:	Jan Bobek
Subject:	[Qemu-devel] [RISU RFC PATCH v1 7/7] x86.risu: add SSE2 instructions
Date:	Wed, 19 Jun 2019 01:04:47 -0400

Add all SSE2 instructions to the x86 configuration file.

Signed-off-by: Jan Bobek <address@hidden>
---
 x86.risu | 160 ++++++++++++++++++++++++++++++++++++++++++++++++++++---
 1 file changed, 153 insertions(+), 7 deletions(-)

diff --git a/x86.risu b/x86.risu
index cc40bbc..b3e4c88 100644
--- a/x86.risu
+++ b/x86.risu
@@ -12,63 +12,137 @@
 # Input file for risugen defining x86 instructions
 .mode x86
 
-# SSE Data Transfer Instructions
+# SSE/SSE2 Data Transfer Instructions
 MOVUPS          SSE     00001111 0001000 d !emit { modrm(); mem(size => 16); }
+MOVUPD          SSE2    00001111 0001000 d !emit { data16(); modrm(); mem(size 
=> 16); }
 MOVSS           SSE     00001111 0001000 d !emit { rep(); modrm(); mem(size => 
4); }
+MOVSD           SSE2    00001111 0001000 d !emit { repne(); modrm(); mem(size 
=> 8); }
+
 MOVHLPS         SSE     00001111 00010010  !emit { modrm(mod => MOD_DIRECT); }
 MOVLPS          SSE     00001111 0001001 d !emit { modrm(mod => ~MOD_DIRECT); 
mem(size => 8); }
+MOVLPD          SSE2    00001111 0001001 d !emit { data16(); modrm(mod => 
~MOD_DIRECT); mem(size => 8); }
+
 MOVLHPS         SSE     00001111 00010110  !emit { modrm(mod => MOD_DIRECT); }
 MOVHPS          SSE     00001111 0001011 d !emit { modrm(mod => ~MOD_DIRECT); 
mem(size => 8); }
+MOVHPD          SSE2    00001111 0001011 d !emit { data16(); modrm(mod => 
~MOD_DIRECT); mem(size => 8); }
+
 MOVAPS          SSE     00001111 0010100 d !emit { modrm(); mem(size => 16, 
align => 16); }
+MOVAPD          SSE2    00001111 0010100 d !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 MOVMSKPS        SSE     00001111 01010000  !emit { modrm(mod => MOD_DIRECT, 
reg => ~REG_ESP); }
+MOVMKSPD        SSE2    00001111 01010000  !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => ~REG_ESP); }
 
-# SSE Packed Arithmetic Instructions
+# SSE/SSE2 Packed Arithmetic Instructions
 ADDPS           SSE     00001111 01011000 !emit { modrm(); mem(size => 16, 
align => 16); }
+ADDPD           SSE2    00001111 01011000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16) }
 ADDSS           SSE     00001111 01011000 !emit { rep(); modrm(); mem(size => 
4); }
+ADDSD           SSE2    00001111 01011000 !emit { repne(); modrm(); mem(size 
=> 4); }
+
 SUBPS           SSE     00001111 01011100 !emit { modrm(); mem(size => 16, 
align => 16); }
+SUBPD           SSE2    00001111 01011100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 SUBSS           SSE     00001111 01011100 !emit { rep(); modrm(); mem(size => 
4); }
+SUBSD           SSE2    00001111 01011100 !emit { repne(); modrm(); mem(size 
=> 4); }
+
 MULPS           SSE     00001111 01011001 !emit { modrm(); mem(size => 16, 
align => 16); }
+MULPD           SSE2    00001111 01011001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 MULSS           SSE     00001111 01011001 !emit { rep(); modrm(); mem(size => 
4); }
-DIVPS           SSE     00001111 01011110 !emit { modrm(); mem(size => 16, 
align => 16); }
+MULSD           SSE2    00001111 01011001 !emit { repne(); modrm(); mem(size 
=> 4); }
+
+DIVPS           SSE     00001111 01011110 !emit { modrm(); modrm(); mem(size 
=> 16, align => 16); }
+DIVPD           SSE2    00001111 01011110 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 DIVSS           SSE     00001111 01011110 !emit { rep(); modrm(); mem(size => 
4); }
+DIVSD           SSE2    00001111 01011110 !emit { repne(); modrm(); mem(size 
=> 4); }
+
 RCPPS           SSE     00001111 01010011 !emit { modrm(); mem(size => 16, 
align => 16); }
 RCPSS           SSE     00001111 01010011 !emit { rep(); modrm(); mem(size => 
4); }
+
 SQRTPS          SSE     00001111 01010001 !emit { modrm(); mem(size => 16, 
align => 16); }
+SQRTPD          SSE2    00001111 01010001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 SQRTSS          SSE     00001111 01010001 !emit { rep(); modrm(); mem(size => 
4); }
+SQRTSD          SSE2    00001111 01010001 !emit { repne(); modrm(); mem(size 
=> 4); }
+
 RSQRTPS         SSE     00001111 01010010 !emit { modrm(); mem(size => 16, 
align => 16); }
 RSQRTSS         SSE     00001111 01010010 !emit { rep(); modrm(); mem(size => 
4); }
+
 MINPS           SSE     00001111 01011101 !emit { modrm(); mem(size => 16, 
align => 16); }
+MINPD           SSE2    00001111 01011101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 MINSS           SSE     00001111 01011101 !emit { rep(); modrm(); mem(size => 
4); }
+MINSD           SSE2    00001111 01011101 !emit { repne(); modrm(); mem(size 
=> 4); }
+
 MAXPS           SSE     00001111 01011111 !emit { modrm(); mem(size => 16, 
align => 16); }
+MAXPD           SSE2    00001111 01011111 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 MAXSS           SSE     00001111 01011111 !emit { rep(); modrm(); mem(size => 
4); }
+MAXSD           SSE2    00001111 01011111 !emit { repne(); modrm(); mem(size 
=> 4); }
 
-# SSE Comparison Instructions
+# SSE/SSE2 Comparison Instructions
 CMPPS           SSE     00001111 11000010 !emit { modrm(); mem(size => 16, 
align => 16); imm(size => 1); }
+CMPPD           SSE2    00001111 11000010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); imm(size => 1); }
 CMPSS           SSE     00001111 11000010 !emit { rep(); modrm(); mem(size => 
4); imm(size => 1); }
+CMPSD           SSE2    00001111 11000010 !emit { repne(); modrm(); mem(size 
=> 4); imm(size => 1); }
+
 UCOMISS         SSE     00001111 00101110 !emit { modrm(); mem(size => 4); }
+UCOMISD         SSE2    00001111 00101110 !emit { data16(); modrm(); mem(size 
=> 4); }
+
 COMISS          SSE     00001111 00101111 !emit { modrm(); mem(size => 4); }
+COMISD          SSE2    00001111 00101111 !emit { data16(); modrm(); mem(size 
=> 4); }
 
-# SSE Logical Instructions
+# SSE/SSE2 Logical Instructions
 ANDPS           SSE     00001111 01010100 !emit { modrm(); mem(size => 16, 
align => 16); }
+ANDPD           SSE2    00001111 01010100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 ANDNPS          SSE     00001111 01010101 !emit { modrm(); mem(size => 16, 
align => 16); }
+ANDNPD          SSE2    00001111 01010101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 ORPS            SSE     00001111 01010110 !emit { modrm(); mem(size => 16, 
align => 16); }
+ORPD            SSE2    00001111 01010110 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 XORPS           SSE     00001111 01010111 !emit { modrm(); mem(size => 16, 
align => 16); }
+XORPD           SSE2    00001111 01010111 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 
-# SSE Shuffle and Unpack Instructions
+# SSE/SSE2 Shuffle and Unpack Instructions
 SHUFPS          SSE     00001111 11000110 !emit { modrm(); mem(size => 16, 
align => 16); imm(size => 1); }
+SHUFPD          SSE2    00001111 11000110 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); imm(size => 1); }
+
 UNPCKLPS        SSE     00001111 00010100 !emit { modrm(); mem(size => 16, 
align => 16); }
+UNPCKLPD        SSE2    00001111 00010100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 UNPCKHPS        SSE     00001111 00010101 !emit { modrm(); mem(size => 16, 
align => 16); }
+UNPCKHPD        SSE2    00001111 00010101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 
-# SSE Conversion Instructions
+# SSE/SSE2 Conversion Instructions
 CVTPI2PS        SSE     00001111 00101010 !emit { modrm(); mem(size => 8); }
+CVTPI2PD        SSE2    00001111 00101010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 CVTSI2SS        SSE     00001111 00101010 !emit { rep(); modrm(); mem(size => 
4); }
+CVTSI2SD        SSE2    00001111 00101010 !emit { repne(); modrm(); mem(size 
=> 8); }
 CVTSI2SS_64     SSE     00001111 00101010 !emit { rep(); rex(w => 1); modrm(); 
mem(size => 8); }
+CVTSI2SD_64     SSE2    00001111 00101010 !emit { repne(); rex(w => 1); 
modrm(); mem(size => 8); }
+
 CVTPS2PI        SSE     00001111 00101101 !emit { modrm(); mem(size => 8); }
+CVTPD2PI        SSE2    00001111 00101101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 CVTSS2SI        SSE     00001111 00101101 !emit { rep(); modrm(reg => 
~REG_ESP); mem(size => 4); }
+CVTSD2SI        SSE2    00001111 00101101 !emit { repne(); modrm(reg => 
~REG_ESP); mem(size => 8); }
 CVTSS2SI_64     SSE     00001111 00101101 !emit { rep(); rex(w => 1); 
modrm(reg => ~REG_ESP); mem(size => 4); }
+CVTSD2SI_64     SSE2    00001111 00101101 !emit { repne(); rex(w => 1); 
modrm(reg => ~REG_ESP); mem(size => 8); }
+
 CVTTPS2PI       SSE     00001111 00101100 !emit { modrm(); mem(size => 8); }
+CVTTPD2PI       SSE2    00001111 00101100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
 CVTTSS2SI       SSE     00001111 00101100 !emit { rep(); modrm(reg => 
~REG_ESP); mem(size => 4); }
+CVTTSD2SI       SSE2    00001111 00101100 !emit { repne(); modrm(reg => 
~REG_ESP); mem(size => 8); }
 CVTTSS2SI_64    SSE     00001111 00101100 !emit { rep(); rex(w => 1); 
modrm(reg => ~REG_ESP); mem(size => 4); }
+CVTTSD2SI_64    SSE2    00001111 00101100 !emit { repne(); rex(w => 1); 
modrm(reg => ~REG_ESP); mem(size => 8); }
+
+CVTPD2PQ        SSE2    00001111 11100110 !emit { repne(); modrm(); mem(size 
=> 16, align => 16); }
+CVTTPD2PQ       SSE2    00001111 11100110 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+CVTDQ2PD        SSE2    00001111 11100110 !emit { rep(); modrm(); mem(size => 
8); }
+
+CVTPS2PD        SSE2    00001111 01011010 !emit { modrm(); mem(size => 8); }
+CVTPD2PS        SSE2    00001111 01011010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+CVTSS2SD        SSE2    00001111 01011010 !emit { rep(); modrm(); mem(size => 
4); }
+CVTSD2SS        SSE2    00001111 01011010 !emit { repne(); modrm(); mem(size 
=> 8); }
+
+CVTDQ2PS        SSE2    00001111 01011011 !emit { modrm(); mem(size => 16, 
align => 16); }
+CVTPS2DQ        SSE2    00001111 01011011 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+CVTTPS2DQ       SSE2    00001111 01011011 !emit { rep(); modrm(); mem(size => 
16, align => 16); }
 
 # SSE MXCSR State Management Instructions
 # LDMXCSR         SSE     00001111 10101110 !emit { modrm(mod => ~MOD_DIRECT, 
reg => 2); mem(size => 4); }
@@ -88,6 +162,67 @@ PMULHUW         SSE     00001111 11100100 !emit { modrm(); 
mem(size => 8); }
 PSADBW          SSE     00001111 11110110 !emit { modrm(); mem(size => 8); }
 PSHUFW          SSE     00001111 01110000 !emit { modrm(); mem(size => 8); 
imm(size => 1); }
 
+# SSE2 128-bit SIMD Integer Instructions
+MOVDQA          SSE2    00001111 011 d 1111 !emit { data16(); modrm(); 
mem(size => 16, align => 16); }
+MOVDQU          SSE2    00001111 011 d 1111 !emit { rep(); modrm(); mem(size 
=> 16); }
+MOVQ2DQ         SSE2    00001111 11010110 !emit { rep(); modrm(mod => 
MOD_DIRECT); }
+MOVDQ2Q         SSE2    00001111 11010110 !emit { repne(); modrm(mod => 
MOD_DIRECT); }
+
+PMULUDQ_64      SSE2    00001111 11110100 !emit { modrm(); mem(size => 8); }
+PMULUDQ         SSE2    00001111 11110100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDB           SSE2    00001111 11111100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDW           SSE2    00001111 11111101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDD           SSE2    00001111 11111110 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDQ           SSE2    00001111 11010100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDSB          SSE2    00001111 11101100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDSW          SSE2    00001111 11101101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDUSB         SSE2    00001111 11011100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PADDUSW         SSE2    00001111 11011101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBB           SSE2    00001111 11111000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBW           SSE2    00001111 11111001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBD           SSE2    00001111 11111010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBQ_64        SSE2    00001111 11111011 !emit { modrm(); mem(size => 8); }
+PSUBQ           SSE2    00001111 11111011 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBSB          SSE2    00001111 11101000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBSW          SSE2    00001111 11101001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBUSB         SSE2    00001111 11011000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSUBUSW         SSE2    00001111 11011001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
+PSHUFLW         SSE2    00001111 01110000 !emit { repne(); modrm(); mem(size 
=> 16, align => 16); imm(size => 1); }
+PSHUFHW         SSE2    00001111 01110000 !emit { rep(); modrm(); mem(size => 
16, align => 16); imm(size => 1); }
+PSHUFD          SSE2    00001111 01110000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); imm(size => 1); }
+
+PSLLW           SSE2    00001111 11110001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSLLW_imm       SSE2    00001111 01110001 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 6); imm(size => 1); }
+PSLLD           SSE2    00001111 11110010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSLLD_imm       SSE2    00001111 01110010 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 6); imm(size => 1); }
+PSLLQ           SSE2    00001111 11110011 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSLLQ_imm       SSE2    00001111 01110011 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 6); imm(size => 1); }
+PSLLDQ          SSE2    00001111 01110011 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 7); imm(size => 1); }
+
+PSRAW           SSE2    00001111 11100001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSRAW_imm       SSE2    00001111 01110001 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 4); imm(size => 1); }
+PSRAD           SSE2    00001111 11100010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSRAD_imm       SSE2    00001111 01110010 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 4); imm(size => 1); }
+
+PSRLW           SSE2    00001111 11010001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSRLW_imm       SSE2    00001111 01110001 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 2); imm(size => 1); }
+PSRLD           SSE2    00001111 11010010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSRLD_imm       SSE2    00001111 01110010 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 2); imm(size => 1); }
+PSRLQ           SSE2    00001111 11010011 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PSRLQ_imm       SSE2    00001111 01110011 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 2); imm(size => 1); }
+PSRLDQ          SSE2    00001111 01110011 !emit { data16(); modrm(mod => 
MOD_DIRECT, reg => 3); imm(size => 1); }
+
+PUNPCKHBW       SSE2    00001111 01101000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKHWD       SSE2    00001111 01101001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKHDQ       SSE2    00001111 01101010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKHQDQ      SSE2    00001111 01101101 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
+PUNPCKLBW       SSE2    00001111 01100000 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKLWD       SSE2    00001111 01100001 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKLDQ       SSE2    00001111 01100010 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+PUNPCKLQDQ      SSE2    00001111 01101100 !emit { data16(); modrm(); mem(size 
=> 16, align => 16); }
+
 # SSE Cacheability Control, Prefetch, and Instruction Ordering Instructions
 MASKMOVQ        SSE     00001111 11110111 !emit { modrm(mod => MOD_DIRECT); 
mem(size => 8, base => REG_EDI); }
 MOVNTQ          SSE     00001111 11100111 !emit { modrm(mod => ~MOD_DIRECT); 
mem(size => 8); }
@@ -97,3 +232,14 @@ PREFETCHT1      SSE     00001111 00011000 !emit { modrm(mod 
=> ~MOD_DIRECT, reg
 PREFETCHT2      SSE     00001111 00011000 !emit { modrm(mod => ~MOD_DIRECT, 
reg => 3); mem(size => 1); }
 PREFETCHNTA     SSE     00001111 00011000 !emit { modrm(mod => ~MOD_DIRECT, 
reg => 0); mem(size => 1); }
 SFENCE          SSE     00001111 10101110 !emit { modrm(mod => MOD_DIRECT, reg 
=> 7); }
+
+# SSE2 Cacheability Control, Prefetch, and Instruction Ordering Instructions
+CFLUSH          SSE2    00001111 10101110 !emit { modrm(mod => ~MOD_DIRECT, 
reg => 7); mem(size => 1); }
+LFENCE          SSE2    00001111 10101110 !emit { modrm(mod => 0b11, reg => 
0b101); }
+MFENCE          SSE2    00001111 10101110 !emit { modrm(mod => 0b11, reg => 
0b111); }
+PAUSE           SSE2    10010000          !emit { rep(); }
+MASKMOVDQU      SSE2    00001111 11110111 !emit { data16(); modrm(mod => 
MOD_DIRECT); mem(size => 16, base => REG_EDI); }
+MOVNTPD         SSE2    00001111 00101011 !emit { data16(); modrm(mod => 
~MOD_DIRECT); mem(size => 16, align => 16); }
+MOVNTDQ         SSE2    00001111 11100111 !emit { data16(); modrm(mod => 
~MOD_DIRECT); mem(size => 16, align => 16); }
+MOVNTI          SSE2    00001111 11000011 !emit { modrm(mod => ~MOD_DIRECT); 
mem(size => 4); }
+MOVNTI_64       SSE2    00001111 11000011 !emit { rex(w => 1); modrm(mod => 
~MOD_DIRECT); mem(size => 8); }
-- 
2.20.1

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Re: [Qemu-devel] [RISU RFC PATCH v1 1/7] risugen_common: add insnv, randint_constr, rand_fill, (continued)
- [Qemu-devel] [RISU RFC PATCH v1 3/7] risugen_x86_emit: add module, Jan Bobek, 2019/06/19
- [Qemu-devel] [RISU RFC PATCH v1 5/7] risugen: allow all byte-aligned instructions, Jan Bobek, 2019/06/19
  - Re: [Qemu-devel] [RISU RFC PATCH v1 5/7] risugen: allow all byte-aligned instructions, Richard Henderson, 2019/06/27
- [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Jan Bobek, 2019/06/19
  - Re: [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Richard Henderson, 2019/06/27
    - Re: [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Richard Henderson, 2019/06/27
    - Re: [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Jan Bobek, 2019/06/28
    - Re: [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Jan Bobek, 2019/06/28
    - Re: [Qemu-devel] [RISU RFC PATCH v1 4/7] risugen_x86: add module, Richard Henderson, 2019/06/29
- [Qemu-devel] [RISU RFC PATCH v1 7/7] x86.risu: add SSE2 instructions, Jan Bobek <=
- [Qemu-devel] [RISU RFC PATCH v1 6/7] x86.risu: add SSE instructions, Jan Bobek, 2019/06/19

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