用cpuid指令获取cpu信息
最近在写 一个获取系统信息的Delphi组件,想得倒Cpu的id时,碰到了麻烦。上网查了好多资料,下了好多代码,结果还是没有解决问题,关于取Cpu的Id 众说纷纭,而且我试了好多,好像在几台机器上读到的CpuId好像都一样,(开发组机的机器,配置都一样,cpu当然也是一个型号的p4 1.8)。可cpu的id不应该一样吧,每个cpu应该有个唯一标识吧,笔者这样认为。
EAX寄存器,返回的信息在EAX,也就是说执行cupid寄存器赋值,在执行cupid的相关信息就在EAX,入口参数EAX
值设的不同,取得的信息也不同,我们可以写这样一个函数来获得Cpu的相关信息,当然也包括Id。
type
TCPUIDResult=record
eax:dword;
ebx:dword;
ecx:dword;
edx:dword;
end;
functionCPUID(EAX:DWord):TCPUIDResult;
vars1,s2,s3,s4:DWord;
begin
asm
pusheax
pushebx
pushecx
pushedx
moveax,EAX
//******************************************************//******************************************************
cpuid
movs1,EAX
movs2,EBX
movs3,EcX
movs4,Edx
popedx
popecx
popebx
popeax
end;
Result.EAX:=s1;
Result.EBX:=s2;
Result.EcX:=s3;
Result.EdX:=s4;
end;
也就是说,EAX传入3时获得是Cpuid,可为什么笔者获得的几台机器的cpuid是相同的呢?
自英特尔 486 问世以来,英特尔制造的每一款处理器都可以通过处理器设计过程中生成的 CPUID 字符串来辨别真伪(“真品英特尔® 处理器”)。然而,仅有少数几款含有附加 64 位(作为 CPUID 字符串的一部分)的处理器可以唯一识别。
英 特尔处理器序列号是在设计和的过程中指定的 96 位固定编码。CPUID 涉及了处理器系列、型号和步进的信息,可依据产品系列(例如奔腾或赛扬® 处理器)和制造工艺(例如 0.13 或 0.18 微米)划分处理器。在正常 32 位上就创建了处理器的序列号。这个编号是固定的,不由于系统的改变而变化。
有关读取编号的详情,请参阅和 0.13 微米工艺的奔腾 III 处理器版本不支持随奔腾 III 处理器而引入的序列号功能。
虽然无法唯一识别其它的处理器,但可以使用来获取“真品英特尔”和步进等信息。要从处理器封装上的标记信息识别一款处理器,请使用处理器技术指标查询器
这下问题解决了,笔者在这个过程中学到了不少都西,关于Cpuid指令的使用,也在网上搜到了不少资料,在这里稍稍总结以下,供大家参考:
也就是说,EAX传入3时获得是Cpuid,可为什么笔者获得的几台机器的cpuid是相同的呢?
自英特尔 486 问世以来,英特尔制造的每一款处理器都可以通过处理器设计过程中生成的 CPUID 字符串来辨别真伪(“真品英特尔® 处理器”)。然而,仅有少数几款含有附加 64 位(作为 CPUID 字符串的一部分)的处理器可以唯一识别。
英 特尔处理器序列号是在设计和的过程中指定的 96 位固定编码。CPUID 涉及了处理器系列、型号和步进的信息,可依据产品系列(例如奔腾或赛扬® 处理器)和制造工艺(例如 0.13 或 0.18 微米)划分处理器。在正常 32 位上就创建了处理器的序列号。这个编号是固定的,不由于系统的改变而变化。
有关读取编号的详情,请参阅和 0.13 微米工艺的奔腾 III 处理器版本不支持随奔腾 III 处理器而引入的序列号功能。
虽然无法唯一识别其它的处理器,但可以使用来获取“真品英特尔”和步进等信息。要从处理器封装上的标记信息识别一款处理器,请使用处理器技术指标查询器
这下问题解决了,笔者在这个过程中学到了不少都西,关于Cpuid指令的使用,也在网上搜到了不少资料,在这里稍稍总结以下,供大家参考:
CPUID参数及返回值列表:输入 EAX=0000_0000h 得到CPUID指令所支持的最大值和厂家的名称字符串
输出 EAX=xxxx_xxxxh 得到CPUID指令所支持的最大值
RiseRiseRise Rise Technology 处理器
Geode by NSC National Semiconductor 处理器处理器返回 EAX=0000_05xxh.
#2 pre-B0 step Intel P5 处理器不能返回厂商字符串输入 EAX=0000_0001h 得到处理器 type/family/model/stepping和 面貌标识 type/family/model/stepping
extended family extended family 是 bits 27..20.
00h Intel P4
01h Intel Itanium 2 (IA-64)
extended model extended model 是是 bit 13 和bits 11..8.
4 most 80486s
AMD 5x86
Cyrix 5x86
5 Intel P5, P54C, P55C, P24T
NexGen Nx586
Cyrix M1
AMD K5, K6
Centaur C6, C2, C3
Rise mP6
Transmeta Crusoe TM3x00 and TM5x00
6 Intel P6, P2, P3
AMD K7
Cyrix M2, VIA Cyrix III
7 Intel Itanium (IA-64)
F 如果是这个值的话就看extended family
model model 是 extended model
Intel 80486 0 i80486DX-25/33
1 i80486DX-50
2 i80486SX
3 i80486DX2
4 i80486SL
5 i80486SX2
7 i80486DX2WB
8 i80486DX4
9 i80486DX4WB
UMC 80486 1 U5D
2 U5S
AMD 80486 3 80486DX2
7 80486DX2WB
8 80486DX4
9 80486DX4WB
E 5x86
F 5x86WB
Cyrix 5x86 9 5x86
Cyrix MediaGX 4 GX, GXm
Intel P5-core 0 P5 A-step
1 P5
2 P54C
3 P24T Overdrive
4 P55C
7 P54C
8 P55C (0.25μm)
NexGen Nx586 0 Nx586 or Nx586FPU (only later ones)
Cyrix M1 2 6x86
Cyrix M2 0 6x86MX
VIA Cyrix III 5 Cyrix M2 core
6 WinChip C5A core
7 WinChip C5B core (if stepping = 0..7)
7 WinChip C5C core (if stepping = 8..F)
8 WinChip C5C-T core (if stepping = 0..7)
AMD K5 0 SSA5 (PR75, PR90, PR100)
1 5k86 (PR120, PR133)
2 5k86 (PR166)
3 5k86 (PR200)
AMD K6 6 K6 (0.30 μm)
8 K6-2
9 K6-III
D K6-2+ or K6-III+ (0.18 μm)
Centaur 4 C6
8 C2
9 C3
Rise 0 mP6 (0.25 μm)
Transmeta 4 Crusoe TM3x00 and TM5x00
Intel P6-core 0 P6 A-step
1 P6
3 P2 (0.28 μm)
6 P2 with on-die L2 cache
7 P3 (0.25 μm)
with 256 KB on-die L2 cache
A P3 (0.18 μm)
with 1 or 2 MB on-die L2 cache
B P3 (0.13 μm)
with 256 or 512 KB on-die L2 cache
AMD K7 1 Athlon (0.25 μm)
3 Duron (SF core)
4 Athlon (TB core)
6 Athlon (PM core)
7 Duron (MG core)
8 Athlon (TH core)
A Athlon (Barton core)
Intel P4-core 0 P4 (0.18 μ在 bits 3..0.
Stepping描述的是处理器的细节.
EBX=aall_ccbbh brand ID brand ID是m Intel Pentium III
03h 0.18 μm Intel Pentium III Xeon
03h 0.13 μm Intel Pentium III
07h 0.13 μm Intel Celeron mobile
06h 0.13 μm Intel Pentium III mobile
0Ah 0.18 μm Intel Pentium 4 Xeon
0Bh 0.18 μm Intel Pentium 4 Xeon MP
0Bh 0.13 μm Intel Pentium 4 Xeon
0Ch 0.13 μm Intel Pentium 4 Xeon MP
08h 0.13 μm Intel Celeron 4 mobile
0Eh 0.13 μm Intel Pentium 4 mobile (production)
0Fh 0.13 μm Intel Pentium 4 mobile (samples)
CLFLUSH CLFLUSH (8-byte)在默认(固定的)APIC ID是bits 31..24.
ECX=xxxx_xxxxh feature flags 描述
bit 10 (CID) context ID: L1数据缓存能被设置成适应或共享模式
bit 4 (DSCPL) CPL-qualified Debug Store
bit 3 (MON) 监控器
bit 0 (SSE3) SSE3, MXCSR, CR4.OSXMMEXCPT, , 如果FPU=1也支持
bit 31 (PBE) Pending Break Event, STPCLK, FERR#, MISC_ENABLE MSR
bit 30 (IA-64) IA-64
bit 29 (TM) THERM_INTERRUPT, THERM_STATUS, and MISC_ENABLE MSRsxAPIC thermal LVT entry
bit 28 (HTT) Hyper-Threading Technology
bit 27 (SS) selfsnoop
bit 26 (SSE2) SSE2, MXCSR, CR4.OSXMMEXCPT,
bit 25 (SSE) SSE, MXCSR, CR4.OSXMMEXCPT,
bit 24 (FXSR) FXSAVE/FXRSTOR, CR4.OSFXSR
bit 23 (MMX) MMX
bit 22 (ACPI) THERM_CONTROL MSR
bit 21 (DTES) Debug Trace and EMON Store MSRs
bit 20 保留
bit 19 (CLFL) CLFLUSH
bit 18 (PSN) PSN (see standard EAX=l 0000_0003h), PSN_DISABLE MSR #1
bit 17 (PSE36) 4 MB PDE bits 16..13, CR4.PSE
bit 16 (PAT) PAT MSR, PDE/PTE.PAT
bit 15 (CMOV) CMOVcc, if FPU=1 then also FCMOVcc/F(U)COMI(P)
bit 14 (MCA) MCG_*/MCn_* MSRs, CR4.MCE, #MC
bit 13 (PGE) PDE/PTE.G, CR4.PGE
bit 12 (MTRR) MTRR* MSRs
bit 11 (SEP) SYSENTER/SYSEXIT, SEP_* MSRs#2
bit 10 保留
bit 9 (APIC) APIC #3, #4
bit 8 (CX8) CMPXCHG8B #5
bit 7 (MCE) MCAR/MCTR MSRs, CR4.MCE, #MC
bit 6 (PAE) 64bit PDPTE/PDE/PTEs, CR4.PAE
bit 5 (MSR) MSRs, RDMSR/WRMSR
bit 4 (TSC) TSC, RDTSC, CR4.TSD (doesn''t imply MSR=1)
bit 3 (PSE) PDE.PS, PDE/PTE.res, CR4.PSE, #PF(1xxxb)
bit 2 (DE) CR4.DE, DR7.RW=10b, #UD on MOV from/to DR4/5
bit 1 (VME) CR4.VME/PVI, EFLAGS.VIP/VIF, TSS32.IRB
bit 0 (FPU) FPU
说 明 说明尽管Intel P6 处理器不支持 SEP,在这里仍然会虚报(真不知Intel是怎么想的)处理器确实支持 CMPXCHG8B但默认却是报告不支持. 其实这是Windows NT的一个输入 EAX=0000_0002h 得到处理器配置描述 EAX.15..8
EAX.23..16
EAX.31..24
EBX.0..7
EBX.15..8
EBX.23..16
EBX.31..24
ECX.0..7
ECX.15..8
ECX.23..16
ECX.31..24
EDX.0..7
EDX.15..8
EDX.23..16
EDX.31..24 配置描述
00h null descriptor (=unused descriptor)
01h code TLB, 4K pages, 4 ways, 32 entries
02h code TLB, 4M pages, fully, 2 entries
03h data TLB, 4K pages, 4 ways, 64 entries
04h data TLB, 4M pages, 4 ways, 8 entries
06h code L1 cache, 8 KB, 4 ways, 32 byte lines
08h code L1 cache, 16 KB, 4 ways, 32 byte lines
0Ah data L1 cache, 8 KB, 2 ways, 32 byte lines
0Ch data L1 cache, 16 KB, 4 ways, 32 byte lines
10h data L1 cache, 16 KB, 4 ways, 32 byte lines (IA-64)
15h code L1 cache, 16 KB, 4 ways, 32 byte lines (IA-64)
1Ah code and data L2 cache, 96 KB, 6 ways, 64 byte lines (IA-64)
22h code and data L3 cache, 512 KB, 4 ways (!), 64 byte lines, dual-sectored
23h code and data L3 cache, 1024 KB, 8 ways, 64 byte lines, dual-sectored
25h code and data L3 cache, 2048 KB, 8 ways, 64 byte lines, dual-sectored
29h code and data L3 cache, 4096 KB, 8 ways, 64 byte lines, dual-sectored
39h code and data L2 cache, 128 KB, 4 ways, 64 byte lines, sectored
3Bh code and data L2 cache, 128 KB, 2 ways, 64 byte lines, sectored
3Ch code and data L2 cache, 256 KB, 4 ways, 64 byte lines, sectored
40h no integrated L2 cache (P6 core) or L3 cache (P4 core)
41h code and data L2 cache, 128 KB, 4 ways, 32 byte lines
42h code and data L2 cache, 256 KB, 4 ways, 32 byte lines
43h code and data L2 cache, 512 KB, 4 ways, 32 byte lines
44h code and data L2 cache, 1024 KB, 4 ways, 32 byte lines
45h code and data L2 cache, 2048 KB, 4 ways, 32 byte lines
50h code TLB, 4K/4M/2M pages, fully, 64 entries
51h code TLB, 4K/4M/2M pages, fully, 128 entries
52h code TLB, 4K/4M/2M pages, fully, 256 entries
5Bh data TLB, 4K/4M pages, fully, 64 entries
5Ch data TLB, 4K/4M pages, fully, 128 entries
5Dh data TLB, 4K/4M pages, fully, 256 entries
66h data L1 cache, 8 KB, 4 ways, 64 byte lines, sectored
67h data L1 cache, 16 KB, 4 ways, 64 byte lines, sectored
68h data L1 cache, 32 KB, 4 ways, 64 byte lines, sectored
70h trace L1 cache, 12 KμOPs, 8 ways
71h trace L1 cache, 16 KμOPs, 8 ways
72h trace L1 cache, 32 KμOPs, 8 ways
77h code L1 cache, 16 KB, 4 ways, 64 byte lines, sectored (IA-64)
79h code and data L2 cache, 128 KB, 8 ways, 64 byte lines, dual-sectored
7Ah code and data L2 cache, 256 KB, 8 ways, 64 byte lines, dual-sectored
7Bh code and data L2 cache, 512 KB, 8 ways, 64 byte lines, dual-sectored
7Ch code and data L2 cache, 1024 KB, 8 ways, 64 byte lines, dual-sectored
7Eh code and data L2 cache, 256 KB, 8 ways, 128 byte lines, sect. (IA-64)
81h code and data L2 cache, 128 KB, 8 ways, 32 byte lines
82h code and data L2 cache, 256 KB, 8 ways, 32 byte lines
83h code and data L2 cache, 512 KB, 8 ways, 32 byte lines
84h code and data L2 cache, 1024 KB, 8 ways, 32 byte lines
85h code and data L2 cache, 2048 KB, 8 ways, 32 byte lines
88h code and data L3 cache, 2048 KB, 4 ways, 64 byte lines (IA-64)
89h code and data L3 cache, 4096 KB, 4 ways, 64 byte lines (IA-64)
8Ah code and data L3 cache, 8192 KB, 4 ways, 64 byte lines (IA-64)
8Dh code and data L3 cache, 3096 KB, 12 ways, 128 byte lines (IA-64)
90h code TLB, 4K...256M pages, fully, 64 entries (IA-64)
96h data L1 TLB, 4K...256M pages, fully, 32 entries (IA-64)
9Bh data L2 TLB, 4K...256M pages, fully, 96 entries (IA-64)
值 描述
70h Cyrix specific: code and data TLB, 4K pages, 4 ways, 32 entries
74h Cyrix specific: ???
77h Cyrix specific: ???
80h Cyrix specific: code and data L1 cache, 16 KB, 4 ways, 16 byte lines
82h Cyrix specific: ???
84h Cyrix specific: ???
值 描述 P6 EAX=0302_0101h
EBX=0000_0000h
ECX=0000_0000h
EDX=0604_0A43h 这块P6处理器包含4K/M code/data TLB,8+8 KB code/data L1 cache 和混合 512 KB code/data L2 cache.
说明 说明输入 EAX=0000_0003h 得到处理器序列号Transmeta Crusoe)
ECX=xxxx_xxxxh 处理器序列号 8000_0000h
输入 EAX=8000_0000h 得到扩展CPUID指令所支持的最大值和厂家的名称字符串
EBX-EDX-ECX 厂家的名称字符串 Intel
TransmetaCPU Transmeta
保留 National Semiconductor
extended EAX= 8000_0001h
输入 EAX=8000_0001h 得到处理器 family/model/stepping and features flags #0
输出 EAX=0000_0xxxh 处理器 family/model/stepping
family Family是 bits 11..8.
5 AMD K5
Centaur C2
Transmeta Crusoe TM3x00 and TM5x00
6 AMD K6
VIA Cyrix III
7 AMD K7
model model 是bits 7..4.
AMD K5 1 5k86 (PR120 or PR133)
2 5k86 (PR166)
3 5k86 (PR200)
AMD K6 6 K6 (0.30 μm)
8 K6-2
9 K6-III
D K6-2+ or K6-III+ (0.18 μm)
3 Duron (SF core)
4 Athlon (TB core)
6 Athlon (PM core)
7 Duron (MG core)
8 Athlon (TH core)
A Athlon (Barton core)
Centaur 8 C2
9 C3
VIA Cyrix III 5 Cyrix M2 core
6 WinChip C5A core
7 WinChip C5B core (if stepping = 0..7)
7 WinChip C5C core (if stepping = 8..F)
8 WinChip C5C-T core (if stepping = 0..7)
Transmeta 4 Crusoe TM3x00 and TM5x00
stepping stepping是.
EDX=xxxx_xxxxh feature flags description of indicated feature
bit 31 (3DNow!) 3DNow!
bit 30 (3DNow!+) extended 3DNow!
bit 29 (LM) AA-64, Long Mode(也就是AMD的X86-64指令集)
bit 24 (MMX+)
bit 24 (FXSR) Cyrix specific: extended MMX
AMD K7: FXSAVE/FXRSTOR, CR4.OSFXSR
bit 23 (MMX) MMX
bit 22 (MMX+) AMD specific: MMX-SSE and SSE-MEM
bit 21 保留
bit 20 (NX) EFER.NXE, P?E.NX, #PF(1xxxx)
bit 19 (MP) MP-capable #3
bit 18 保留
bit 17 (PSE36) 4 MB PDE bits 16..13, CR4.PSE
bit 16 (FCMOV)
bit 16 (PAT) FCMOVcc/F(U)COMI(P) (implies FPU=1)
AMD K7: PAT MSR, PDE/PTE.PAT
bit 15 (CMOV) CMOVcc
bit 14 (MCA) MCG_*/MCn_* MSRs, CR4.MCE, #MC
bit 13 (PGE) PDE/PTE.G, CR4.PGE
bit 12 (MTRR) MTRR* MSRs
bit 11 (SEP) SYSCALL/SYSRET, EFER/STAR MSRs #1
bit 10 保留 #1
bit 9 (APIC) APIC #2
bit 8 (CX8) CMPXCHG8B
bit 7 (MCE) MCAR/MCTR MSRs, CR4.MCE, #MC
bit 6 (PAE) 64bit PDPTE/PDE/PTEs, CR4.PAE
bit 5 (MSR) MSRs, RDMSR/WRMSR
bit 4 (TSC) TSC, RDTSC, CR4.TSD (doesn''t imply MSR=1)
bit 3 (PSE) PDE.PS, PDE/PTE.res, CR4.PSE, #PF(1xxxb)
bit 2 (DE) CR4.DE, DR7.RW=10b, #UD on MOV from/to DR4/5
bit 1 (VME) CR4.VME/PVI, EFLAGS.VIP/VIF, TSS32.IRB
bit 0 (FPU) FPU
说 明 内容处理器不支持; 返回值EAX, EBX, ECX, 和 EDX都是处理器, model 6, uses 使用第十位指示的K7 处理器如果是具有多处理器能力的版本可能也报告时 8000_0002h, 8000_0003h, and 8000_0004h
输入 EAX=8000_0002h 得到处理器名称的第一部分
输出
AMD K6 AMD-K6tm w/ multimedia extensions
AMD K6-2 AMD-K6(tm) 3D 处理器处理器 (?)
AMD K6-III+ AMD-K6(tm)-III 处理器 (models 3/4, 6/7, and 8 -- programmable)
Centaur C2 #2 IDT WinChip 2
IDT WinChip 2-3D
VIA Cyrix III CYRIX III(tm) (?)
VIA Samuel (?)
VIA Ezra (?)
Intel P4 Intel(R) Pentium(R) 4 CPU xxxxMHz (right-justified, leading whitespaces)顺便说一句,Intel只有P4以上才支持。
Transmeta Transmeta(tm) Crusoe(tm) 处理器 8000_0005h
输入 EAX=8000_0005h 得到L1缓存容量和入口数量
31..24 data TLB associativity (FFh=full)
23..16 data TLB entries
15..8 code TLB associativity (FFh=full)
7..0 code TLB entries
EBX 4 KB L1入口信息
bits description
31..24 data TLB associativity (FFh=full)
23..16 data TLB entries
15..8 code TLB associativity (FFh=full)
7..0 code TLB entries
ECX data L1 信息描述
bits description
31..24 data L1 cache size in KBs
23..16 data L1 cache associativity (FFh=full)
15..8 data L1 cache lines per tag
7..0 data L1 cache line size in bytes
EDX code L1信息描述
bits description
31..24 code L1 cache size in KBs
23..16 code L1 cache associativity (FFh=full)
15..8 code L1 cache lines per tag
7..0 code L1 cache line size in bytes
说明处理器使用0000_0002h做类似的描述输入 EAX=8000_0006h 得到L1缓存容量和入口数量
31..28 data TLB associativity #2
27..16 data TLB entries
15..12 code TLB associativity #2
11..0 code TLB entries
EBX 4 KB L2 入口信息
31..28 data TLB associativity #1
27..16 data TLB entries
15..12 code TLB associativity #1
11..0 code TLB entries
ECX 统一 L2 cache 信息 #32
bits description
31..16 #4 unified L2 cache size in KBs #3
15..12 #4 unified L2 cache associativity #1
11..8 #4 unified L2 cache lines per tag
7..0 unified L2 cache line size in bytes
说明 描述
#1 0000b=L2 off, 0001b=direct mapped, 0010b=2-way, 0100b=4-way, 0110b=8-way, 1000b=16-way, 1111b=full
#2 AMD K7 处理器 L2 cache 必须依赖于此信息的K7 处理器(Duron) 具有 64 KB二级缓存,但是却报告只有1KB.
#4 VIA Cyrix III CPUID=0670..068Fh (C5B/C5C)的处理器错误报告bits 31..24, 23..16, and 15..8.
EAX 8000_0007h
输入 EAX=8000_0007h 电源管理信息
2 (VID) voltage ID control supported
1 (FID) frequency ID control supported
0 temperature sensing diode supported
EAX= 8000_0008h
输入 EAX=8000_0008h 得到地址大小信息
15..8 virtual address bits
7..0 physical address bits
Transmeta EAX= 8086_0000h
输入 EAX=8086_0000h 得到CPUID的最大支持和厂商字符串
TransmetaCPU Transmeta processor
Transmeta EAX= 8086_0001h
输入 EAX=8086_0001h 得到处理器信息
family The family is encoded in bits 11..8.
5 Transmeta Crusoe TM3x00 and TM5x00
model The model is encoded in bits 7..4.
Transmeta 4 Crusoe TM3x00 and TM5x00
stepping The stepping is encoded in bits 3..0.
The stepping values are processor-specific.
EBX=aabb_ccddh hardware revision (a.b-c.d), if 2000_0000h: see EAX=l 8086_0002h register EAX instead
ECX=xxxx_xxxxh nominal core clock frequency (MHz)
EDX=xxxx_xxxxh feature flags description of indicated feature
bits 31..4 reserved
bit 3 (LRTI) LongRun Table Interface
bit 2 (???) unknown
bit 1 (LR) LongRun
bit 0 (BAD) recovery CMS active (due to a failed upgrade)
Transmeta EAX= 8086_0002h
输入 EAX=8086_0002h 得到处理器信息 EAX xxxx_xxxxh reserved or hardware revision (xxxxxxxxh)
see EAX=l 8086_0001h register EBX for details
EBX aabb_ccddh software revision, part 1/2 (a.b.c-d-x)
ECX xxxx_xxxxh software revision, part 2/2 (a.b.c-d-x)
Transmeta EAX=8086_0003h, 8086_0004h, 8086_0005h, and 8086_0006h
输入 EAX=8086_0003h 得到信息字符串第一部分 #1
Transmeta 20000805 23:30 official release 4.1.4#2 (例子 8086_0007h
输入 EAX=8086_0007h 得到处理器信息当前的延迟 8FFF_FFFEh
输入 EAX=8FFF_FFFEh 未知 EAX 0049_4544h DEI (according to one source: Divide Et Impera = Divide And Rule)
EBX 0000_0000h 保留 8FFF_FFFFh
输入 EAX=8FFF_FFFFh 未知 EAX
EBX
ECX
EDX string NexGenerationAMD
说明 说明 EAX=xxxx_xxxxh
EBX=xxxx_xxxxh
ECX=xxxx_xxxxh
EDX=xxxx_xxxxh 不明确