Mon processeur étant un AMD avec la technologie Phoenix, je pense pouvoir essayer.
Je regarde ça demain.
Merci
@+
jsc63
Il y a quelques année, j’ai eu également un AMD 64 3200+ et je suis pratiquement sur d’avoir fait de la virtualisation (Host XP / VM Debian).
A l’époque, par défaut la technologie VT n’était pas activé dans le BIOS.
Image BIOS Phoenix :
https://www.thomas-krenn.com/de/wikiDE/images/c/ce/X7DBE-bios-intel-vt.png
A+
Merci.
Je vais regarder.
Sinon je posterai une photo.
Comme je n’ai pas trouvé, je te poste une vidéo de mon bios :
https://youtu.be/dfZBai6YKpw
Si tu ne vois rien, je pourrais peut-être faire autrement.
@+
jsc63
Personne n’a une petite idée ?
Que depuis la série Orléans, avec l’introduction du socket AM2, si le socket est du 939 ou du 754 c’est mort.
Bien vu [Clochette],
C’était bien un socket AM2
Désolé pour ton problème [jsc63].
Bon courage.
A+
Il y a quelque chose que je ne comprends pas : comment expliquer que j’ai réussi sous Ubuntu ?
Peux-tu nous fournir le contenu de /proc/cupinfo (recherche dedans de vmx ou svm de souvenir) ou avec un lscpu ?
Autre point il me semble que Qemu/KVM soit à stopper lorsque l’on veux utiliser Virtualbox essai de vérifier avec un :
# systemctl stop libvirtd
Sinon tente le déploiement d’un système 32 bits.
lscpu donne :
Architecture: x86_64
CPU op-mode(s): 32-bit, 64-bit
Byte Order: Little Endian
Address sizes: 40 bits physical, 48 bits virtual
CPU(s): 1
On-line CPU(s) list: 0
Thread(s) per core: 1
Core(s) per socket: 1
Socket(s): 1
NUMA node(s): 1
Vendor ID: AuthenticAMD
CPU family: 15
Model: 47
Model name: AMD Athlon(tm) 64 Processor 3200+
Stepping: 2
CPU MHz: 2000.000
CPU max MHz: 2000,0000
CPU min MHz: 1000,0000
BogoMIPS: 3979.58
L1d cache: 64K
L1i cache: 64K
L2 cache: 512K
NUMA node0 CPU(s): 0
Flags: fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36
clflush mmx fxsr sse sse2 syscall nx mmxext fxsr_opt lm 3dnowext 3dnow rep_good nopl cpuid pn
i lahf_lm 3dnowprefetch vmmcall
Et systemctl stop libvirtd :
Failed to stop libvirtd.service: Unit libvirtd.service not loaded.
Si je fais systemctl stop libvirtd, Failed to stop libvirtd.service: Unit libvirtd.service not found.
@+
jsc63
Alors, que peut-on tirer comme conclusions ??
Je peux y arriver ou pas ?
amd athlon 64 3200+ trop vieux
Oui
Via Virtualbox mais sans accélération, après je ne suis pas un utilisateur de Virtualbox donc mise à part ce que je t’avais dit précédemment je ne sais pas.
OK.
Merci de t’être penché sur la question.
Désolé pour ma réponse tardive, mais il se trouve que c’est un hasard.
De ton tout premier message @jsc63 :
https://www.virtualbox.org/manual/ch08.html#vboxmanage-cmd-overview
Usage (VirtualBox non ouvert) :
VBoxManage [<general option>] <command>
* Suggestion (avec l’utilisateur qui lance habituellement VirtualBox) :
VBoxManage modifyvm "Windows 7" --paravirtprovider none
* Espoir ?
Que cela chasse l’info « Accélération : Paravirtualisation Hyper-V » de « System » !
* Autres considérations / implications ?
Lenteurs !
Et à voir sur le tas 
https://www.virtualbox.org/manual/ch08.html#vboxmanage-modifyvm
--paravirtprovider none|default|legacy|minimal|hyperv|kvm:Specifies which paravirtualization interface to provide to the guest operating system.
Specifyingnoneexplicitly turns off exposing any paravirtualization interface.
The optiondefaultselects an appropriate interface when starting the VM, depending on the guest OS type.
This is the default option chosen when creating new VMs.
Thelegacyoption is used for VMs which were created with older Oracle VM VirtualBox versions and will pick a paravirtualization interface when starting the VM with Oracle VM VirtualBox 5.0 and newer. Theminimalprovider is mandatory for Mac OS X guests.
kvmandhypervare recommended for Linux and Windows guests respectively.
These options are explained in Section 10.5, “Paravirtualization Providers”.
https://www.virtualbox.org/manual/ch10.html#hwvirt
https://www.virtualbox.org/manual/ch10.html#hwvirt-details
https://www.virtualbox.org/manual/ch10.html#gimproviders
Hyper-V : Présente une interface d’hyperviseur Microsoft Hyper-V qui est reconnue par Windows 7 et les systèmes d’exploitation plus récents. L’implémentation d’Oracle VM VirtualBox prend actuellement en charge les horloges paravirtualisées, les rapports de fréquence APIC, le débogage invité, les rapports de crash invité et les contrôles de temporisation détendus. Ce fournisseur est recommandé pour les invités Windows.
Bonjour,
Effectivement, les paramètres de virtualisation sont désactivées mais le message d’erreur est toujours là ! 
J’ai donc récolté un maximum d’informations concernant mon processeur :
CPU 0:
vendor_id = "AuthenticAMD"
version information (1/eax):
processor type = primary processor (0)
family = Intel Pentium 4/Pentium D/Pentium Extreme Edition/Celeron/Xeon/Xeon MP/Itanium2, AMD Athlon 64/Athlon XP-M/Opteron/Sempron/Turion (15)
model = 0xf (15)
stepping id = 0x2 (2)
extended family = 0x0 (0)
extended model = 0x2 (2)
(simple synth) = AMD Athlon 64 (Venice DH-E6) / Sempron (Palermo DH-E6), 939-pin, 90nm
miscellaneous (1/ebx):
process local APIC physical ID = 0x0 (0)
cpu count = 0x0 (0)
CLFLUSH line size = 0x8 (8)
brand index = 0x0 (0)
brand id = 0x00 (0): unknown
feature information (1/edx):
x87 FPU on chip = true
VME: virtual-8086 mode enhancement = true
DE: debugging extensions = true
PSE: page size extensions = true
TSC: time stamp counter = true
RDMSR and WRMSR support = true
PAE: physical address extensions = true
MCE: machine check exception = true
CMPXCHG8B inst. = true
APIC on chip = true
SYSENTER and SYSEXIT = true
MTRR: memory type range registers = true
PTE global bit = true
MCA: machine check architecture = true
CMOV: conditional move/compare instr = true
PAT: page attribute table = true
PSE-36: page size extension = true
PSN: processor serial number = false
CLFLUSH instruction = true
DS: debug store = false
ACPI: thermal monitor and clock ctrl = false
MMX Technology = true
FXSAVE/FXRSTOR = true
SSE extensions = true
SSE2 extensions = true
SS: self snoop = false
hyper-threading / multi-core supported = false
TM: therm. monitor = false
IA64 = false
PBE: pending break event = false
feature information (1/ecx):
PNI/SSE3: Prescott New Instructions = true
PCLMULDQ instruction = false
DTES64: 64-bit debug store = false
MONITOR/MWAIT = false
CPL-qualified debug store = false
VMX: virtual machine extensions = false
SMX: safer mode extensions = false
Enhanced Intel SpeedStep Technology = false
TM2: thermal monitor 2 = false
SSSE3 extensions = false
context ID: adaptive or shared L1 data = false
SDBG: IA32_DEBUG_INTERFACE = false
FMA instruction = false
CMPXCHG16B instruction = false
xTPR disable = false
PDCM: perfmon and debug = false
PCID: process context identifiers = false
DCA: direct cache access = false
SSE4.1 extensions = false
SSE4.2 extensions = false
x2APIC: extended xAPIC support = false
MOVBE instruction = false
POPCNT instruction = false
time stamp counter deadline = false
AES instruction = false
XSAVE/XSTOR states = false
OS-enabled XSAVE/XSTOR = false
AVX: advanced vector extensions = false
F16C half-precision convert instruction = false
RDRAND instruction = false
hypervisor guest status = false
extended processor signature (0x80000001/eax):
family/generation = AMD Athlon 64/Opteron/Sempron/Turion (15)
model = 0xf (15)
stepping id = 0x2 (2)
extended family = 0x0 (0)
extended model = 0x2 (2)
(simple synth) = AMD Athlon 64 (Venice DH-E6) / Sempron (Palermo DH-E6), 939-pin, 90nm
extended feature flags (0x80000001/edx):
x87 FPU on chip = true
virtual-8086 mode enhancement = true
debugging extensions = true
page size extensions = true
time stamp counter = true
RDMSR and WRMSR support = true
physical address extensions = true
machine check exception = true
CMPXCHG8B inst. = true
APIC on chip = true
SYSCALL and SYSRET instructions = true
memory type range registers = true
global paging extension = true
machine check architecture = true
conditional move/compare instruction = true
page attribute table = true
page size extension = true
multiprocessing capable = false
no-execute page protection = true
AMD multimedia instruction extensions = true
MMX Technology = true
FXSAVE/FXRSTOR = true
SSE extensions = true
1-GB large page support = false
RDTSCP = false
long mode (AA-64) = true
3DNow! instruction extensions = true
3DNow! instructions = true
extended brand id (0x80000001/ebx):
raw = 0x10a (266)
BrandId = 0x10a (266)
BrandTableIndex = 0x4 (4)
NN = 0xa (10)
AMD feature flags (0x80000001/ecx):
LAHF/SAHF supported in 64-bit mode = true
CMP Legacy = false
SVM: secure virtual machine = false
extended APIC space = false
AltMovCr8 = false
LZCNT advanced bit manipulation = false
SSE4A support = false
misaligned SSE mode = false
3DNow! PREFETCH/PREFETCHW instructions = false
OS visible workaround = false
instruction based sampling = false
XOP support = false
SKINIT/STGI support = false
watchdog timer support = false
lightweight profiling support = false
4-operand FMA instruction = false
TCE: translation cache extension = false
NodeId MSR C001100C = false
TBM support = false
topology extensions = false
core performance counter extensions = false
data breakpoint extension = false
performance time-stamp counter support = false
performance counter extensions = false
MWAITX/MONITORX supported = false
brand = "AMD Athlon(tm) 64 Processor 3200+"
L1 TLB/cache information: 2M/4M pages & L1 TLB (0x80000005/eax):
instruction # entries = 0x8 (8)
instruction associativity = 0xff (255)
data # entries = 0x8 (8)
data associativity = 0xff (255)
L1 TLB/cache information: 4K pages & L1 TLB (0x80000005/ebx):
instruction # entries = 0x20 (32)
instruction associativity = 0xff (255)
data # entries = 0x20 (32)
data associativity = 0xff (255)
L1 data cache information (0x80000005/ecx):
line size (bytes) = 0x40 (64)
lines per tag = 0x1 (1)
associativity = 0x2 (2)
size (KB) = 0x40 (64)
L1 instruction cache information (0x80000005/edx):
line size (bytes) = 0x40 (64)
lines per tag = 0x1 (1)
associativity = 0x2 (2)
size (KB) = 0x40 (64)
L2 TLB/cache information: 2M/4M pages & L2 TLB (0x80000006/eax):
instruction # entries = 0x0 (0)
instruction associativity = L2 off (0)
data # entries = 0x0 (0)
data associativity = L2 off (0)
L2 TLB/cache information: 4K pages & L2 TLB (0x80000006/ebx):
instruction # entries = 0x200 (512)
instruction associativity = 4-way (4)
data # entries = 0x200 (512)
data associativity = 4-way (4)
L2 unified cache information (0x80000006/ecx):
line size (bytes) = 0x40 (64)
lines per tag = 0x1 (1)
associativity = 16-way (8)
size (KB) = 0x200 (512)
L3 cache information (0x80000006/edx):
line size (bytes) = 0x0 (0)
lines per tag = 0x0 (0)
associativity = L2 off (0)
size (in 512KB units) = 0x0 (0)
RAS Capability (0x80000007/ebx):
MCA overflow recovery support = false
SUCCOR support = false
HWA: hardware assert support = false
scalable MCA support = false
Advanced Power Management Features (0x80000007/ecx):
CmpUnitPwrSampleTimeRatio = 0x0 (0)
Advanced Power Management Features (0x80000007/edx):
TS: temperature sensing diode = true
FID: frequency ID control = true
VID: voltage ID control = true
TTP: thermal trip = true
TM: thermal monitor = true
STC: software thermal control = true
100 MHz multiplier control = false
hardware P-State control = false
TscInvariant = false
CPB: core performance boost = false
read-only effective frequency interface = false
processor feedback interface = false
APM power reporting = false
connected standby = false
RAPL: running average power limit = false
Physical Address and Linear Address Size (0x80000008/eax):
maximum physical address bits = 0x28 (40)
maximum linear (virtual) address bits = 0x30 (48)
maximum guest physical address bits = 0x0 (0)
Extended Feature Extensions ID (0x80000008/ebx):
CLZERO instruction = false
instructions retired count support = false
always save/restore error pointers = false
Logical CPU cores (0x80000008/ecx):
number of CPU cores - 1 = 0x0 (0)
ApicIdCoreIdSize = 0x0 (0)
SVM Secure Virtual Machine (0x8000000a/eax):
SvmRev: SVM revision = 0x0 (0)
SVM Secure Virtual Machine (0x8000000a/edx):
nested paging = false
LBR virtualization = false
SVM lock = false
NRIP save = false
MSR based TSC rate control = false
VMCB clean bits support = false
flush by ASID = false
decode assists = false
SSSE3/SSE5 opcode set disable = false
pause intercept filter = false
pause filter threshold = false
AVIC: AMD virtual interrupt controller = false
virtualized VMLOAD/VMSAVE = false
virtualized GIF = false
NASID: number of address space identifiers = 0x0 (0):
(instruction supported synth):
CMPXCHG8B = true
conditional move/compare = true
PREFETCH/PREFETCHW = true
(multi-processing synth): none
(multi-processing method): AMD
(synth) = AMD Athlon 64 (Venice DH-E6), 939-pin, 90nm Processor 3200+
Peut-être qu tu pourrais me dire si oui ou non il est capable de virtualiser ?? (je suis sur que oui mais on ne sais jamais).
Merci,
@+ : 
jsc63
Bonjour,
cette discussion pourrait pt aider :
https://www.debian-fr.org/t/virtualbox-6-1-ca-coince/80989/10
invar
Bonjour,
Merci pour ta proposition, mais comment ça marche ?
Désolé pour l’ignorance…
@+
jsc63