Fedora 33 Guest does not see AVX/AVX2 Support
Posted: 5. Mar 2021, 23:04
I have a windows 10 host. It has an i7-8850H cpu. I've used coreinfo to verify support for AVX/AVX2.
I am running virtualbox 6.1
My guest Fedora 33 machine does not see support for AVX/AVX2 when I look at /proc/cpuinfo.
I have a separate machine also running virtualbox 6.1 that successfully creates a fedora guest that sees support for the AVX/AVX2 instructions.
How can I figure out why virtualbox running on a host that has an intel I7 chip that supports AVX/AVX2 creates a linux VM without support for this critical instruction set?
Here is the cpuinfo from /proc/cpuinfo . Here is the output from coreinfo:
I am running virtualbox 6.1
My guest Fedora 33 machine does not see support for AVX/AVX2 when I look at /proc/cpuinfo.
I have a separate machine also running virtualbox 6.1 that successfully creates a fedora guest that sees support for the AVX/AVX2 instructions.
How can I figure out why virtualbox running on a host that has an intel I7 chip that supports AVX/AVX2 creates a linux VM without support for this critical instruction set?
Here is the cpuinfo from /proc/cpuinfo . Here is the output from coreinfo:
Coreinfo v3.52 - Dump information on system CPU and memory topology Intel(R) Core(TM) i7-8850H CPU @ 2.60GHz Intel64 Family 6 Model 158 Stepping 10, GenuineIntel Microcode signature: 000000CA HTT * Hyperthreading enabled Administrator rights are required to query information. Querying CET support requires admin rights HYPERVISOR * Hypervisor is present VMX - Supports Intel hardware-assisted virtualization SVM - Supports AMD hardware-assisted virtualization X64 * Supports 64-bit mode SMX - Supports Intel trusted execution SKINIT - Supports AMD SKINIT SGX - Supports Intel SGX NX * Supports no-execute page protection SMEP * Supports Supervisor Mode Execution Prevention SMAP * Supports Supervisor Mode Access Prevention PAGE1GB * Supports 1 GB large pages PAE * Supports > 32-bit physical addresses PAT * Supports Page Attribute Table PSE * Supports 4 MB pages PSE36 * Supports > 32-bit address 4 MB pages PGE * Supports global bit in page tables SS * Supports bus snooping for cache operations VME * Supports Virtual-8086 mode RDWRFSGSBASE * Supports direct GS/FS base access FPU * Implements i387 floating point instructions MMX * Supports MMX instruction set MMXEXT - Implements AMD MMX extensions 3DNOW - Supports 3DNow! instructions 3DNOWEXT - Supports 3DNow! extension instructions SSE * Supports Streaming SIMD Extensions SSE2 * Supports Streaming SIMD Extensions 2 SSE3 * Supports Streaming SIMD Extensions 3 SSSE3 * Supports Supplemental SIMD Extensions 3 SSE4a - Supports Streaming SIMDR Extensions 4a SSE4.1 * Supports Streaming SIMD Extensions 4.1 SSE4.2 * Supports Streaming SIMD Extensions 4.2 AES * Supports AES extensions AVX * Supports AVX instruction extensions AVX2 * Supports AVX2 instruction extensions AVX-512-F - Supports AVX-512 Foundation instructions AVX-512-DQ - Supports AVX-512 double and quadword instructions AVX-512-IFAMA - Supports AVX-512 integer Fused multiply-add instructions AVX-512-PF - Supports AVX-512 prefetch instructions AVX-512-ER - Supports AVX-512 exponential and reciprocal instructions AVX-512-CD - Supports AVX-512 conflict detection instructions AVX-512-BW - Supports AVX-512 byte and word instructions AVX-512-VL - Supports AVX-512 vector length instructions FMA * Supports FMA extensions using YMM state MSR * Implements RDMSR/WRMSR instructions MTRR * Supports Memory Type Range Registers XSAVE * Supports XSAVE/XRSTOR instructions OSXSAVE * Supports XSETBV/XGETBV instructions RDRAND * Supports RDRAND instruction RDSEED * Supports RDSEED instruction CMOV * Supports CMOVcc instruction CLFSH * Supports CLFLUSH instruction CX8 * Supports compare and exchange 8-byte instructions CX16 * Supports CMPXCHG16B instruction BMI1 * Supports bit manipulation extensions 1 BMI2 * Supports bit manipulation extensions 2 ADX * Supports ADCX/ADOX instructions DCA - Supports prefetch from memory-mapped device F16C * Supports half-precision instruction FXSR * Supports FXSAVE/FXSTOR instructions FFXSR - Supports optimized FXSAVE/FSRSTOR instruction MONITOR - Supports MONITOR and MWAIT instructions MOVBE * Supports MOVBE instruction ERMSB * Supports Enhanced REP MOVSB/STOSB PCLMULDQ * Supports PCLMULDQ instruction POPCNT * Supports POPCNT instruction LZCNT * Supports LZCNT instruction SEP * Supports fast system call instructions LAHF-SAHF * Supports LAHF/SAHF instructions in 64-bit mode HLE * Supports Hardware Lock Elision instructions RTM * Supports Restricted Transactional Memory instructions DE * Supports I/O breakpoints including CR4.DE DTES64 * Can write history of 64-bit branch addresses DS * Implements memory-resident debug buffer DS-CPL - Supports Debug Store feature with CPL PCID * Supports PCIDs and settable CR4.PCIDE INVPCID * Supports INVPCID instruction PDCM * Supports Performance Capabilities MSR RDTSCP * Supports RDTSCP instruction TSC * Supports RDTSC instruction TSC-DEADLINE - Local APIC supports one-shot deadline timer TSC-INVARIANT * TSC runs at constant rate xTPR * Supports disabling task priority messages EIST * Supports Enhanced Intel Speedstep ACPI * Implements MSR for power management TM * Implements thermal monitor circuitry TM2 * Implements Thermal Monitor 2 control APIC * Implements software-accessible local APIC x2APIC * Supports x2APIC CNXT-ID - L1 data cache mode adaptive or BIOS MCE * Supports Machine Check, INT18 and CR4.MCE MCA * Implements Machine Check Architecture PBE * Supports use of FERR#/PBE# pin PSN - Implements 96-bit processor serial number PREFETCHW * Supports PREFETCHW instruction Maximum implemented CPUID leaves: 00000016 (Basic), 80000008 (Extended). Maximum implemented address width: 48 bits (virtual), 39 bits (physical). Processor signature: 000906EA Logical to Physical Processor Map: **---------- Physical Processor 0 (Hyperthreaded) --**-------- Physical Processor 1 (Hyperthreaded) ----**------ Physical Processor 2 (Hyperthreaded) ------**---- Physical Processor 3 (Hyperthreaded) --------**-- Physical Processor 4 (Hyperthreaded) ----------** Physical Processor 5 (Hyperthreaded) Logical Processor to Socket Map: ************ Socket 0 Logical Processor to NUMA Node Map: ************ NUMA Node 0 No NUMA nodes. Logical Processor to Cache Map: **---------- Data Cache 0, Level 1, 32 KB, Assoc 8, LineSize 64 **---------- Instruction Cache 0, Level 1, 32 KB, Assoc 8, LineSize 64 **---------- Unified Cache 0, Level 2, 256 KB, Assoc 4, LineSize 64 ************ Unified Cache 1, Level 3, 9 MB, Assoc 12, LineSize 64 --**-------- Data Cache 1, Level 1, 32 KB, Assoc 8, LineSize 64 --**-------- Instruction Cache 1, Level 1, 32 KB, Assoc 8, LineSize 64 --**-------- Unified Cache 2, Level 2, 256 KB, Assoc 4, LineSize 64 ----**------ Data Cache 2, Level 1, 32 KB, Assoc 8, LineSize 64 ----**------ Instruction Cache 2, Level 1, 32 KB, Assoc 8, LineSize 64 ----**------ Unified Cache 3, Level 2, 256 KB, Assoc 4, LineSize 64 ------**---- Data Cache 3, Level 1, 32 KB, Assoc 8, LineSize 64 ------**---- Instruction Cache 3, Level 1, 32 KB, Assoc 8, LineSize 64 ------**---- Unified Cache 4, Level 2, 256 KB, Assoc 4, LineSize 64 --------**-- Data Cache 4, Level 1, 32 KB, Assoc 8, LineSize 64 --------**-- Instruction Cache 4, Level 1, 32 KB, Assoc 8, LineSize 64 --------**-- Unified Cache 5, Level 2, 256 KB, Assoc 4, LineSize 64 ----------** Data Cache 5, Level 1, 32 KB, Assoc 8, LineSize 64 ----------** Instruction Cache 5, Level 1, 32 KB, Assoc 8, LineSize 64 ----------** Unified Cache 6, Level 2, 256 KB, Assoc 4, LineSize 64 Logical Processor to Group Map: ************ Group 0