EPYC 7H12 vs V-Series V105
Aggregate performance score
EPYC 7H12 outperforms V-Series V105 by a whopping 31214% based on our aggregate benchmark results.
Primary details
Comparing V-Series V105 and EPYC 7H12 processor market type (desktop or notebook), architecture, sales start time and price.
Place in the ranking | 3322 | 48 |
Place by popularity | not in top-100 | not in top-100 |
Market segment | Laptop | Server |
Series | AMD V-Series | AMD EPYC |
Power efficiency | 1.47 | 14.82 |
Architecture codename | no data | Zen 2 (2017−2020) |
Release date | 12 May 2010 (14 years ago) | 18 September 2019 (5 years ago) |
Detailed specifications
V-Series V105 and EPYC 7H12 basic parameters such as number of cores, number of threads, base frequency and turbo boost clock, lithography, cache size and multiplier lock state. These parameters indirectly say of CPU speed, though for more precise assessment you have to consider their test results.
Physical cores | 1 (Single-Core) | 64 (Tetrahexaconta-Core) |
Threads | 1 | 128 |
Base clock speed | no data | 2.6 GHz |
Boost clock speed | 1.2 GHz | 3.3 GHz |
Bus rate | 2000 MHz | no data |
Multiplier | no data | 26 |
L1 cache | 128 KB | 96K (per core) |
L2 cache | 512 KB | 512K (per core) |
L3 cache | no data | 256 MB (shared) |
Chip lithography | 45 nm | 7 nm, 14 nm |
Die size | no data | 192 mm2 |
Number of transistors | no data | 4,800 million |
64 bit support | + | + |
Windows 11 compatibility | - | + |
Unlocked multiplier | - | + |
Compatibility
Information on V-Series V105 and EPYC 7H12 compatibility with other computer components: motherboard (look for socket type), power supply unit (look for power consumption) etc. Useful when planning a future computer configuration or upgrading an existing one. Note that power consumption of some processors can well exceed their nominal TDP, even without overclocking. Some can even double their declared thermals given that the motherboard allows to tune the CPU power parameters.
Number of CPUs in a configuration | no data | 2 (Multiprocessor) |
Socket | S1 | TR4 |
Power consumption (TDP) | 9 Watt | 280 Watt |
Technologies and extensions
Technological solutions and additional instructions supported by V-Series V105 and EPYC 7H12. You'll probably need this information if you require some particular technology.
Instruction set extensions | SSE4A, AMD64, Enhanced Virus Protection, Virtualization | no data |
AES-NI | - | + |
AVX | - | + |
VirusProtect | + | - |
Precision Boost 2 | no data | + |
Virtualization technologies
Virtual machine speed-up technologies supported by V-Series V105 and EPYC 7H12 are enumerated here.
AMD-V | + | + |
Memory specs
Types, maximum amount and channel quantity of RAM supported by V-Series V105 and EPYC 7H12. Depending on the motherboard, higher memory frequencies may be supported.
Supported memory types | DDR3 | DDR4 Eight-channel |
Maximum memory size | no data | 4 TiB |
Max memory channels | no data | 8 |
Maximum memory bandwidth | no data | 204.763 GB/s |
ECC memory support | - | + |
Pros & cons summary
Performance score | 0.14 | 43.84 |
Recency | 12 May 2010 | 18 September 2019 |
Physical cores | 1 | 64 |
Threads | 1 | 128 |
Chip lithography | 45 nm | 7 nm |
Power consumption (TDP) | 9 Watt | 280 Watt |
V-Series V105 has 3011.1% lower power consumption.
EPYC 7H12, on the other hand, has a 31214.3% higher aggregate performance score, an age advantage of 9 years, 6300% more physical cores and 12700% more threads, and a 542.9% more advanced lithography process.
The EPYC 7H12 is our recommended choice as it beats the V-Series V105 in performance tests.
Be aware that V-Series V105 is a notebook processor while EPYC 7H12 is a server/workstation one.
Should you still have questions on choice between V-Series V105 and EPYC 7H12, ask them in Comments section, and we shall answer.
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