AMD EPYC 7232P vs Intel Xeon E5-4627 v3
Comparative analysis of AMD EPYC 7232P and Intel Xeon E5-4627 v3 processors for all known characteristics in the following categories: Essentials, Performance, Memory, Compatibility, Peripherals, Security & Reliability, Advanced Technologies, Virtualization. Benchmark processor performance analysis: PassMark - Single thread mark, PassMark - CPU mark.
Differences
Reasons to consider the AMD EPYC 7232P
- 6 more threads: 16 vs 10
- A newer manufacturing process allows for a more powerful, yet cooler running processor: 7 nm, 14 nm vs 22 nm
- 5.3x more maximum memory size: 4 TB vs 768 GB
- Around 13% lower typical power consumption: 120 Watt vs 135 Watt
- Around 3% better performance in PassMark - Single thread mark: 1767 vs 1722
Specifications (specs) | |
Number of threads | 16 vs 10 |
Manufacturing process technology | 7 nm, 14 nm vs 22 nm |
Maximum memory size | 4 TB vs 768 GB |
Thermal Design Power (TDP) | 120 Watt vs 135 Watt |
Benchmarks | |
PassMark - Single thread mark | 1767 vs 1722 |
Reasons to consider the Intel Xeon E5-4627 v3
- 2 more cores, run more applications at once: 10 vs 8
- Around 14% better performance in PassMark - CPU mark: 20294 vs 17731
Specifications (specs) | |
Number of cores | 10 vs 8 |
Benchmarks | |
PassMark - CPU mark | 20294 vs 17731 |
Compare benchmarks
CPU 1: AMD EPYC 7232P
CPU 2: Intel Xeon E5-4627 v3
PassMark - Single thread mark |
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PassMark - CPU mark |
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Name | AMD EPYC 7232P | Intel Xeon E5-4627 v3 |
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PassMark - Single thread mark | 1767 | 1722 |
PassMark - CPU mark | 17731 | 20294 |
Compare specifications (specs)
AMD EPYC 7232P | Intel Xeon E5-4627 v3 | |
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Essentials |
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Architecture codename | Zen 2 | Haswell |
Launch date | 7 Aug 2019 | Q2'15 |
Launch price (MSRP) | $450 | |
OPN PIB | 100-100000081WOF | |
OPN Tray | 100-000000081 | |
Place in performance rating | 1181 | 1164 |
Vertical segment | Server | Server |
Processor Number | E5-4627V3 | |
Series | Intel® Xeon® Processor E5 v3 Family | |
Status | Launched | |
Performance |
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Base frequency | 3.1 GHz | 2.60 GHz |
L1 cache | 512 KB | |
L2 cache | 4 MB | |
L3 cache | 32 MB | |
Manufacturing process technology | 7 nm, 14 nm | 22 nm |
Maximum frequency | 3.2 GHz | 3.20 GHz |
Number of cores | 8 | 10 |
Number of threads | 16 | 10 |
Unlocked | ||
64 bit support | ||
Bus Speed | 8 GT/s QPI | |
Maximum core temperature | 86.4°C | |
Number of QPI Links | 2 | |
Memory |
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ECC memory support | ||
Max memory channels | 8 | 4 |
Maximum memory bandwidth | 190.7 GB/s | 68 GB/s |
Maximum memory size | 4 TB | 768 GB |
Supported memory types | DDR4-3200 | DDR4 |
Compatibility |
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Socket Count | 1P | |
Sockets supported | SP3 | FCLGA2011-3 |
Thermal Design Power (TDP) | 120 Watt | 135 Watt |
Low Halogen Options Available | ||
Max number of CPUs in a configuration | 4 | |
Package Size | 52.5mm x 45mm | |
Peripherals |
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Max number of PCIe lanes | 128 | 40 |
PCI Express revision | 4.0 | 3.0 |
PCIe configurations | x16, x8 | x4, x8, x16 |
Scalability | 4S | |
Security & Reliability |
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Execute Disable Bit (EDB) | ||
Intel® OS Guard | ||
Intel® Secure Key technology | ||
Intel® Trusted Execution technology (TXT) | ||
Advanced Technologies |
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Enhanced Intel SpeedStep® technology | ||
Idle States | ||
Instruction set extensions | Intel® AVX2 | |
Intel 64 | ||
Intel® AES New Instructions | ||
Intel® Flex Memory Access | ||
Intel® Hyper-Threading technology | ||
Intel® Instruction Replay Technology | ||
Intel® TSX-NI | ||
Intel® Turbo Boost technology | ||
Physical Address Extensions (PAE) | 46-bit | |
Thermal Monitoring | ||
Virtualization |
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Intel® Virtualization Technology (VT-x) | ||
Intel® Virtualization Technology for Directed I/O (VT-d) | ||
Intel® VT-x with Extended Page Tables (EPT) |