Intel Xeon Gold 6248R vs AMD EPYC 7371
Comparative analysis of Intel Xeon Gold 6248R and AMD EPYC 7371 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 Intel Xeon Gold 6248R
- 8 more cores, run more applications at once: 24 vs 16
- 16 more threads: 48 vs 32
- Around 5% higher clock speed: 4.00 GHz vs 3.8 GHz
- Around 1% better performance in PassMark - Single thread mark: 2335 vs 2320
- Around 11% better performance in PassMark - CPU mark: 61068 vs 54894
Specifications (specs) | |
Number of cores | 24 vs 16 |
Number of threads | 48 vs 32 |
Maximum frequency | 4.00 GHz vs 3.8 GHz |
Benchmarks | |
PassMark - Single thread mark | 2335 vs 2320 |
PassMark - CPU mark | 61068 vs 54894 |
Reasons to consider the AMD EPYC 7371
- Around 79% more L3 cache; more data can be stored in the L3 cache for quick access later
- Around 3% lower typical power consumption: 200 Watt vs 205 Watt
L3 cache | 64 MB vs 35.75 MB |
Thermal Design Power (TDP) | 200 Watt vs 205 Watt |
Compare benchmarks
CPU 1: Intel Xeon Gold 6248R
CPU 2: AMD EPYC 7371
PassMark - Single thread mark |
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PassMark - CPU mark |
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Name | Intel Xeon Gold 6248R | AMD EPYC 7371 |
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PassMark - Single thread mark | 2335 | 2320 |
PassMark - CPU mark | 61068 | 54894 |
Compare specifications (specs)
Intel Xeon Gold 6248R | AMD EPYC 7371 | |
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Essentials |
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Architecture codename | Cascade Lake | |
Launch date | 24 Feb 2020 | |
Launch price (MSRP) | $2700 | |
Place in performance rating | 337 | 405 |
Processor Number | 6248R | |
Series | 2nd Generation Intel Xeon Scalable Processors | AMD EPYC 7000 Series |
Status | Launched | |
Vertical segment | Server | Server |
Family | AMD EPYC | |
Performance |
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Base frequency | 3.00 GHz | 3.1 GHz |
L1 cache | 1.5 MB | |
L2 cache | 24 MB | |
L3 cache | 35.75 MB | 64 MB |
Manufacturing process technology | 14 nm | |
Maximum core temperature | 75°C | |
Maximum frequency | 4.00 GHz | 3.8 GHz |
Number of cores | 24 | 16 |
Number of threads | 48 | 32 |
Number of Ultra Path Interconnect (UPI) Links | 2 | |
Memory |
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Max memory channels | 6 | 8 |
Maximum memory size | 1 TB | |
Supported memory frequency | 2933 MHz | 2666 MHz |
Supported memory types | DDR4-2933 | DDR4 |
Maximum memory bandwidth | 341 GB/s | |
Compatibility |
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Package Size | 76.0mm x 56.5mm | |
Sockets supported | FCLGA3647 | |
Thermal Design Power (TDP) | 205 Watt | 200 Watt |
Socket Count | 1P/2P | |
Peripherals |
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Max number of PCIe lanes | 48 | |
PCI Express revision | 3.0 | x128 |
Scalability | 2S | |
Security & Reliability |
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Execute Disable Bit (EDB) | ||
Intel® Run Sure Technology | ||
Intel® Trusted Execution technology (TXT) | ||
Mode-based Execute Control (MBE) | ||
Advanced Technologies |
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Enhanced Intel SpeedStep® technology | ||
Instruction set extensions | Intel SSE4.2, Intel AVX, Intel AVX2, Intel AVX-512 | |
Intel 64 | ||
Intel® AES New Instructions | ||
Intel® Hyper-Threading technology | ||
Intel® Turbo Boost technology | ||
Intel® Volume Management Device (VMD) | ||
Intel® vPro™ Platform Eligibility | ||
Number of AVX-512 FMA Units | 2 | |
Speed Shift technology | ||
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) |