CPU Comparison
Intel Xeon 6556P-B vs Intel Xeon 6563P-B
A side-by-side comparison of specs, performance and value. The Intel Xeon 6556P-B is a 36-core, 72-thread server SoC from the Granite Rapids-D family, built on Intel 3 process for networking and edge appliances, with integrated vRAN Boost, QAT, DLB and DSA accelerators, DDR5-6400 memory and 48 PCIe 5.0/4.0 lanes in a BGA4368 package.
The Bottom Line
Overview & Launch
Specifications Compared
Performance Compared
Productivity
Gaming
Virtualization
Efficiency
Specialized Performance
AI / ML
- AMX and DL Boost accelerate INT8/BF16 inference
- Xeon 6 SoC family claims up to 4.3x inference speed vs older Xeon D-2899NT on some models
- Best used with small to medium models; large training still GPU-bound
- Lacks dedicated NPUs; suitable for CPU-based inference only
- AI throughput depends heavily on software optimizations and attached accelerators
Content Creation
Gaming
- No integrated graphics
- Optimized for server and network workloads, not gaming
- Gaming not a design target
- No integrated graphics
- Server-focused platform and cooling requirements
- Gaming-oriented CPUs provide far better price/performance
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- 36 P-cores with 72 threads provide strong multi-threaded performance for RAN and edge AI
- Integrated vRAN Boost, QAT, DLB and DSA reduce need for discrete offload cards
- DDR5-6400 and 4 memory channels deliver high bandwidth and capacity for edge workloads
- 48 PCIe 5.0/4.0 lanes support high-speed NICs and NVMe storage
- Intel 3 process and SoC integration improve performance-per-watt vs older Xeon D
- Rich security features including TDX, total memory encryption, SGX and crypto acceleration
Cons
- 215 W TDP is high for some edge environments
- BGA4368 socket limits reuse to proprietary or highly specialized boards
- No integrated graphics; not suitable for graphical workloads
- Niche market focus means fewer consumer-oriented boards and less community support
- Pricing is high compared to general-purpose server CPUs with similar core counts
Pros
- 38 performance cores with 76 threads
- DDR5-6400 support across four channels
- PCIe Gen 5 and Gen 4 lanes for flexible I/O
- ECC memory support for server reliability
- SoC integration suited for edge appliances
Cons
- No integrated graphics
- High 235 W TDP requires robust cooling
- BGA package is not socket-upgradable
- Multiplier locked, no enthusiast overclocking
- Market-focused; overkill and overpriced for typical desktop usage
Competitors & Alternatives
Intel Xeon 6556P-B
- AMD EPYC 8324P (32-core, 180–225 W)Rival
Edge / telco server
- AMD EPYC 8434P (48-core, 200 W)Rival
Edge / telco server
- Intel Xeon 6553P-B (36-core, 235 W)Rival
Networking and edge SoC
- Intel Xeon D-2899NT (22-core, 135 W)Rival
Previous-gen edge SoC
- Intel Xeon 6563P-B (38-core, 235 W)Rival
Networking and edge SoC
- AMD EPYC 8324PAlt
Lower TDP range (155–225 W) and SP6 platform with similar edge/telco focus; good alternative where power efficiency matters more than integrated accelerators.
Same Granite Rapids-D family with slightly higher clocks (2.6 GHz base, 4 GHz turbo) and same core count if you need more frequency headroom.
Compare head-to-head- Intel Xeon D-2899NTAlt
Lower power (135 W) and mature platform if you don’t need DDR5, PCIe 5.0 or the latest accelerators.
- Intel Xeon 6546P-B (32-core, 195 W)Alt
Lower core count and TDP for less demanding edge workloads while staying in the same Granite Rapids-D ecosystem.
- AMD EPYC 8434PAlt
Higher core count (48) with similar telco/edge focus if you need more threads and can accommodate a slightly higher TDP.
Intel Xeon 6563P-B
- AMD EPYC 8004 seriesRival
Server
- AMD EPYC 9004 seriesRival
Server
Similar platform with lower core count and TDP for lighter workloads.
Compare head-to-head- Intel Xeon E-2400 seriesAlt
Prior-generation entry server parts with DDR4 and lower cost.
- AMD EPYC 8534PAlt
High core count with PCIe 5 and DDR5 in a socketed server platform.
- AMD Ryzen Threadripper 7000Alt
Workstation-class performance with more consumer-friendly platform features.
- Intel Xeon Gold 6538NAlt
Higher-end socketed Xeon with more memory channels for scale-out servers.
Our Verdict on Each
A highly integrated edge SoC that brings strong multi-threaded performance and dedicated accelerators for networking and AI workloads, but with high power and a niche platform that limits broader reuse.
Best for: Building or specifying 5G vRAN, edge AI or network security appliances where integrated accelerators and high core count reduce total system complexity.
Read the full reviewA strong 38-core SoC with modern I/O and DDR5, ideal for dense edge and single-socket entry servers; not for gaming due to lack of integrated graphics and high TDP.
Best for: Edge server or entry-server appliance needing modern I/O and many cores in a compact single-socket design
Read the full reviewFrequently Asked Questions
Which is better, Intel Xeon 6556P-B or Intel Xeon 6563P-B?
Based on our editorial ratings, the Intel Xeon 6556P-B comes out ahead with a score of 8.4/10. That said, the best choice depends on your workload — check the spec and performance breakdown above for gaming, productivity and efficiency differences.
Which is faster for gaming, Intel Xeon 6556P-B or Intel Xeon 6563P-B?
For gaming, the Intel Xeon 6556P-B leads with a gaming performance score of 0/100 among Intel Xeon 6556P-B and Intel Xeon 6563P-B.
Which uses less power?
The Intel Xeon 6556P-B has the lowest rated TDP. Power draw across these chips: Intel Xeon 6556P-B (215 W), Intel Xeon 6563P-B (235 W).
Do Intel Xeon 6556P-B and Intel Xeon 6563P-B use the same socket?
Yes — all of these CPUs use the FCBGA4368 socket, so they share compatible motherboards.
Which has more cores?
The Intel Xeon 6563P-B has the most cores. Core counts: Intel Xeon 6556P-B (36 cores), Intel Xeon 6563P-B (38 cores).
Which is faster in multi-core benchmarks?
The Intel Xeon 6556P-B posts the highest multi-core benchmark score. Multi-core results: Intel Xeon 6556P-B (0). Benchmark figures are approximate and workload-dependent.