CPU Comparison
Intel Xeon 6761P vs Intel Xeon 6767P
A side-by-side comparison of specs, performance and value. The Intel Xeon 6761P is a 64-core, 128-thread server and workstation processor based on the Granite Rapids-SP architecture, built on Intel’s 3 process node. It targets single-socket platforms requiring high core counts, large memory capacity, and strong AI acceleration, with a 350W TDP and support for DDR5 and MRDIMM memory up to 8000 MT/s.
The Bottom Line
Overview & Launch
Specifications Compared
Performance Compared
Productivity
Gaming
Virtualization
Efficiency
Specialized Performance
AI / ML
- Intel AMX accelerates matrix operations for inference and low‑precision training
- DL Boost (AVX‑512 VNNI) improves INT8 inference throughput
- Best suited for CPU‑based AI or as a host for discrete accelerators, not as a replacement for GPUs in large‑scale training
- Intel claims meaningful performance-per-watt improvements over prior-generation Xeons for AI workloads such as Stable Diffusion BS1 INT8 and vLLM inference using the Xeon 6767P.
- AMX accelerators provide hardware support for matrix operations used in many AI models.
- On-die accelerators like DSA and IAA help with data movement and analytics tasks common in AI pipelines.
Content Creation
Gaming
- Not designed or marketed for gaming
- Few games scale beyond 16–24 threads
- Platform cost and power are disproportionate for gaming
- This is a server processor without integrated graphics, not intended or validated for consumer gaming.
- Gaming performance is not a relevant evaluation metric for this SKU.
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- 64 cores / 128 threads for highly parallel workloads
- 8‑channel DDR5 / MRDIMM up to 8000 MT/s, up to 4 TB capacity
- 136 PCIe 5.0 lanes for dense I/O configurations
- Intel AMX and DL Boost for AI acceleration
- Mature server RAS and virtualization feature set
- Speed Select Technology for fine‑grained per‑core tuning
Cons
- High 350W TDP and associated cooling and power requirements
- Single‑socket only; no 2P scalability
- Premium pricing typical of high‑core‑count Xeon SKUs
- No integrated graphics (not expected in this segment)
- Locked multiplier; tuning is enterprise‑oriented, not enthusiast‑oriented
Pros
- 64 P-cores and 128 threads for parallel server workloads.
- 336 MB of L3 cache.
- 88 PCIe 5.0 lanes for high-speed I/O and GPU attach.
- 8-channel DDR5/MRDIMM with up to 4 TB support.
- On-die accelerators (AMX, DSA, IAA, DLB, QAT) for specialized offload.
- Intel 3 process targeting improved performance and efficiency.
- Dual-socket scalability via four UPI links at 24 GT/s.
Cons
- 350 W TDP demands robust cooling and power delivery.
- No integrated graphics.
- Requires server platforms supporting FCLGA4710 and appropriate memory.
- High cost typical of high-end server CPUs.
- Overkill for light or thread-limited workloads.
Competitors & Alternatives
Intel Xeon 6761P
- AMD EPYC 9354Rival
32‑core Server
- AMD EPYC 9684XRival
96‑core Server (Genoa‑X)
- Compare head-to-headIntel Xeon 6767PRival
64‑core Server
- Compare head-to-headIntel Xeon 6768PRival
64‑core Server
- Compare head-to-headIntel Xeon 6760PRival
64‑core Server
- Previous‑Gen Xeon Platinum 8470Alt
Dual‑socket Sapphire Rapids platform; attractive if 2P scalability is required and newer Xeon 6 features are not critical.
Intel Xeon 6767P
- AMD EPYC 9754 (Bergamo)Rival
Server/Cloud
- AMD EPYC 9684X (Genoa-X)Rival
Server/HPC
- AMD EPYC 9575FRival
Server (High Frequency)
- Compare head-to-headIntel Xeon 6768PRival
Server/Data Center
- Compare head-to-headIntel Xeon 6760PRival
Server/Data Center
- AMD EPYC 9754Alt
High core density with E-cores for throughput-oriented cloud workloads.
- AMD EPYC 9684XAlt
Large 3D V-Cache L3 for capacity-sensitive HPC and database workloads.
Our Verdict on Each
A very high‑core‑count, single‑socket Granite Rapids CPU with strong memory bandwidth, integrated accelerators, and competitive AI performance, best suited for users who can fully utilize 64 cores and justify the 350W TDP and platform cost.
Best for: Single‑socket servers or workstations that can keep 64 cores busy with parallel, memory‑intensive workloads such as virtualization, databases, analytics, and AI inference, and where high PCIe density and integrated accelerators are valuable.
Read the full reviewA high-end Xeon 6 P-core part built for scale-up and scale-out servers requiring strong per-core performance, very high core count, and abundant I/O for GPUs and accelerators. Its 350 W TDP demands serious platform design and cooling, but the combination of Intel 3, large shared cache, DDR5/MRDIMM up to 8000 MT/s, and on-die accelerators (AMX, QAT, DSA, IAA, DLB) makes it a compelling choice for AI and HPC.
Best for: Deploying scale-up or scale-out servers for AI, HPC, or high-throughput database workloads where core count, memory bandwidth, and PCIe 5.0 I/O are critical.
Read the full reviewFrequently Asked Questions
Which is better, Intel Xeon 6761P or Intel Xeon 6767P?
Based on our editorial ratings, the Intel Xeon 6767P comes out ahead with a score of 9/10. 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 6761P or Intel Xeon 6767P?
For gaming, the Intel Xeon 6761P leads with a gaming performance score of 40/100 among Intel Xeon 6761P and Intel Xeon 6767P.
Do Intel Xeon 6761P and Intel Xeon 6767P use the same socket?
Yes — all of these CPUs use the FCLGA4710 socket, so they share compatible motherboards.
Which is faster in multi-core benchmarks?
The Intel Xeon 6761P posts the highest multi-core benchmark score. Multi-core results: Intel Xeon 6761P (0). Benchmark figures are approximate and workload-dependent.