CPU Comparison
Intel Core i7-9800X vs Intel Core i9-7900X
A side-by-side comparison of specs, performance and value. The Intel Core i7-9800X is a high-end desktop (HEDT) processor launched in October 2018 as part of the 9th Generation X-Series lineup. Built on the Skylake-X microarchitecture and utilizing Intel's 14nm process, this processor is designed for enthusiasts, content creators, and professionals requiring immense multi-threaded performance. It features 8 physical cores and supports 16 threads via Hyper-Threading. Operating at a base clock of 3.8 GHz and boosting up to 4.5 GHz, it delivers strong single-core responsiveness alongside its multi-core prowess. A standout feature is its 44 PCIe 3.0 lanes, enabling massive expansion capabilities for multiple GPUs and high-speed NVMe storage arrays. It also supports quad-channel DDR4 memory, providing exceptional memory bandwidth. Unlike mainstream desktop chips, the i7-9800X lacks integrated graphics, requiring a dedicated GPU. With a 165W TDP, it demands robust cooling and power delivery. It remains a capable workstation chip for users needing extensive I/O and parallel processing power.
The Bottom Line
Overview & Launch
Specifications Compared
Performance Compared
Productivity
Excellent multi-core performance for creator applications and heavy multitasking.
Strong multi-threaded performance for creator workloads; competitive with or better than many mainstream 8–10 core CPUs at the time, though newer designs are faster per clock.
Gaming
Good gaming performance, though newer mainstream CPUs often outperform it in single-core.
Capable of high-refresh-rate gaming at 1440p and above, but modern gaming-focused CPUs often deliver better minimums and efficiency.
Virtualization
44 PCIe lanes and 16 threads make it ideal for complex virtualization setups.
Excellent for running multiple VMs thanks to 10 cores, 20 threads, and quad-channel memory, especially when paired with VT-x and VT-d support.
Efficiency
165W TDP and 14nm process result in high power consumption and heat.
High power consumption and heat output compared to modern 10nm/7nm parts; requires robust cooling and a strong PSU.
Specialized Performance
AI / ML
- AVX-512 instructions accelerate certain AI workloads
- High core count aids CPU-based inference
- No dedicated AI acceleration hardware like NPU or AI instructions beyond AVX-512.
- Suitable for CPU-based inference and small model workloads, but not competitive with modern AI-focused CPUs or GPUs.
Content Creation
Gaming
- Strong frequency for gaming
- PCIe lanes allow for multiple GPUs
- Not the best choice for purely gaming due to HEDT latency
- Strong single-core clocks up to 4.3–4.5 GHz enable high FPS in CPU-heavy titles.
- Most games don’t scale beyond 6–8 cores, so newer 8-core CPUs often match or beat it in gaming while using less power.
- Best suited for GPU-bound scenarios at 1440p/4K where the CPU is less of a bottleneck.
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- 44 PCIe 3.0 lanes
- Quad-channel memory support
- Unlocked for overclocking
- Strong multi-threaded performance
Cons
- High 165W TDP
- 14nm process is inefficient
- No integrated graphics
- Expensive platform (X299)
Pros
- 10 cores and 20 threads for heavy multi-threaded workloads.
- 44 PCIe 3.0 lanes from the CPU for multi-GPU and NVMe SSDs.
- Quad-channel DDR4-2666 with up to 85 GB/s bandwidth.
- Strong performance for content creation and virtualization at its price point.
- Unlocked multiplier for enthusiast overclocking.
- Turbo Boost Max 3.0 boosts up to 4.5 GHz on best cores.
Cons
- High 140W TDP and real-world power draw under load.
- 14nm process is significantly less efficient than modern 10nm/7nm designs.
- No integrated graphics; requires a discrete GPU.
- X299 platform is discontinued with no upgrade path beyond LGA2066.
- Mesh interconnect can increase lightly-threaded latency versus older ring-bus designs in some workloads.
Competitors & Alternatives
Intel Core i7-9800X
- AMD Ryzen 7 2700XRival
Desktop
- AMD Threadripper 2920XRival
High-End Desktop
- Compare head-to-headIntel Core i7-7820XRival
High-End Desktop
- AMD Ryzen 9 3900XRival
Desktop
- Compare head-to-headIntel Core i9-7900XRival
High-End Desktop
10th Gen refresh with slightly better performance and thermals.
Compare head-to-head- AMD Ryzen 9 5950XAlt
Vastly superior efficiency and multi-core performance on a modern platform.
Modern mainstream CPU that outperforms it in almost every metric.
Compare head-to-head- AMD Threadripper 3960XAlt
Much higher core count for professional HEDT workloads.
Better gaming performance and efficiency at a lower price.
Compare head-to-head
Intel Core i9-7900X
- AMD Ryzen Threadripper 1900XRival
High-End Desktop / Workstation
- AMD Ryzen 7 1800XRival
Mainstream High-End Desktop
- Compare head-to-headIntel Core i7-6950XRival
Previous-Gen HEDT
- Intel Core i9-7820XRival
8-Core HEDT Alternative
- Compare head-to-headIntel Core i9-7960XRival
Higher-Core-Count HEDT
Same platform with higher clocks and slightly better efficiency; better choice if staying on X299.
Compare head-to-head- AMD Ryzen 9 3900XAlt
Newer 12-core AM4 part with much better efficiency and strong creator performance; requires a new platform.
Modern 20-thread mainstream CPU with much better single-threaded and gaming performance, plus DDR5 support.
Compare head-to-head- AMD Ryzen 9 7900Alt
Efficient 12-core AM5 CPU with modern I/O (DDR5, PCIe 5.0) and far better power efficiency.
Later 12-core X-Series part on the same X299 platform if you want more cores but stay on LGA2066.
Compare head-to-head
Our Verdict on Each
A powerful HEDT processor offering excellent PCIe expansion and quad-channel memory, though its high TDP and older 14nm process make it less efficient than modern alternatives.
Best for: If you are considering the Intel Core i7-9800X today, it should strictly be viewed as a budget option for a used workstation build. Its 8 cores, 44 PCIe lanes, and quad-channel memory support make it highly capable for 3D rendering, complex virtualization, and heavy multitasking. However, the 165W TDP means you will need a robust power supply and high-end cooling solution. Avoid this processor if your primary goal is gaming, as mainstream CPUs offer better single-core performance and efficiency at a lower price point. It is best suited for creators who need massive PCIe expansion on a budget and are comfortable building on a refurbished X299 platform. For new builds, modern platforms offer significantly better performance per watt.
Read the full reviewA once-flagship HEDT CPU that still delivers strong multi-threaded performance and I/O capability, but its 14nm process, high power draw, and discontinued platform make it mainly interesting for used builds or legacy systems.
Best for: Used workstation or creator build on X299 where multi-threaded performance and I/O matter more than efficiency or platform longevity.
Read the full reviewFrequently Asked Questions
Which is faster for gaming, Intel Core i7-9800X or Intel Core i9-7900X?
For gaming, the Intel Core i7-9800X leads with a gaming performance score of 80/100 among Intel Core i7-9800X and Intel Core i9-7900X.
Which uses less power?
The Intel Core i9-7900X has the lowest rated TDP. Power draw across these chips: Intel Core i7-9800X (165 W), Intel Core i9-7900X (140 W).
Do Intel Core i7-9800X and Intel Core i9-7900X use the same socket?
No. They use different sockets (Intel Core i7-9800X: Intel Socket 2066, Intel Core i9-7900X: LGA2066), so each needs a compatible motherboard.
Which has more cores?
The Intel Core i9-7900X has the most cores. Core counts: Intel Core i7-9800X (8 cores), Intel Core i9-7900X (10 cores).
Which is faster in multi-core benchmarks?
The Intel Core i9-7900X posts the highest multi-core benchmark score. Multi-core results: Intel Core i9-7900X (10,199). Benchmark figures are approximate and workload-dependent.