CPU Comparison
Intel Core i7-13700HX vs Intel Core i9-13900HX
A side-by-side comparison of specs, performance and value. The Intel Core i7-13700HX is a desktop-class mobile processor designed for bulky gaming laptops, offering 16 cores and unlocked overclocking for maximum portable performance.
The Bottom Line
Overview & Launch
Specifications Compared
Performance Compared
Productivity
Desktop-class rendering and compilation times.
Strong multi-threaded performance in content creation and professional workloads, thanks to 24 cores and 32 threads, though efficiency-core performance is lower than P-cores for some scalar workloads.
Gaming
Will not bottleneck any mobile GPU, including the RTX 4090.
High-refresh-rate gaming is well within reach, with modern titles typically CPU-limited only at very high frame rates; the 13900HX is more than sufficient for most gaming scenarios paired with high-end mobile GPUs.
Virtualization
16 cores and 24 threads easily handle complex VM environments.
Capable of running several VMs simultaneously, with plenty of threads and memory bandwidth for lab environments and light server workloads.
Efficiency
Highly power-hungry; terrible battery life.
Power efficiency is acceptable but not class-leading; the 55 W base and 157 W turbo envelope demand robust cooling and limit purely battery-powered use.
Specialized Performance
AI / ML
- Excellent CPU inference capabilities.
- Large cache helps with complex model loading.
- Intel Deep Learning Boost (AVX2 VNNI) accelerates INT8 inference on CPU.
- No dedicated NPU; AI workloads that fit in CPU cache benefit, but heavy inference is still better suited to GPUs or specialized accelerators.
Content Creation
Gaming
- Ideal for RTX 4080 and 4090 mobile configurations.
- Unlocked nature allows for manual tuning to extract more FPS.
- High single-core and lightly-threaded performance benefits titles that are mainly CPU-bound.
- Adequate headroom for high-refresh-rate (144–240 Hz) gaming at 1080p and 1440p with a powerful mobile GPU.
- At 4K or with very heavy GPU workloads, the GPU becomes the primary limiter rather than the CPU.
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- True desktop-class 16-core performance
- Unlocked multiplier for tuning
- 20 PCIe 5.0 lanes
- Excellent for heavy 3D workloads
Cons
- Very high power consumption
- Requires bulky cooling systems
- Poor battery life
- Does not support LPDDR5
Pros
- 24 cores and 32 threads for heavy multi-threaded workloads.
- 5.4 GHz max turbo provides strong single-threaded performance.
- 36 MB L3 cache improves performance in latency-sensitive workloads.
- DDR5-5600 support increases memory bandwidth vs DDR4-only designs.
- 20 PCIe 5.0/4.0 lanes enable direct GPU and NVMe connectivity.
- Good balance of gaming and creator performance in a single mobile chip.
Cons
- High power draw (55 W base, up to 157 W turbo) demands robust cooling.
- Locked multiplier limits traditional overclocking; OC support varies by OEM.
- Integrated UHD Graphics 32EU is only suitable for basic display and light workloads.
- Thermal and power constraints mean real-world performance depends heavily on laptop design.
- Partially superseded by 14th-gen Raptor Lake-HX Refresh with higher clocks and better efficiency.
Competitors & Alternatives
Intel Core i7-13700HX
- AMD Ryzen 9 7945HXRival
Mobile
- AMD Ryzen 9 7845HXRival
Mobile
- Compare head-to-headIntel Core i9-13900HXRival
Mobile
- Compare head-to-headIntel Core i9-13980HXRival
Mobile
- AMD Ryzen 9 7900HXRival
Mobile
If you prefer a desktop PC with the same core performance.
Compare head-to-headIf you want a thinner, lighter laptop with decent power.
Compare head-to-head
Intel Core i9-13900HX
- Compare head-to-headIntel Core i9-13980HXRival
High-End Laptop
- Compare head-to-headIntel Core i9-13950HXRival
High-End Laptop
- AMD Ryzen 9 7945HXRival
High-End Laptop
- AMD Ryzen 9 7845HXRival
High-End Laptop
- Compare head-to-headIntel Core i7-13850HXRival
High-End Laptop
14th-gen Raptor Lake-HX Refresh with higher clocks and refined power behavior for better performance per watt.
Compare head-to-head16-core / 24-thread CPU with lower power draw, suitable if you want strong performance but not the full 24-core HX thermal envelope.
Compare head-to-head
Our Verdict on Each
The HX series brings true desktop silicon to laptops. The i7-13700HX is an absolute beast, offering i9-level performance for users who don't compromise on portability.
Best for: Buying a desktop-replacement gaming laptop.
Read the full reviewA very powerful hybrid mobile CPU that excels in multi-threaded workloads and high-end gaming, provided your laptop can cool its 55–157 W power envelope. It is slightly outpaced by the i9-13980HX in peak clocks, but offers similar core counts at a more accessible price point.
Best for: High-end gaming or workstation laptop where you need desktop-grade multi-threaded performance and can accept the thermal and power characteristics of a 55–157 W CPU.
Read the full reviewFrequently Asked Questions
Which is better, Intel Core i7-13700HX or Intel Core i9-13900HX?
Based on our editorial ratings, the Intel Core i7-13700HX comes out ahead with a score of 9.1/10. 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 Core i7-13700HX or Intel Core i9-13900HX?
For gaming, the Intel Core i7-13700HX leads with a gaming performance score of 95/100 among Intel Core i7-13700HX and Intel Core i9-13900HX.
Do Intel Core i7-13700HX and Intel Core i9-13900HX use the same socket?
No. They use different sockets (Intel Core i7-13700HX: Intel BGA 1964, Intel Core i9-13900HX: FCBGA1964), so each needs a compatible motherboard.
Which has more cores?
The Intel Core i9-13900HX has the most cores. Core counts: Intel Core i7-13700HX (16 cores), Intel Core i9-13900HX (24 cores).
Which is faster in multi-core benchmarks?
The Intel Core i7-13700HX posts the highest multi-core benchmark score. Multi-core results: Intel Core i7-13700HX (40,000). Benchmark figures are approximate and workload-dependent.