CPU Comparison
Intel Core 5 120HL vs Intel Core 5 130UL
A side-by-side comparison of specs, performance and value. A 12-core/16-thread Raptor Lake-PS processor in LGA1700 with an 80 EU Iris Xe iGPU, 45 W base power, Gen4 CPU PCIe, dual-channel DDR4/DDR5, and a 10-year embedded lifecycle—targeted at edge devices, kiosks, digital signage, and other long-life systems rather than consumer DIY gaming PCs.
The Bottom Line
Overview & Launch
Specifications Compared
Performance Compared
Productivity
12 cores/16 threads handle office multitasking and light-to-moderate productivity well, though lower clocks and 95 W max power constrain sustained heavy workloads.
Handles typical office tasks and multitasking comfortably. The eight E-cores help with parallel background workloads, but long-running CPU-heavy builds or encodes will be slower than higher-TDP desktop CPUs.
Gaming
Serviceable for esports or casual games at 1080p low-to-medium when paired with a discrete GPU; iGPU alone is insufficient for most modern AAA titles.
Not positioned for gaming; the 15 W power envelope and two P-cores limit frame rates in modern AAA titles. Suitable only for very light or older games at low settings.
Virtualization
E-cores help run multiple VMs, but the 45–95 W power envelope and memory ceiling (96 GB) limit large-scale virtualization compared to higher-tier desktop parts.
Can run a few light VMs or containers thanks to 10 cores and VT-x/VT-d support, but the 15 W base power and 12 MB L3 constrain performance under sustained load.
Efficiency
45 W base power and an E-core-heavy mix provide reasonable efficiency at idle and light loads; higher-power Raptor Lake SKUs will outrun it under sustained multi-thread load.
Strong efficiency in its intended 15 W embedded envelope; many desktop CPUs at this power level offer far fewer cores.
Specialized Performance
AI / ML
- Intel DL Boost (VNNI) on CPU supports basic inference workloads.
- No discrete NPU; GPU does not have DL Boost according to ARK.
- Suitable for small edge models and vision pipelines, not large-scale training.
- DL Boost (VNNI) is supported on the CPU, which helps INT8 inference, but there is no dedicated NPU.
- For edge AI workloads that run on CPU, the 8 E-cores provide reasonable throughput within the 15 W budget.
Content Creation
Gaming
- iGPU with 80 EUs is adequate for legacy or light games, not modern AAA.
- CPU-side performance is comparable to entry 12th/13th Gen i5 parts; acceptable when paired with a midrange GPU for 1080p.
- Not marketed as a gaming SKU; best suited to embedded or light-use systems.
- Only two performance cores limit single-thread-heavy game performance.
- 15 W base power caps sustained frequencies under heavy GPU-bound gaming.
- iGPU (80 EU) is suited to desktop output, not high-fps gaming.
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- 12 cores (4P + 8E) and 16 threads for good multi-tasking in embedded settings.
- 80 EU Iris Xe iGPU with AV1 decode and Quick Sync; supports up to four displays.
- 10-year embedded lifecycle from Q2’24 simplifies long-term product planning.
- 45 W base and 35–95 W power envelope fits small enclosures and fanless designs.
- Dual-channel DDR4/DDR5 support gives OEMs flexibility in BOM cost versus bandwidth.
- Intel vPro Essentials and robust security features (TXT, CET, TDT, VT-x/VT-d).
- LGA1700 uses familiar 600/700-series chipsets, reducing design risk for edge platforms.
Cons
- Not targeted at the DIY gaming market; limited retail availability as a boxed part.
- Multiplier locked and limited to 95 W max turbo; lower peak performance vs 125W+ desktop SKUs.
- No ECC memory support according to ARK.
- CPU iGPU lacks DL Boost; GPU AI acceleration is limited.
- PCIe allocation (CPU vs PCH lane count) is not explicitly detailed on ARK for this SKU.
- Naming and segmentation (Core Series 1, PS, Embedded) can cause confusion versus consumer Raptor Lake parts.
Pros
- Very low 15 W base power with up to 10 cores for embedded/edge use.
- 80 EU iGPU can drive up to four displays, ideal for kiosks and signage.
- DDR4/DDR5 flexibility with up to 96 GB RAM.
- LGA1700 socket with Thunderbolt 4 and up to 20 PCIe lanes (CPU Gen4 + PCH Gen3).
- Strong manageability: vPro Essentials, AMT, Remote Platform Erase, TME-MK, Hardware Shield.
Cons
- Only two P-cores; not suitable for gaming or heavy creator workloads.
- Maximum Turbo Power of 55 W can complicate purely passive cooling designs if sustained.
- No official Intel ARK listing for base frequency; we rely on reputable third-party databases that report 1.6 GHz.
- PCIe lane allocation between CPU and PCH is not explicitly documented in public Intel ARK for this SKU.
- Embedded/edge focus means limited DIY retail availability and few consumer motherboards marketed for it.
Competitors & Alternatives
Intel Core 5 120HL
- AMD Ryzen 5 5600Rival
Budget desktop
- Intel Core i5-12400TRival
Low-power desktop/embedded
- Compare head-to-headIntel Core i5-13400TRival
Embedded/low-power desktop
- AMD Ryzen 5 5500Rival
Budget desktop
- Compare head-to-headIntel Core 5 120Rival
Mainstream desktop (non-HL)
- Intel Core i5-12400Alt
Similar 6P/0E core count for purely consumer builds at lower cost, but fewer E-cores and no HL lifecycle guarantee.
- Intel Core 5 120 (non-HL)Alt
Near-identical desktop specs without the HL/PS embedded positioning; better for standard DIY builds if available.
Intel Core 5 130UL
- Compare head-to-headIntel Core 5 120ULRival
Embedded/Edge Desktop
- Compare head-to-headIntel Core 7 150ULRival
Embedded/Edge Desktop
- AMD Ryzen 5 5600GERival
Embedded/Edge Desktop
- AMD Ryzen 7 5700GERival
Embedded/Edge Desktop
- AMD Ryzen 5 8600GRival
Small Form Factor Desktop/APU
Our Verdict on Each
The Core 5 120HL is not a typical gaming or overclocking chip. Its value lies in the 10-year embedded supply commitment, competent 12C/16T performance, 45 W base power envelope, and flexible I/O with Gen4 CPU PCIe and Gen3 chipset lanes. For OEMs building edge appliances or long-lifecycle desktops on LGA1700, it is a practical choice; for mainstream gamers or enthusiasts, standard Raptor Lake/K-series SKUs are more appropriate.
Best for: OEMs and system integrators building long-lifecycle edge appliances, kiosks, POS systems, or light-office desktops on LGA1700 that need 10-year supply stability and iGPU-accelerated media.
Read the full reviewA niche but well-tuned chip for ultra-compact embedded systems that require LGA1700 upgradability, decent multi-threaded headroom at 15 W, and dual-display iGPU support. Not intended for gaming or heavy content creation.
Best for: Building or specifying ultra-compact embedded/edge systems (kiosks, thin clients, digital signage, small industrial PCs) that must use LGA1700 and stay around 15 W.
Read the full reviewFrequently Asked Questions
Which is better, Intel Core 5 120HL or Intel Core 5 130UL?
Based on our editorial ratings, the Intel Core 5 120HL comes out ahead with a score of 7.6/10. 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 5 120HL or Intel Core 5 130UL?
For gaming, the Intel Core 5 120HL leads with a gaming performance score of 64/100 among Intel Core 5 120HL and Intel Core 5 130UL.
Which uses less power?
The Intel Core 5 130UL has the lowest rated TDP. Power draw across these chips: Intel Core 5 120HL (45 W), Intel Core 5 130UL (15 W).
Do Intel Core 5 120HL and Intel Core 5 130UL use the same socket?
Yes — all of these CPUs use the FCLGA1700 socket, so they share compatible motherboards.
Which has more cores?
The Intel Core 5 120HL has the most cores. Core counts: Intel Core 5 120HL (12 cores), Intel Core 5 130UL (10 cores).
Which is faster in multi-core benchmarks?
The Intel Core 5 130UL posts the highest multi-core benchmark score. Multi-core results: Intel Core 5 130UL (0). Benchmark figures are approximate and workload-dependent.