G3D Mark is a standard benchmark that measures graphics performance in real-world gaming scenarios. It simplifies comparing cards from different brands, where higher scores directly correlate with better fps and smoother gaming experiences.

Head-to-Head Verdict, Benchmarks, Value & Long-Term Outlook

This comparison brings together gaming FPS, raw graphics performance, VRAM, feature set, power efficiency, pricing context, and long-term value so you can see which GPU actually makes more sense.

GeForce RTX 4060 Laptop GPU

2023

Why buy it

✅Competitive enough if your priority is price, power, or specific feature preference.

Trade-offs

❌Lower PassMark G3D performance (17,400 vs 20,312).
❌Less VRAM, with 8 GB vs 16 GB for high-resolution textures and newer games.
❌Fewer Tensor Cores for AI-powered features like DLSS and frame generation (136 vs 400), which can reduce FPS gains in supported games.

RTX 5000 Ada Generation Embedded GPU

2023

Why buy it

✅+16.7% higher PassMark G3D performance.
✅194.1% more Tensor Cores for AI-powered features like DLSS and frame generation, which can increase overall FPS in supported games (400 vs 136).
✅100% more VRAM for high-resolution textures and newer games (16 GB vs 8 GB).

Trade-offs

❌Fewer clear downsides in this head-to-head, aside from the usual pricing and availability swings.

GeForce RTX 4060 Laptop GPU

2023

RTX 5000 Ada Generation Embedded GPU

2023

Why buy it

✅Competitive enough if your priority is price, power, or specific feature preference.

Why buy it

✅+16.7% higher PassMark G3D performance.
✅194.1% more Tensor Cores for AI-powered features like DLSS and frame generation, which can increase overall FPS in supported games (400 vs 136).
✅100% more VRAM for high-resolution textures and newer games (16 GB vs 8 GB).

Trade-offs

❌Lower PassMark G3D performance (17,400 vs 20,312).
❌Less VRAM, with 8 GB vs 16 GB for high-resolution textures and newer games.
❌Fewer Tensor Cores for AI-powered features like DLSS and frame generation (136 vs 400), which can reduce FPS gains in supported games.

Trade-offs

❌Fewer clear downsides in this head-to-head, aside from the usual pricing and availability swings.

Quick Answers

So, is RTX 5000 Ada Generation Embedded GPU better than GeForce RTX 4060 Laptop GPU?

Yes. RTX 5000 Ada Generation Embedded GPU is the better GPU overall here. You are getting 16.7% higher PassMark G3D performance, 400 vs 136 Tensor cores, and 16 GB vs 8 GB of VRAM.

Which one is more future-proof for 2026 and beyond?

RTX 5000 Ada Generation Embedded GPU is the more future-proof choice for 2026 and beyond. You are getting 16.7% more raw performance headroom, more VRAM at 16 GB instead of 8 GB, and better upscaling support with DLSS 4 Super Resolution (2025) instead of DLSS 3.5 Super Resolution (2023) and better frame-generation support with DLSS 4 Multi Frame Generation (2025) instead of DLSS 3.5 + Frame Generation (2023). That leaves it with more room for heavier textures, tougher ray tracing loads, and higher-end 1440p or 4K gaming over the next few years.

Which one is the smarter buy today, not just the cheaper card?

RTX 5000 Ada Generation Embedded GPU is priced in an unclear MSRP range at an unclear MSRP versus an unclear MSRP, and you are getting 16.7% higher G3D Mark. G3D-per-dollar is basically tied between them. If you are comfortable paying the premium for the stronger gaming result, RTX 5000 Ada Generation Embedded GPU is the one to buy. If staying closer to budget matters more, GeForce RTX 4060 Laptop GPU still makes more sense on price alone and remains capable enough for modern gaming.

Is GeForce RTX 4060 Laptop GPU still worth buying for gaming in 2026?

Yes. GeForce RTX 4060 Laptop GPU is still a strong gaming GPU in 2026: it is very strong for 1080p, good for 1440p, and more limited at 4K. This mostly comes down to price. If you want to stay closer to an unclear MSRP, it remains a strong choice; if you are comfortable paying more, RTX 5000 Ada Generation Embedded GPU earns that extra money with a clearly stronger gaming result and a more complete overall package.

Games Benchmarks

Real-world benchmarks and performance projections based on comprehensive hardware analysis and comparative metrics. Values represent expected performance on High/Ultra settings at 1080p, 1440p, and 4K. Modeled using a Ryzen 7 9800X3D reference profile to minimize specific CPU bottlenecks.

Note: Performance behavior can vary per game. Specific architectures may perform better or worse depending on game engine optimizations and API implementation.

GeForce RTX 4060 Laptop GPU Benchmark Check

RTX 5000 Ada Generation Embedded GPU Benchmark Check

Path of Exile 2

Preset	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
1080p
low	177 FPS	226 FPS
medium	162 FPS	198 FPS
high	142 FPS	168 FPS
ultra	124 FPS	118 FPS
1440p
low	143 FPS	202 FPS
medium	118 FPS	168 FPS
high	101 FPS	125 FPS
ultra	93 FPS	87 FPS
4K
low	93 FPS	106 FPS
medium	79 FPS	89 FPS
high	66 FPS	62 FPS
ultra	59 FPS	54 FPS

Open GeForce RTX 4060 Laptop GPU Open RTX 5000 Ada Generation Embedded GPU

Path of Exile 2

Path of Exile 2

Counter-Strike 2

Preset	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
1080p
low	409 FPS	609 FPS
medium	344 FPS	507 FPS
high	280 FPS	395 FPS
ultra	223 FPS	344 FPS
1440p
low	261 FPS	499 FPS
medium	217 FPS	417 FPS
high	180 FPS	335 FPS
ultra	147 FPS	278 FPS
4K
low	112 FPS	292 FPS
medium	91 FPS	249 FPS
high	76 FPS	223 FPS
ultra	59 FPS	189 FPS

Open GeForce RTX 4060 Laptop GPU Open RTX 5000 Ada Generation Embedded GPU

Counter-Strike 2

Counter-Strike 2

League of Legends

Preset	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
1080p
low	783 FPS	914 FPS
medium	626 FPS	731 FPS
high	522 FPS	609 FPS
ultra	392 FPS	457 FPS
1440p
low	587 FPS	686 FPS
medium	470 FPS	548 FPS
high	392 FPS	457 FPS
ultra	294 FPS	343 FPS
4K
low	392 FPS	457 FPS
medium	313 FPS	366 FPS
high	261 FPS	305 FPS
ultra	196 FPS	229 FPS

Open GeForce RTX 4060 Laptop GPU Open RTX 5000 Ada Generation Embedded GPU

League of Legends

League of Legends

Valorant

Preset	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
1080p
low	775 FPS	491 FPS
medium	626 FPS	430 FPS
high	522 FPS	383 FPS
ultra	392 FPS	294 FPS
1440p
low	587 FPS	342 FPS
medium	470 FPS	309 FPS
high	392 FPS	272 FPS
ultra	294 FPS	207 FPS
4K
low	374 FPS	227 FPS
medium	313 FPS	195 FPS
high	261 FPS	155 FPS
ultra	196 FPS	119 FPS

Open GeForce RTX 4060 Laptop GPU Open RTX 5000 Ada Generation Embedded GPU

Valorant

Valorant

Check FPS for your specific build

Technical Specifications

Side-by-side comparison of GeForce RTX 4060 Laptop GPU and RTX 5000 Ada Generation Embedded GPU

GeForce RTX 4060 Laptop GPU

The GeForce RTX 4060 Laptop GPU is manufactured by NVIDIA. It was released in May 18 2023. It features the Ada Lovelace architecture. The core clock ranges from 2310 MHz to 2535 MHz. It has 4352 shading units. The thermal design power (TDP) is 160W. Manufactured using 5 nm process technology. It features 34 dedicated ray tracing cores for enhanced lighting effects. G3D Mark benchmark score: 17,400 points. Launch price was $399.

RTX 5000 Ada Generation Embedded GPU

The RTX 5000 Ada Generation Embedded GPU is manufactured by NVIDIA. It was released in August 9 2023. It features the Ada Lovelace architecture. The core clock ranges from 1155 MHz to 2550 MHz. It has 12800 shading units. The thermal design power (TDP) is 175W. Manufactured using 5 nm process technology. It features 100 dedicated ray tracing cores for enhanced lighting effects. G3D Mark benchmark score: 20,312 points.

⚡

Graphics Performance

In G3D Mark, the GeForce RTX 4060 Laptop GPU scores 17,400 versus the RTX 5000 Ada Generation Embedded GPU's 20,312 — the RTX 5000 Ada Generation Embedded GPU leads by 16.7%. The GeForce RTX 4060 Laptop GPU is built on Ada Lovelace while the RTX 5000 Ada Generation Embedded GPU uses Ada Lovelace, both on a 5 nm process. Shader units: 4,352 (GeForce RTX 4060 Laptop GPU) vs 12,800 (RTX 5000 Ada Generation Embedded GPU). Raw compute: 22.06 TFLOPS (GeForce RTX 4060 Laptop GPU) vs 65.28 TFLOPS (RTX 5000 Ada Generation Embedded GPU). Boost clocks: 2535 MHz vs 2550 MHz. Ray tracing: 34 RT cores (GeForce RTX 4060 Laptop GPU) vs 100 (RTX 5000 Ada Generation Embedded GPU) with 136 Tensor cores vs 400.

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
G3D Mark Score	17,400	20,312+17%
Architecture	Ada Lovelace	Ada Lovelace
Process Node	5 nm	5 nm
Shading Units	4352	12800+194%
Compute (TFLOPS)	22.06 TFLOPS	65.28 TFLOPS+196%
Boost Clock	2535 MHz	2550 MHz
ROPs	48	176+267%
TMUs	136	400+194%
L1 Cache	4.3 MB	12.5 MB+191%
L2 Cache	32 MB	72 MB+125%
Ray Tracing Cores	34	100+194%
Tensor Cores	136	400+194%

✨

Advanced Features (DLSS/FSR)

Both cards support Frame Generation, but the RTX 5000 Ada Generation Embedded GPU is on a newer tier with DLSS 4 Multi Frame Generation, while the GeForce RTX 4060 Laptop GPU tops out at DLSS 3.5 + Frame Generation.The RTX 5000 Ada Generation Embedded GPU supports the newer DLSS 4 Super Resolution, whereas the GeForce RTX 4060 Laptop GPU is capped at DLSS 3.5 Super Resolution.

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
Upscaling Tech	DLSS 3.5 Super Resolution	DLSS 4 Super Resolution
Frame Generation	DLSS 3.5 + Frame Generation	DLSS 4 Multi Frame Generation+14%
Ray Reconstruction	Yes (DLSS 3.5)	Yes (DLSS 4)+14%
Low Latency	NVIDIA Reflex	NVIDIA Reflex

💾

Video Memory (VRAM)

The GeForce RTX 4060 Laptop GPU comes with 8 GB of VRAM, while the RTX 5000 Ada Generation Embedded GPU has 16 GB. The RTX 5000 Ada Generation Embedded GPU offers 100% more capacity, crucial for higher resolutions and texture-heavy games. Memory bandwidth: 256 GB/s (GeForce RTX 4060 Laptop GPU) vs 576 GB/s (RTX 5000 Ada Generation Embedded GPU) — a 125% advantage for the RTX 5000 Ada Generation Embedded GPU. Bus width: 128-bit vs 256-bit. L2 Cache: 32 MB (GeForce RTX 4060 Laptop GPU) vs 72 MB (RTX 5000 Ada Generation Embedded GPU) — the RTX 5000 Ada Generation Embedded GPU has significantly larger on-die cache to reduce VRAM reliance.

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
VRAM Capacity	8 GB	16 GB+100%
Memory Type	GDDR6	GDDR6
Memory Bandwidth	256 GB/s	576 GB/s+125%
Bus Width	128-bit	256-bit+100%
L2 Cache	32 MB	72 MB+125%

🖥️

Display & API Support

DirectX support: 12 Ultimate (GeForce RTX 4060 Laptop GPU) vs 12.2 (RTX 5000 Ada Generation Embedded GPU). Vulkan: 1.4 vs 1.3. OpenGL: 4.6 vs 4.6. Maximum simultaneous displays: 4 vs 4.

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
DirectX	12 Ultimate	12.2+2%
Vulkan	1.4+8%	1.3
OpenGL	4.6	4.6
Max Displays	4	4

🎬

Media & Encoding

Hardware encoder: NVENC (8th Gen) (GeForce RTX 4060 Laptop GPU) vs 8th Gen NVENC (2x) (RTX 5000 Ada Generation Embedded GPU). Decoder: NVDEC (5th Gen) vs 5th Gen NVDEC. Supported codecs: H.264,HEVC,AV1,VP9 (GeForce RTX 4060 Laptop GPU) vs MPEG-2,H.264,HEVC,VP9,AV1 (RTX 5000 Ada Generation Embedded GPU).

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
Encoder	NVENC (8th Gen)	8th Gen NVENC (2x)
Decoder	NVDEC (5th Gen)	5th Gen NVDEC
Codecs	H.264,HEVC,AV1,VP9	MPEG-2,H.264,HEVC,VP9,AV1

🔌

Power & Dimensions

The GeForce RTX 4060 Laptop GPU draws 160W versus the RTX 5000 Ada Generation Embedded GPU's 175W — a 9% difference. The GeForce RTX 4060 Laptop GPU is more power-efficient. Recommended PSU: 650W (GeForce RTX 4060 Laptop GPU) vs 650W (RTX 5000 Ada Generation Embedded GPU). Power connectors: Mobile vs PCIe-powered. Typical load temperature: 80°C vs 80°C.

Feature	GeForce RTX 4060 Laptop GPU	RTX 5000 Ada Generation Embedded GPU
TDP	160W-9%	175W
Recommended PSU	650W	650W
Power Connector	Mobile	PCIe-powered
Length	—	267mm
Height	—	111mm
Slots	0-100%	2
Temp (Load)	80°C	80°C
Perf/Watt	108.8	116.1+7%