NVIDIA RTX A5000 Laptop GPU vs Apple M2 8-Core GPU vs NVIDIA RTX A3000 Laptop GPU
NVIDIA RTX A5000 Laptop GPU ► remove from comparison
The NVIDIA RTX A5000 Laptop GPU or A5000 Mobile is a professional graphics card for mobile workstations. It is based on the GA104 Ampere chip and similar to the consumer GeForce RTX 3080 Laptop GPU. It offers the same 6.144 graphics cores, 48 RT cores, 192 Tensor cores and 16 GB GDDR6 graphics memory with a 256 Bit memory bus. It supports PCIe 4.0 and will be available in different variants from 80 - 165 Watt (TGP) with different clock speeds (and performance). The GPU supports eDP 1.4b to connect the internal monitor and DisplayPort 1.4 and HDMI 2.1 for external connections.
There is no more Max-Q variant (formerly used for the low power variants) but every OEM can choose to implement Max-Q technologies (Dynamic Boost, Whispermode).
The raw performance should be similar to the GeForce RTX 3080 for laptops at the same TGP level. Both GPUs depend heavily on good cooling and a high TGP for good performance. At a similar power consumption level the RTX A5000 should be clearly faster than the old Quadro RTX 5000 and 5000 Max-Q . The desktop variant of the A5000 however, is a lot faster.
The GA104 chip offers 6,144 FP32 ALUs of which half can also execute INT32 instructions (i.e. 3,072 INT32 ALUs). With Turing all shaders could still execute FP32 or INT32 instructions. The raytracing and tensor cores on the chip were also improved according to Nvidia. The Ampere chips also include an improved 5th generation video encoder (NVENC for H.264 and H.265) and a 7th generation decoder (for various formats now including AV1).
The GA104 chip is manufactured by Samsung in 8nm (8N), which is not quite able to keep up with the 7nm node at TSMC (e.g. used by AMD and also for the professional GA100 Ampere chip).
Apple M2 8-Core GPU ► remove from comparison
The Apple M2 8-core GPU is an integrated graphics card offering 8 of the 10 cores designed by Apple and integrated in the Apple M2 SoC . It uses the unified memory architecture of the M2 SoC (up to 24 GB LPDDR5-6400 with 100 GB/s bandwidth) and should offer 128 execution units.
The performance is positioned right between the old 8-core model in the M1 GPU and the higher end 10-core model in the M2 . The theoretical performance should be around 2.9 Teraflops, as the 8-core version offers the same 1,398 MHz maximum clock rate as the 10-core version. Compared to other iGPUs from AMD and Intel, the M2 benefits greatly from the unified memory architecture and the high bandwidth.
The M2 chip is manufactured in the second generation 5nm process at TSMC (most likely N5P). The power consumption is around 10 Watt (in our tests under load of the MBP13) compared to the 13.5W of the 10-core version.
NVIDIA RTX A3000 Laptop GPU ► remove from comparison
The NVIDIA RTX A3000 Laptop GPU or A3000 Mobile is a professional graphics card for mobile workstations. It is based on the GA104 Ampere chip and offers a similar performance to the consumer GeForce RTX 3060 Laptop GPU. However, it offers 256 more CUDA cores (4,096 versus 3,840) and is based on the bigger GA104 chip. The A3000 also supports PCIe 4.0 and integrates 32 RT-cores and 128 Tensor cores of the Ampere generation. It is available in different variants from 60 - 130 Watt (TGP) with different clock speeds (and performance). The GPU supports eDP 1.4b to connect the internal monitor and DisplayPort 1.4 and HDMI 2.1 for external connections.
In 2022 Nvidia released a slightly improved version of the RTX A3000 with more and faster graphics memory. The original 6 GB with 11 Gbits has been doubled to 12 GB GDDR6 clocked at 14 Gbits.
There is no more Max-Q variant (formerly used for the low power variants) but every OEM can choose to implement Max-Q technologies (Dynamic Boost, WhisperMode).
The raw performance should be similar to the GeForce RTX 3060 for laptops at the same TGP level. Both GPUs depend heavily on good cooling and a high TGP for good performance. At a similar power consumption level the RTX A3000 should be clearly faster than the old Quadro RTX 3000 and 3000 Max-Q .
The GA104 chip offers 6,144 FP32 ALUs of which half can also execute INT32 instructions (i.e. 3,072 INT32 ALUs). With Turing all shaders could still execute FP32 or INT32 instructions. The raytracing and tensor cores on the chip were also improved according to Nvidia. The A3000 only uses 4,096 of the 6,144 CUDA cores. The Ampere chips also include an improved 5th generation video encoder (NVENC for H.264 and H.265) and a 7th generation decoder (for various formats now including AV1).
The GA104 chip is manufactured by Samsung in 8nm (8N), which is not quite able to keep up with the 7nm node at TSMC (e.g. used by AMD and also for the professional GA100 Ampere chip).
NVIDIA RTX A5000 Laptop GPU Apple M2 8-Core GPU NVIDIA RTX A3000 Laptop GPU RTX A Series Codename GA104 GA104 Architecture Ampere Ampere Pipelines 6144 - unified 8 - unified 4096 - unified TMUs 192 128 ROPs 96 64 Raytracing Cores 48 32 Tensor / AI Cores 192 128 Core Speed 1215 - 1770 (Boost) MHz 1398 (Boost) MHz 1080 - 1560 (Boost) MHz Theoretical Performance 21.7 TFLOPS FP32 Memory Speed 14000 effective = 1750 MHz 14000 effective = 1750 MHz Memory Bus Width 256 Bit 192 Bit Memory Type GDDR6 LPDDR5-6400 GDDR6 Max. Amount of Memory 16 GB 12 GB Shared Memory no no no Memory Bandwidth 448 GB/s 264 GB/s API DirectX 12_2, Shader 6.7, OpenGL 4.6 DirectX 12_2, Shader 6.7, OpenGL 4.6 Power Consumption 165 Watt (80 - 150 Watt TGP) 10 Watt 130 Watt (60 - 115 Watt TGP) Transistors 17.4 Billion 17.4 Billion Die Size 392 mm² 392 mm² technology 8 nm 5 nm 8 nm PCIe 4.0 4.0 Displays HDMI 2.1, DisplayPort 1.4 HDMI 2.1, DisplayPort 1.4 Features DisplayPort 1.4, HDMI 2.1, PCIe 4.0 x16, 21.7 SP-FP TFLOPS Peak, 174 Tensor Performance Peak, up to 448 GB/s Memory Bandwidth, Resizable BAR, Support for Modern Standby DisplayPort 1.4, HDMI 2.1, PCIe 4.0 x16, 12.8 SP-FP TFLOPS Peak, 102 Tensor Performance Peak, up to 264 GB/s Memory Bandwidth, Resizable BAR, Support for Modern Standby Notebook Size large large Date of Announcement 12.04.2021 06.06.2022 12.04.2021 Link to Manufacturer Page www.nvidia.com www.nvidia.com Predecessor M1 8-Core GPU
Benchmarks 3DMark - 3DMark Time Spy Score
min: 8348 avg: 9897 median: 10157 (29%) max: 11185 Points
GPU TDP 90 W TDP 155 W 83% 100%
min: 6490 avg: 7324 median: 7703 (22%) max: 7779 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 58% 78% 70% 100%
3DMark - 3DMark Time Spy Graphics
min: 8242 avg: 10043 median: 10307 (27%) max: 11580 Points
GPU TDP 90 W TDP 155 W 80% 100%
min: 6530 avg: 7129 median: 7320 (19%) max: 7536 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 56% 74% 65% 100%
3DMark - 3DMark Cloud Gate Score
min: 32082 avg: 33689 median: 33688.5 (36%) max: 35295 Points
GPU TDP 90 W TDP 155 W 91% 100%
24449 Points (26%)
GPU TDP 80 W TDP 90 W TDP 155 W 69% 91% 100%
3DMark - 3DMark Cloud Gate Graphics
min: 46733 avg: 50154 median: 50153.5 (13%) max: 53574 Points
GPU TDP 90 W TDP 155 W 87% 100%
29996 Points (8%)
GPU TDP 80 W TDP 90 W TDP 155 W 56% 87% 100%
3DMark - 3DMark Fire Strike Standard Score
min: 18791 avg: 21922 median: 22819 (40%) max: 24155 Points
GPU TDP 90 W TDP 155 W 86% 100%
min: 15711 avg: 17366 median: 18097 (32%) max: 18291 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 65% 82% 76% 100%
3DMark - 3DMark Fire Strike Standard Graphics
min: 23579 avg: 26820 median: 27271 (31%) max: 29610 Points
GPU TDP 90 W TDP 155 W 86% 100%
min: 17034 avg: 19054 median: 19710 (22%) max: 20417 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 58% 79% 69% 100%
3DMark - 3DMark Wild Life Unlimited
21009 Points (11%)
3DMark - 3DMark Wild Life Extreme Unlimited
5689 Points (7%)
14526 Points (17%)
GPU TDP 10 W TDP 90 W 39% 100%
3DMark 11 - 3DM11 Performance Score
min: 24697 avg: 28454 median: 28454 (39%) max: 32211 Points
GPU TDP 90 W TDP 155 W 77% 100%
min: 20760 avg: 23171 median: 23888 (33%) max: 24865 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 64% 77% 74% 100%
3DMark 11 - 3DM11 Performance GPU
min: 30423 avg: 36164 median: 36163.5 (31%) max: 41904 Points
GPU TDP 90 W TDP 155 W 73% 100%
min: 23699 avg: 25737 median: 25990 (22%) max: 27523 Points
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 57% 67% 66% 100%
3DMark Vantage 3DM Vant. Perf. total + NVIDIA RTX A3000 Laptop GPU 3DMark Vantage - 3DM Vant. Perf. total
71308 Points (21%)
3DM Vant. Perf. GPU no PhysX + NVIDIA RTX A3000 Laptop GPU 3DMark Vantage - 3DM Vant. Perf. GPU no PhysX
76250 Points (43%)
Blender - Blender 3.3 Classroom CUDA *
60 Seconds (9%)
Blender - Blender 3.3 Classroom OPTIX *
34 Seconds (13%)
SPECviewperf 12 specvp12 sw-03 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 sw-03
168.2 fps (42%)
specvp12 snx-02 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 snx-02
167.3 fps (25%)
specvp12 showcase-01 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 showcase-01
110.3 fps (24%)
specvp12 mediacal-01 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 mediacal-01
69.8 fps (18%)
specvp12 maya-04 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 maya-04
113.8 fps (31%)
specvp12 energy-01 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 energy-01
16.9 fps (15%)
specvp12 creo-01 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 creo-01
151.3 fps (61%)
specvp12 catia-04 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 12 - specvp12 catia-04
177.3 fps (29%)
SPECviewperf 13 specvp13 sw-04 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 sw-04
min: 144.9 avg: 151.3 median: 151.3 (41%) max: 157.7 fps
GPU TDP 90 W TDP 155 W 92% 100%
specvp13 sw-04 + NVIDIA RTX A3000 Laptop GPU
min: 149.8 avg: 152.7 median: 151.6 (41%) max: 156.7 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 95% 94% 99% 100%
specvp13 snx-03 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 snx-03
min: 276 avg: 297.6 median: 297.6 (33%) max: 319.2 fps
GPU TDP 90 W TDP 155 W 86% 100%
specvp13 snx-03 + NVIDIA RTX A3000 Laptop GPU
min: 232.9 avg: 254.1 median: 250.2 (28%) max: 279.21 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 73% 87% 78% 100%
specvp13 showcase-02 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 showcase-02
min: 103.8 avg: 117.9 median: 117.9 (26%) max: 131.9 fps
GPU TDP 90 W TDP 155 W 79% 100%
specvp13 showcase-02 + NVIDIA RTX A3000 Laptop GPU
min: 84.1 avg: 91.3 median: 89.9 (20%) max: 99.91 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 64% 77% 68% 100%
specvp13 medical-02 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 medical-02
min: 109.4 avg: 114.3 median: 114.3 (24%) max: 119.1 fps
GPU TDP 90 W TDP 155 W 92% 100%
specvp13 medical-02 + NVIDIA RTX A3000 Laptop GPU
min: 89.2 avg: 95.6 median: 94.8 (20%) max: 102.82 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 80% 89% 75% 100%
specvp13 maya-05 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 maya-05
min: 219.7 avg: 235.1 median: 235.1 (27%) max: 250.4 fps
GPU TDP 90 W TDP 155 W 88% 100%
specvp13 maya-05 + NVIDIA RTX A3000 Laptop GPU
min: 194.8 avg: 211.5 median: 211.4 (24%) max: 228.37 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 78% 89% 84% 100%
specvp13 energy-02 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 energy-02
min: 53.2 avg: 63.8 median: 63.8 (21%) max: 74.3 fps
GPU TDP 90 W TDP 155 W 72% 100%
specvp13 energy-02 + NVIDIA RTX A3000 Laptop GPU
min: 41.21 avg: 43.5 median: 44.1 (14%) max: 45.12 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 61% 65% 55% 100%
specvp13 creo-02 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 creo-02
min: 214.3 avg: 233 median: 233 (34%) max: 251.7 fps
GPU TDP 90 W TDP 155 W 85% 100%
specvp13 creo-02 + NVIDIA RTX A3000 Laptop GPU
min: 186.9 avg: 210.7 median: 209.6 (31%) max: 235.49 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 74% 89% 83% 100%
specvp13 catia-05 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 catia-05
min: 243.4 avg: 262.2 median: 262.2 (29%) max: 280.9 fps
GPU TDP 90 W TDP 155 W 87% 100%
specvp13 catia-05 + NVIDIA RTX A3000 Laptop GPU
min: 231.4 avg: 246.7 median: 252.3 (28%) max: 256.5 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 82% 88% 91% 100%
specvp13 3dsmax-06 + NVIDIA RTX A5000 Laptop GPU SPECviewperf 13 - specvp13 3dsmax-06
min: 183.8 avg: 196 median: 196 (34%) max: 208.1 fps
GPU TDP 90 W TDP 155 W 88% 100%
specvp13 3dsmax-06 + NVIDIA RTX A3000 Laptop GPU
min: 145.9 avg: 168.6 median: 179 (31%) max: 181.04 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 70% 88% 86% 100%
SPECviewperf 2020 specvp2020 solidworks-05 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 solidworks-05 1080p
min: 169 avg: 181.5 median: 176 (34%) max: 199.4 fps
GPU TDP 90 W TDP 155 W 100% 90%
specvp2020 solidworks-05 1080p + NVIDIA RTX A3000 Laptop GPU
min: 147.4 avg: 155.1 median: 147.9 (29%) max: 170.08 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 81% 100% 81% 93%
specvp2020 snx-04 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 snx-04 1080p
min: 260.5 avg: 285 median: 285.4 (47%) max: 309.1 fps
GPU TDP 90 W TDP 155 W 100% 88%
specvp2020 snx-04 1080p + NVIDIA RTX A3000 Laptop GPU
min: 232.4 avg: 255.6 median: 249.8 (41%) max: 284.49 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 79% 100% 85% 89%
specvp2020 medical-03 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 medical-03 1080p
min: 56.6 avg: 57.4 median: 56.9 (40%) max: 58.7 fps
GPU TDP 90 W TDP 155 W 100% 98%
specvp2020 medical-03 1080p + NVIDIA RTX A3000 Laptop GPU
min: 42.66 avg: 44.6 median: 44.4 (32%) max: 46.59 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 78% 96% 75% 100%
specvp2020 maya-06 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 maya-06 1080p
min: 258.3 avg: 272.8 median: 270.1 (39%) max: 290 fps
GPU TDP 90 W TDP 155 W 100% 99%
specvp2020 maya-06 1080p + NVIDIA RTX A3000 Laptop GPU
min: 207 avg: 243.4 median: 236.8 (34%) max: 286.54 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 74% 100% 85% 97%
specvp2020 energy-03 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 energy-03 1080p
min: 55 avg: 64.8 median: 67.9 (55%) max: 71.6 fps
GPU TDP 90 W TDP 155 W 86% 100%
specvp2020 energy-03 1080p + NVIDIA RTX A3000 Laptop GPU
min: 43.06 avg: 44.3 median: 44.7 (36%) max: 45.04 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 63% 78% 60% 100%
specvp2020 creo-03 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 creo-03 1080p
min: 132.6 avg: 136.1 median: 136 (67%) max: 139.7 fps
GPU TDP 90 W TDP 155 W 100% 96%
specvp2020 creo-03 1080p + NVIDIA RTX A3000 Laptop GPU
min: 101.07 avg: 115.1 median: 119.7 (59%) max: 124.5 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 90% 95% 94% 100%
specvp2020 catia-06 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 catia-06 1080p
min: 93.6 avg: 99.5 median: 98.8 (64%) max: 106 fps
GPU TDP 90 W TDP 155 W 91% 100%
specvp2020 catia-06 1080p + NVIDIA RTX A3000 Laptop GPU
min: 73.7 avg: 78.2 median: 80.3 (52%) max: 80.5 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 70% 86% 76% 100%
specvp2020 3dsmax-07 1080p + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 3dsmax-07 1080p
min: 120 avg: 124.2 median: 123.1 (56%) max: 129.6 fps
GPU TDP 90 W TDP 155 W 94% 100%
specvp2020 3dsmax-07 1080p + NVIDIA RTX A3000 Laptop GPU
min: 69.7 avg: 83.6 median: 78.2 (35%) max: 103.02 fps
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 54% 89% 60% 100%
specvp2020 solidworks-05 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 solidworks-05 4k
min: 72.8 avg: 82.6 median: 82.4 (24%) max: 92.5 fps
GPU TDP 90 W TDP 155 W 100% 100%
specvp2020 solidworks-05 4k + NVIDIA RTX A3000 Laptop GPU
61.2 fps (18%)
GPU TDP 80 W TDP 90 W TDP 155 W 74% 100% 100%
specvp2020 snx-04 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 snx-04 4k
min: 133.4 avg: 152.3 median: 151.3 (16%) max: 172.2 fps
GPU TDP 90 W TDP 155 W 100% 82%
specvp2020 snx-04 4k + NVIDIA RTX A3000 Laptop GPU
130.3 fps (13%)
GPU TDP 80 W TDP 90 W TDP 155 W 81% 100% 82%
specvp2020 medical-03 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 medical-03 4k
min: 21.42 avg: 22.8 median: 23.5 (22%) max: 23.58 fps
GPU TDP 90 W TDP 155 W 96% 100%
specvp2020 medical-03 4k + NVIDIA RTX A3000 Laptop GPU
14.7 fps (14%)
GPU TDP 80 W TDP 90 W TDP 155 W 63% 96% 100%
specvp2020 maya-06 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 maya-06 4k
min: 119.2 avg: 127.7 median: 129.5 (21%) max: 134.5 fps
GPU TDP 90 W TDP 155 W 98% 100%
specvp2020 maya-06 4k + NVIDIA RTX A3000 Laptop GPU
103.6 fps (17%)
GPU TDP 80 W TDP 90 W TDP 155 W 80% 98% 100%
specvp2020 energy-03 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 energy-03 4k
min: 39.3 avg: 87.1 median: 83.3 (18%) max: 138.7 fps
GPU TDP 90 W TDP 155 W 100% 94%
specvp2020 energy-03 4k + NVIDIA RTX A3000 Laptop GPU
112 fps (25%)
GPU TDP 80 W TDP 90 W TDP 155 W 100% 79% 74%
specvp2020 creo-03 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 creo-03 4k
min: 88.6 avg: 93.3 median: 89.8 (43%) max: 101.6 fps
GPU TDP 90 W TDP 155 W 88% 100%
specvp2020 creo-03 4k + NVIDIA RTX A3000 Laptop GPU
73.3 fps (35%)
GPU TDP 80 W TDP 90 W TDP 155 W 72% 88% 100%
specvp2020 catia-06 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 catia-06 4k
min: 53 avg: 58.4 median: 57.9 (38%) max: 64.2 fps
GPU TDP 90 W TDP 155 W 86% 100%
specvp2020 catia-06 4k + NVIDIA RTX A3000 Laptop GPU
43.2 fps (28%)
GPU TDP 80 W TDP 90 W TDP 155 W 67% 86% 100%
specvp2020 3dsmax-07 4k + NVIDIA RTX A5000 Laptop GPU SPECviewperf 2020 - specvp2020 3dsmax-07 4k
min: 77 avg: 83.9 median: 86.9 (36%) max: 87.8 fps
GPU TDP 90 W TDP 155 W 95% 100%
specvp2020 3dsmax-07 4k + NVIDIA RTX A3000 Laptop GPU
49.7 fps (21%)
GPU TDP 80 W TDP 90 W TDP 155 W 57% 95% 100%
Cinebench R15 Cinebench R15 OpenGL 64 Bit + NVIDIA RTX A5000 Laptop GPU Cinebench R15 - Cinebench R15 OpenGL 64 Bit
min: 291 avg: 294.7 median: 291 (17%) max: 302 fps
GPU TDP 90 W TDP 155 W 96% 100%
Cinebench R15 OpenGL 64 Bit + Apple M2 8-Core GPU
128.6 fps (8%)
GPU TDP 10 W TDP 90 W TDP 155 W 43% 96% 100%
Cinebench R15 OpenGL 64 Bit + NVIDIA RTX A3000 Laptop GPU
min: 135.8 avg: 240.9 median: 290 (17%) max: 297 fps
GPU TDP 10 W TDP 80 W TDP 90 W TDP 110 W TDP 155 W 43% 98% 79% 96% 100%
Cinebench R15 OpenGL Ref. Match 64 Bit + NVIDIA RTX A5000 Laptop GPU Cinebench R15 - Cinebench R15 OpenGL Ref. Match 64 Bit
99.6 % (100%)
GPU TDP 90 W TDP 155 W 100% 100%
Cinebench R15 OpenGL Ref. Match 64 Bit + Apple M2 8-Core GPU
99.5 % (100%)
GPU TDP 10 W TDP 90 W TDP 155 W 100% 100% 100%
Cinebench R15 OpenGL Ref. Match 64 Bit + NVIDIA RTX A3000 Laptop GPU
min: 97.8 avg: 99 median: 99.6 (100%) max: 99.6 %
GPU TDP 10 W TDP 80 W TDP 90 W TDP 110 W TDP 155 W 100% 100% 99% 100% 100%
GFXBench - GFXBench 5.0 4K Aztec Ruins High Tier Offscreen
39.8 fps (16%)
GFXBench - GFXBench 5.0 Aztec Ruins High Tier Offscreen
91 fps (17%)
161.4 fps (29%)
GPU TDP 10 W TDP 110 W 56% 100%
GFXBench - GFXBench 5.0 Aztec Ruins Normal Tier Offscreen
247 fps (18%)
360.7 fps (27%)
GPU TDP 10 W TDP 110 W 68% 100%
GFXBench - GFXBench Car Chase Offscreen
455 fps (51%)
199.9 fps (23%)
GPU TDP 10 W TDP 90 W 44% 100%
371 fps (42%)
GPU TDP 10 W TDP 90 W TDP 110 W 44% 100% 82%
GFXBench 3.1 - GFXBench Manhattan ES 3.1 Offscreen
597 fps (13%)
306.9 fps (6%)
GPU TDP 10 W TDP 90 W 51% 100%
500 fps (11%)
GPU TDP 10 W TDP 90 W TDP 110 W 51% 100% 84%
GFXBench 3.0 - GFXBench 3.0 Manhattan Offscreen
654 fps (38%)
483.7 fps (28%)
GPU TDP 10 W TDP 90 W 74% 100%
680 fps (40%)
GPU TDP 10 W TDP 90 W TDP 110 W 71% 96% 100%
GFXBench (DX / GLBenchmark) 2.7 GFXBench T-Rex HD Offscreen C24Z16 + NVIDIA RTX A5000 Laptop GPU GFXBench (DX / GLBenchmark) 2.7 - GFXBench T-Rex HD Offscreen C24Z16
2032 fps (16%)
GFXBench T-Rex HD Offscreen C24Z16 + Apple M2 8-Core GPU
839 fps (7%)
GPU TDP 10 W TDP 90 W 41% 100%
GFXBench T-Rex HD Offscreen C24Z16 + NVIDIA RTX A3000 Laptop GPU
1777 fps (14%)
GPU TDP 10 W TDP 90 W TDP 110 W 41% 100% 87%
LuxMark v2.0 64Bit - LuxMark v2.0 Room GPU
4101 Samples/s (19%)
2619 Samples/s (12%)
GPU TDP 90 W TDP 110 W 100% 64%
LuxMark v2.0 64Bit - LuxMark v2.0 Sala GPU
9147 Samples/s (16%)
6178 Samples/s (11%)
GPU TDP 90 W TDP 110 W 100% 68%
ComputeMark v2.1 - ComputeMark v2.1 Result
24031 Points (26%)
18652 Points (20%)
GPU TDP 90 W TDP 110 W 100% 78%
Power Consumption - Furmark Stress Test Power Consumption - external Monitor *
min: 125 avg: 157.7 median: 132 (19%) max: 216 Watt
GPU TDP 90 W TDP 155 W 118% 100%
min: 119 avg: 135.3 median: 134 (19%) max: 153 Watt
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 117% 119% 113% 100%
Power Consumption - The Witcher 3 Power Consumption - external Monitor *
min: 129 avg: 169 median: 152 (21%) max: 226 Watt
GPU TDP 90 W TDP 155 W 117% 100%
24.4 Watt (3%)
GPU TDP 10 W TDP 90 W TDP 155 W 141% 117% 100%
min: 137 avg: 141.8 median: 144 (20%) max: 144.5 Watt
GPU TDP 10 W TDP 80 W TDP 90 W TDP 110 W TDP 155 W 141% 118% 117% 117% 100%
Power Consumption - Witcher 3 Power Consumption *
min: 132 avg: 176.3 median: 165 (36%) max: 232 Watt
GPU TDP 90 W TDP 155 W 137% 100%
27.4 Watt (6%)
GPU TDP 10 W TDP 90 W TDP 155 W 192% 137% 100%
min: 150 avg: 152 median: 152.1 (33%) max: 154 Watt
GPU TDP 10 W TDP 80 W TDP 90 W TDP 110 W TDP 155 W 192% 137% 137% 135% 100%
Power Consumption - Witcher 3 ultra Power Efficiency
min: 0.4237 avg: 0.5 median: 0.5 (45%) max: 0.681 fps per Watt
GPU TDP 90 W TDP 155 W 100% 72%
min: 0.4073 avg: 0.4 median: 0.4 (39%) max: 0.4532 fps per Watt
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 69% 100% 77% 72%
Power Consumption - Witcher 3 ultra Power Efficiency - external Monitor
min: 0.435 avg: 0.6 median: 0.5 (45%) max: 0.697 fps per Watt
GPU TDP 90 W TDP 155 W 100% 70%
min: 0.446 avg: 0.5 median: 0.5 (39%) max: 0.4847 fps per Watt
GPU TDP 80 W TDP 90 W TDP 110 W TDP 155 W 72% 100% 78% 70%
Emissions Witcher 3 Fan Noise + NVIDIA RTX A5000 Laptop GPU Emissions - Witcher 3 Fan Noise
min: 44.2 avg: 45.4 median: 45.4 (73%) max: 46.6 dB(A)
GPU TDP 90 W TDP 155 W 95% 100%
Witcher 3 Fan Noise + NVIDIA RTX A3000 Laptop GPU
min: 44 avg: 44.5 median: 44.5 (71%) max: 44.9 dB(A)
GPU TDP 80 W TDP 90 W TDP 155 W 96% 95% 100%
Clock Speed - GPU Clock Witcher 3 ultra
1755 MHz (69%)
Clock Speed - GPU Clock Speed Furmark
1350 MHz (53%)
Average Benchmarks NVIDIA RTX A5000 Laptop GPU → 100% n=6 Average Benchmarks Apple M2 8-Core GPU → 59% n=6 Average Benchmarks NVIDIA RTX A3000 Laptop GPU → 93% n=6
- Range of benchmark values for this graphics card
- Average benchmark values for this graphics card
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation
Game Benchmarks The following benchmarks stem from our benchmarks of review laptops. The performance depends on the used graphics memory, clock rate, processor, system settings, drivers, and operating systems. So the results don't have to be representative for all laptops with this GPU. For detailed information on the benchmark results, click on the fps number.
RTX A3000 Laptop GPU:
181 fps
RTX A3000 Laptop GPU:
167.5 fps
RTX A3000 Laptop GPU:
120.9 fps