compare-table

NVIDIA RTX Professional Laptop GPUs

GPU Specifications

Performance

Laptop GPUs

NVIDIA CUDA® Processing Cores¹

NVIDIA RT Cores

NVIDIA Tensor Cores

GPU Memory

Peak Memory Bandwidth

Memory Type

Memory Interface

TGP Max Power Consumption²

DisplayPort³

PCIe Generation

NVIDIA MAX-Q Technology

NVENC / NVDEC⁶

Single Precision Floating-Point Performance (TFLOPS,Peak)⁴

AI TOPS⁹

Tensor Performance (TFLOPS, Peak)^4,5

NVIDIA RTX 5000 Ada Generation

9,728

76 (3rd Gen)

304 (4th Gen)

16GB ECC⁷

576GB/s

GDDR6

256-bit

80-175W

1.4a

42.6

682

681.8

NVIDIA RTX 4000 Ada Generation

7,424

58 (3rd Gen)

232 (4th Gen)

12GB ECC⁷

432GB/s

GDDR6

192-bit

60-175W

1.4a

33.6

538

538.0

NVIDIA RTX 3500 Ada Generation

5,120

40 (3rd Gen)

160 (4th Gen)

12GB ECC⁷

432GB/s

GDDR6

192-bit

60-140W

1.4a

23.0

369

368.6

NVIDIA RTX 3000 Ada Generation

4,608

36 (3rd Gen)

144 (4th Gen)

8GB ECC⁷

256GB/s

GDDR6

128-bit

35-140W

1.4a

19.9

319

318.6

NVIDIA RTX 2000 Ada Generation

3,072

24 (3rd Gen)

96 (4th Gen)

8GB

256GB/s

GDDR6

128-bit

35-140W

1.4a

14.5

232

231.6

NVIDIA RTX 1000 Ada Generation

2,560

20 (3rd Gen)

80 (4th Gen)

6GB

192GB/s

GDDR6

96-bit

35-140W

1.4a

12.1

193

193.0

NVIDIA RTX 500 Ada Generation

2,048

16 (3rd Gen)

64 (4th Gen)

4GB

128GB/s

GDDR6

64-bit

35-60W

1.4a

9.2

154

147.4

NVIDIA RTX A5500

7,424

58 (2nd Gen)

232 (3rd Gen)

16GB ECC⁷

512GB/s

GDDR6

256-bit

80-165W

1.4a

24.7

396

197.8

NVIDIA RTX A4500

5,888

46 (2nd Gen)

184 (3rd Gen)

16GB ECC⁷

512GB/s

GDDR6

256-bit

80-140W

1.4a

18.5

297

148.4

NVIDIA RTX A3000 12GB

4,096

32 (2nd Gen)

128 (3rd Gen)

12GB ECC⁷

336GB/s

GDDR6

192-bit

60-130W

1.4a

14.1

226

113.0

NVIDIA RTX A2000 8GB

2,560

20 (2nd Gen)

80 (3rd Gen)

8GB

224GB/s

GDDR6

128-bit

35-95W

1.4a

9.3

149

74.3

NVIDIA RTX A1000 6GB

2,560

20 (2nd Gen)

80 (3rd Gen)

6GB

168GB/s

GDDR6

96-bit

35-95W

1.4a

9.3

149

74.6

NVIDIA RTX A500

2,048

16 (2nd Gen)

64 (3rd Gen)

4GB

112GB/s

GDDR6

64-bit

20-60W

1.4a⁸

7⁸

120

56⁸

1. CUDA parallel processing cores cannot be compared between GPU generations due to several important architectural differences that exist between streaming multiprocessor designs. 2. Maximum possible power consumption including the Dynamic Boost algorithm. For system specific GPU TGP, please consult your OEM/solution provider. 3. Display support varies by system-level implementation. Check with your workstation OEM vendor for system specific configurations. Adaptors available for DVI-SL, DVI-DL, HDMI, and VGA. 4. Peak rates are based on GPU boost clock. 5. Effective TFLOPS using the sparsity feature. NVIDIA Ada Lovelace architecture using FP8 matrix multiply with FP16 or FP32 accumulate; NVIDIA Ampere architecture using FP16 matrix multiply with FP16 or FP32 accumulate. 6. Number of NVENC and NVDEC may vary by GPU. GPU specific details can be found here: https://developer.nvidia.com/video-encode-and-decode-gpu-support-matrix-new 7. Ensures data integrity and reliability by eliminating soft errors on direct random-access memory (DRAM) only. 8. Peak FLOP and display support for NVIDIA RTX A500 Laptop GPU varies by system configuration. Check with your OEM system vendor to confirm which specification is supported. 9. FP8 TOPS with Sparsity.