Description
The NVIDIA RTX 4500 Ada Generation is a high-end professional workstation GPU designed for demanding visualization, rendering, AI and data science workloads. Introduced in 2023, it belongs to NVIDIA’s Ada Lovelace-based RTX professional lineup and targets designers, engineers and content creators who need powerful real-time graphics and compute performance in desktop workstations. Built on TSMC’s 5 nm process, the RTX 4500 Ada delivers significant performance and efficiency gains over previous generations while fitting into a balanced power envelope for a wide range of certified OEM systems.
The RTX 4500 Ada features 7,680 CUDA cores, 240 fourth-generation Tensor Cores and 60 third-generation RT Cores, delivering up to 39.6 TFLOPS of FP32 compute, more than 630 TFLOPS of Tensor performance and strong ray tracing throughput for complex scenes and effects. Typical GPU clocks are around 2070 MHz base with boost frequencies up to approximately 2580 MHz, depending on workload, cooling and system configuration. This combination of high core counts and elevated boost clocks enables excellent performance in GPU-accelerated rendering, simulation, AI inference and real-time visualization applications across industries such as media and entertainment, architecture, manufacturing and scientific visualization.
Equipped with 24 GB of GDDR6 memory with ECC support, the RTX 4500 Ada uses a 192-bit memory interface to provide 432 GB/s of memory bandwidth. The large, error-correcting frame buffer is ideal for handling detailed 3D models, high-resolution textures, multi-stream video workflows and sizeable AI models that exceed the capacity of typical consumer GPUs. A substantial 48 MB L2 cache further improves effective bandwidth and reduces memory access latency, benefiting complex, data-intensive workloads.
With a total board power of 210 W, the RTX 4500 Ada is designed as a full-height, dual-slot PCIe 4.0 x16 card suitable for modern workstations from vendors such as Lenovo, Dell and HP. The efficient Ada Lovelace architecture allows the card to deliver high performance while remaining within a moderate power and thermal envelope, making it easier to integrate into existing chassis and power supply configurations. Active cooling solutions are optimized for workstation environments, providing sustained performance under long, heavy workloads.
Display connectivity on the RTX 4500 Ada typically includes four DisplayPort 1.4a connectors, supporting multi-monitor setups with up to four 5K displays at 60 Hz or dual 8K displays at 60 Hz, alongside HDR and high bit-depth color workflows. This makes the card well suited for complex timelines, expansive CAD layouts and immersive visualization environments that rely on multiple high-resolution displays. Professional features such as synchronization support, advanced stereo and NVIDIA Mosaic technology are available on certified configurations.
The RTX 4500 Ada also benefits from NVIDIA’s professional software ecosystem, including certified drivers for leading applications, CUDA and OptiX for compute and ray tracing, and AI frameworks that accelerate rendering, simulation and machine learning tasks. Fourth-generation Tensor Cores introduce support for FP8 and other optimized formats to boost AI training and inference efficiency, while third-generation RT Cores accelerate path tracing, reflections and global illumination. Dual video encode and decode engines with AV1 support enhance multi-stream video workflows for broadcast, review and collaboration scenarios.
Overall, the NVIDIA RTX 4500 Ada Generation is a powerful professional workstation GPU for users who need 24 GB of ECC memory, strong compute throughput and advanced ray tracing in a 210 W form factor, offering an excellent balance of performance, efficiency and capabilities beneath the RTX 5880 Ada and RTX 6000 Ada for modern design, visualization and AI pipelines.
