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PNY NVIDIA Quadro M5000 8GB GDDR5 + Quadro Sync
SKU
VCQM5000SYNC-PB
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In stock
NVIDIA Quadro M5000 8GB GDDR5, 150W, PCI Express 3.0 x16, 4096 x 2160 60Hz + Quadro Sync
Category: Graphics Cards
Maxwell Streaming Multiprocessor The heart of Maxwell’ power efficient performance is its newly designed Streaming Multiprocessor which delivers incredible performance and unmatched power efficiency, through an improved instruction scheduler and new data path organization. Maxwell Memory Architecture Improved caching effectiveness and significant enhancements in memory compression techniques in Maxwell reduces traffic and provides higher performance for applications dependent on memory bandwidth. Additionally, Maxwell‘s dedicated shared memory per SM (separated from the L1 cache) and larger L2 cache, dramatically improves programmability and efficiency. Viewport Multicast Dedicated hardware to automatically broadcast input geometry to render to multiple render targets which drastically speeds up ‘multi projection(the ability of rendering the same scene from multiple view) leading to accelerated rendering for cube maps used in multi view projectors and 3D CAVE environments. Sparse Textures Virtualizes texture sizes enabling applications to seamlessly work with large and complex data sets regardless of the available frame buffer. Accelerated Voxelization Enhancements to voxel handling techniques enables fast voxelization which significantly accelerates workflows like fluid simulation and 3D printing. Multiple Copy Engines Enables the highest rates of parallel data processing and concurrent throughput between the GPU and host, accelerating techniques such as ray tracing, color grading and physical simulation. Bindless Graphics Optimizes GPU utilization by dramatically reducing CPU-GPU interactions, enabling developers to implement more sophisticated and complex algorithms providing end users greater performance and higher levels of visual fidelity. H.264 and HEVC Encoder Dedicated H.264 and HEVC encode engine that is independent of 3D/compute pipeline and delivers faster than real-time performance for transcoding, video editing, and other encoding applications. NVIDIA CUDA Architecture Parallel-computing architecture that tightly integrates advanced visualization and compute features to significantly accelerate professional workflows. NVIDIA Scalable Geometry Engine Dramatically improves geometry performance across a broad range of CAD, DCC and medical applications, enabling you to work interactively with models and scenes that are an order of magnitude more complex than ever before. Dynamic Parallelism Simplifies GPU programming by allowing programmers to easily accelerate all parallel nested loops – resulting in a GPU dynamically spawning new threads on its own without going back to the CPU. Large Framebuffers with Ultra-Fast Bandwidth Large GPU memory with fast bandwidth for display of complex models and scenes, as well as computation of large datasets. PCI Express 3.0 Compliance Supports data transfer rate up to 8 GT/sec per lane for an aggregate bandwidth of 32 GB/sec bi-directional (16 GB/sec in each direction.) Error Correcting Code (ECC) on Graphics Memory Meets strict requirements for mission critical applications with uncompromised computing accuracy and reliability for workstations. Offers enhanced application data integrity protection through single bit memory error correction. Ultra-Quiet Design Silent cooling design enables lower acoustics for an ultra-quiet desktop environment. NVIDIA GPU Boost Maximum application performance through automatic adjustment of the GPU clock to take maximum advantage of the power and thermal headroom of the card in real-time. Full-Scene Antialiasing (FSAA) Up to 64X FSAA for dramatically reducing visual aliasing artifacts or "jaggies," resulting in unparalled image quality and highly realistic scenes. NVIDIA FXAA and TXAA Reduces visible aliasing and delivers higher image quality without the performance hit by harnessing the power of the GPU's CUDA cores and new film-style AA techniques. GPU Tessellation Quadro Tessellation Engines automatically generate finely detailed geometry for cinematic quality environments and scenes, without sacrificing performance. 16K Texture and Render Processing Provides the ability to texture from and render to 16K x 16K surfaces. Beneficial for applications that demand the highest resolution and quality image processing. Quadro Sync Ensures image and frame synchronization between up to four GPUs when running Quadro Mosaic or independent GPUs in clusters. Quadro Sync also allows synchronization to an external timing source (also known as genlock or house sync). Quadro Sync enables advanced visualization systems to scale the resolution of the display surface with multiple projectors or displays with standard applications or applications designed for clusters. Framelock RJ-45 Connectors Allows display channels from multiple systems to be synchronized, creating one large virtual display. The resulting virtual display can be driven by a multi-system cluster for performance scalability. For frame lock applications, the Quadro Sync board has to be connected to one or more additional Quadro Sync boards. Genlock (House Synchronization) BNC Connector One analog or digital genlock connector provides connectivity to a video sync source for SMPTE standard (digital, black burst, tri-level) synchronization. Expanded cross sync functionality permits an incoming house signal to synchronize a much larger number of video output signal formats. Supports up to Four NVIDIA Maxwell Architecture Quadro GPUs Each Quadro Sync board is capable of supporting up to four GPUs with up to 16 displays. For additional performance scalability multiple nodes can be connected into a cluster. NVIDIA CUDA Parallel Computing Architecture Quadro solutions leverage general-purpose GPU computing using standard programming languages like C/C++ and Fortran, and emerging APIs such as OpenCL and Direct Compute. This broad adoption of CUDA accelerates techniques like ray tracing, video and image processing, and computation fluid dynamics. NVIDIA GPUDirect NVIDIA GPUDirect capability increases compute performance when data throughput or latency reduction are key considerations by allowing direct access to GPU memory by 3rd-party devices such as SDI video adapters, NICs and SSDs. NVIDIA GPUDirect for Video NVIDIA GPUDirect for Video technology allows 3rd party hardware to communicate directly with NVIDIA GPUs. By taking advantage of this new API the historical issues of introducing too much delay or latency are gone. With NVIDIA GPUDirect for Video, devices are fully synchronized and the CPU doesn't waste cycles copying data between device drivers.
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In Stock | Y |