PNY 16GB NVIDIA Tesla P100 PCI-E Passive GPU module
HPC data centers need to support the ever-growing demands of scientists and researchers while staying within a tight budget. The old approach of deploying lots of commodity compute nodes requires huge interconnect overhead that substantially increases costs without proportionally increasing performance.
NVIDIA Tesla P100 GPU accelerators are the most advanced ever built, powered by the breakthrough NVIDIA Pascal™ architecture and designed to boost throughput and save money for HPC and hyperscale data centers. The newest addition to this family, Tesla P100 for PCIe enables a single node to replace half a rack ofcommodity CPU nodes by delivering lightning-fast performance in a broad range of HPC applications.
A GIANT LEAP IN PERFORMANCE
Tesla P100 for PCIe is reimagined from silicon to software, crafted with innovation at every level. Each groundbreaking technology delivers a dramatic jump in performance to substantially boost the data center throughput.
PAGE MIGRATION ENGINE
Simpler programming and computing performance tuning means that applications can now scale beyond the GPU’s physical memory size to virtually limitless levels.
Compute and data are integrated on the same package using Chip-onWafer-on-Substrate with HBM2 technology for 3X memory performance over the previous-generation architecture.
More than 18.7 TeraFLOPS of FP16, 4.7 TeraFLOPS of double-precision, and 9.3 TeraFLOPS of single-precision performance powers new possibilities in deep learning and HPC workloads.
Features The Tesla P100 for PCIe is the latest addition to the NVIDIA Tesla Accelerated Computing Platform. Key features include:
• Unmatched application performance for mixed-HPC workloads -- Delivering 4.7 teraflops and 9.3 teraflops of double-precision and single-precision peak performance, respectively, a single Pascal-based Tesla P100 node provides the equivalent performance of more than 32 commodity CPU-only servers.
• CoWoS with HBM2 for unprecedented efficiency -- The Tesla P100 unifies processor and data into a single package to deliver unprecedented compute efficiency. An innovative approach to memory design -- chip on wafer on substrate (CoWoS) with HBM2 -- provides a 3x boost in memory bandwidth performance, or 720GB/sec, compared to the NVIDIA Maxwell™ architecture.
• PageMigration Engine for simplified parallel programming -- Frees developers to focus on tuning for higher performance and less on managing data movement, and allows applications to scale beyond the GPU physical memory size with support for virtual memory paging. Unified memory technology dramatically improves productivity by enabling developers to see a single memory space for the entire node.
• Unmatched application support -- With 410 GPU-accelerated applications, including nine of the top 10 HPC applications, the Tesla platform is the world's leading HPC computing platform.
Tesla P100 for PCIe Specifications:
• 4.7 teraflops double-precision performance, 9.3 teraflops single-precision performance and 18.7 teraflops half-precision performance with NVIDIA GPU BOOST™ technology
• Support for PCIe Gen 3 interconnect (32GB/sec bi-directional bandwidth)
• Enhanced programmability with Page Migration Engine and unified memory
• ECC protection for increased reliability
• Server-optimized for highest data center throughput and reliability
• Available in two configurations:
16GB of CoWoS HBM2 stacked memory, delivering 720GB/sec of memory bandwidth
12GB of CoWoS HBM2 stacked memory, delivering 540GB/sec of memory bandwidth
|NVIDIA CUDA Cores||3584|
|NVIDIA Tensor Cores|
|Memory Size||16 GB|
|Memory Bit Rate||4096 Bit|
|Memory Bandwidth||720 GB/s|
|Single Precision Processing||Yes|
|Single Precision Performance||9.3 teraFLOPS|
|Double Precision Processing||Yes|
|Double Precision Performance||4.7 teraFLOPS|
|Deep Learning (Tensor) Performance|
|Integer Operations (INT8)|
|H.264 1080p30 Streams||N/A|
|Interface||PCIe 3.0 (x16)|
|Maximum Digital Resolution|
|Maximum VGA Resolution|
|Multi GPU Support|
|Multi Monitor Support|
|Supported Compute APIs|
|Supported Graphics APIs|
|Microsoft DirectX Support|
|Low Profile Compatible||No|
|Low Profile Support|
|Board Power||250 W|
|Graphics Card Power Connectors|
|Minimum Recommended PSU|
|Maximum GPU Temperature|
Please note your statutory rights are not affected.
For further information regarding Scan's warranty procedure please see our terms and conditions
- 36 months
- Return to base
- DOA Period:
- 28 days
- RTB Period:
- 120 months
- 0871 472 4747
Date Issued: 2nd Dec 2010
NVIDIA® CUDA parallel computing architecture is enabled on GeForce, Quadro, and Tesla products. Whereas GeForce and Quadro are designed for consumer graphics and professional visualization respectively, the NVIDIA® Tesla™ product family is designed ground-up for parallel computing and offers exclusive computing features.
Date Issued: 8th Oct 2010
Modern desktop computers and notebooks comprise of a CPU, motherboard, graphics, storage, and, usually an optical drive. Computers have a number of ports and sockets that enable the user to plug-in various peripherals such as a printer, USB mouse, or, perhaps most importantly of all, an Internet connection.
Date Issued: 22nd Oct 2008
CUDA technology is the world’s only C language environment that enables programmers and developers to write software to solve complex computational problems in a fraction of the time by tapping into the many-core parallel processing power of GPUs.
Date Issued: 20th Oct 2008
This TekSpek explains why you’d want to overclock your graphics board, the risks in doing so and how you can go about doing it.
Date Issued: 20th Oct 2008
This TekSpek will assume you know the affects of applying a level of anti-aliasing (AA) on your 3D accelerator, be it via the driver control panel or via a control in your game. We assume you know the effect it has on image quality, so you can think about a before and after scenario. So this TekSpek isn’t about explaining what it does as such, although it will, it’s about explaining the how and why.
Date Issued: 20th Oct 2008
Explaining how a modern GPU works in completeness would take a book. Or two. Per class of chip. Per vendor. They’re extraordinarily complex pieces of engineering and production, and the end result contains more transistors than multiple modern x86 processors.
Date Issued: 25th Jun 2008
This TekSpek explains DirectX 10, which graphics cards support it, how they work and what the consumer’s choices are.
Date Issued: 14th Jun 2008
We’ve all been victims of static electricity at some point. Perhaps somebody’s used a balloon to make your hair stand on end, or you’ve walked across the office and been ‘shocked’ by a metal door knob? That’s electrostatic discharge at work.