With the world’s first teraflop many-core processor, the NVIDIA® Tesla™ S1070 computing system speeds the transition to energy-efficient parallel computing. With 960 processor cores and a standard C compiler that simplifies application development, Tesla S1070 scales to solve the world’s most important computing challenges—more quickly and accurately.

Feeding HPC Industry’s Relentless Demand for Performance
Keeps pace with the increasing demands of the toughest computing challenges including drug research, oil and gas exploration and computational finance.

Many-core Architecture Delivers Optimum Scaling across HPC Applications
Parallel performance from 960 cores capable of concurrent execution of thousands of computing threads and scalable architecture meets computational demands of applications whose complexity has outstripped the CPU’s ability to solve them.

High Efficiency Computing Platform for Energy-conscious Organizations
Higher performance and higher density for solving complex problems with fewer resources.

NVIDIA CUDA™ Technology Unlocks the Power of Tesla Many-core Computing Products
The only C language environment that unlocks the many-core processing power of GPUs to solve the world’s most computationally-intensive challenges.

Features and Benefits

Four 1-Teraflop Processors in a High Density 1U System
Delivers up to 4 teraflops of performance in a 1U rack-mount system for unmatched performance in high density rack systems.

Massively-Parallel Many-Core Architecture
240 processor cores per GPU that can execute thousands of concurrent threads.

Scales to Multi-GPU Computing
Scale to thousands of processor cores to solve large-scale problems by splitting the problem across multiple GPUs.

Program in NVIDIA CUDA™: C for GPU
Programmable using CUDA, the world’s leading application development platform for many core solutions.

IEEE 754 Floating Point Precision [single-precision and double-precision]
Ensures your results meet industry standard precision including optional features to ensure accuracy.

Double-Precision Floating Point Support
Meets the precision requirements of your most demanding applications with 64-bit IEEE 754 Double Precision.

Asynchronous Data Transfer
Turbo charges system performance because data transfers can be executed even while the computing cores are busy.

4 GB High-Speed Memory per Processor
Enables larger datasets to be stored locally for each processor to maximize benefit from the 102GB/s memory transfer speeds and minimize data movement around the system.

512-Bit Memory Interface
Delivers 102 GB/s peak memory bandwidth for blistering data transfer.

High-Speed, PCI Express 2.0 Data Transfer
With low latency and high bandwidth, computing applications benefit from the highest data transfer rate possible through standard PCI Express architecture.

Single-screw Rail Mounting
Single-screw rail design is quick to install like a tool-less design, but with the extra security and rigidity from a single screw to secure the rail to the rack.

System Monitoring Features
Easy management and monitoring post-installation helps your IT staff manage systems with minimal effort. Remote capabilities and status lights on the front and rear of the unit ensure your staff can see the status whether they are on the other side of the rack, or the other side of the world.

Dual PCI Express 2.0 Cable Connections
Maximizes bandwidth between the host processor and the Tesla processors with up to 12.8 GB/s transfer rates (up to 6.4 GB/s per PCI Express connection).
Available only on Tesla S1070

Small-form-factor (SFF) host adapter card
The low power host adapter card enables Tesla systems to work with virtually any host system with an open PCI Express slot (x8 or x16). A list of validated systems is detailed in the www.nvidia.com/tesla section of NVIDIA’s website.