|
July 2016 |
|
Get real interactive expression with NVIDIA® Quadro® —the world’s most powerful workstation graphics
The NVIDIA Quadro M5000, accelerated by NVIDIA’s
Maxwell™ GPU architecture, delivers incredible
performance within just 150W to let you unleash your
creativity and conquer extreme workloads with ease. 8
GB of GDDR5 GPU memory with fast bandwidth allows
you to create and render large, complex models and
compute massive datasets with ECC support for added
reliability. Plus, there’s a new display engine that drives
up to four 4K resolution displays natively for ultra-high
resolutions like 4096x2160 @ 60 Hz with 30-bit color.
Pair up two or more outputs to drive displays greater
than 4K, and take advantage of NVIDIA Quadro Sync
support to frame-lock multiple displays together.
Quadro cards are certified with a broad range of
sophisticated professional applications, tested by leading
workstation manufacturers, and backed by a global
team of support specialists. This gives you the peace
of mind to focus on doing your best work. Whether
you’re developing revolutionary products or telling
spectacularly vivid visual stories, Quadro gives you the
performance to do it brilliantly.
| GPU Memory |
8 GB GDDR5 |
| Memory Interface |
256-bit |
| Memory Bandwidth |
211 GB/s |
| NVIDIA CUDA® Cores |
2048 |
| System Interface |
PCI Express 3.0 x16 |
| Max Power Consumption |
150 W |
| Thermal Solution |
Active |
| Form Factor |
4.4” H × 10.5” L, Dual Slot,
Full Height |
| Display Connectors |
4x DP 1.2, DVI-I DL |
| Max Simultaneous Displays |
4 direct, 4 DP 1.2 Multi-Stream |
| Max DP 1.2 Resolution |
4096 × 2160 at 60 Hz |
| Max DVI-I DL Resolution |
2560 × 1600 at 60 Hz |
| DVI-I SL Resolution |
1920 × 1200 at 60 Hz
|
| Max VGA Resolution |
2048 × 1536 at 85 Hz
|
| Graphics APIs |
Shader Model 5.0,
OpenGL 4.5, DirectX 12.0,
Vulkan 1.0 |
| Compute APIs |
CUDA, DirectCompute,
OpenCL™
|
Note: GPU supports DX 12.0 API, Hardware Feature Level 12_1.
Click here to return
|
|
|
July 2016 |
|
The World’s Most Powerful Workstation Graphics Card
The NVIDIA M6000 24GB is the world’s most powerful
workstation graphics card, giving you the extreme
performance and on-board memory to take on your
biggest visualization challenges.
Artists, animators, and editors can now work in real-time
on their most complex projects with multiple layers and
advanced effects. Plus, product designers and engineers
don’t have to compromise on model complexity or image
quality when working on large assemblies; they can now
integrate interactive, physically based rendering and
simulation to evaluate product design and functionality
in entirely new ways. Geophysicists can also accelerate
their time-to-insight in seismic exploration by holding
substantially larger data sets in memory for faster
processing and analysis.
Quadro cards are certified with a broad range of
sophisticated professional applications, tested by leading
workstation manufacturers, and backed by a global
team of support specialists. This gives you the peace of
mind to focus on doing your best work. Whether you’re
developing revolutionary products or telling spectacularly
vivid visual stories, Quadro gives you the performance to
do it brilliantly.
| GPU Memory |
24 GB GDDR5 |
| Memory Interface |
384-bit |
| Memory Bandwidth |
Up to 317 GB/s |
| NVIDIA CUDA® Cores |
3072 |
| Peak Single Precision Performance |
Up to 7 TFLOPs |
| System Interface |
PCI Express 3.0 x16 |
| Max Power Consumption |
250 W |
| Thermal Solution |
Ultra-Quiet Active Fansink |
| Form Factor |
4.4” H × 10.5” L, Dual Slot,
Full Height |
| Display Connectors |
4x DP 1.2, DVI-I DL,
Optional Stereo |
| Max Simultaneous Displays |
4 direct, 4 DP 1.2 Multi-Stream |
| Max DP 1.2 Resolution |
4096 × 2160 at 60 Hz |
| Max DVI-I DL Resolution |
2560 × 1600 at 60 Hz Max |
| DVI-I SL Resolution |
1920 × 1200 at 60 Hz
|
| Max VGA Resolution |
2048 × 1536 at 85 Hz
|
| Graphics APIs |
Shader Model 5.0,
OpenGL 4.5, DirectX 12.0,
Vulkan 1.0 |
| Compute APIs |
CUDA, DirectCompute,
OpenCL™
|
Note: GPU supports DX 12.0 API, Hardware Feature Level 12_1.
Click here to return
|
|
|
July 2016 |
SKA for New Zealand Seminar
13 July 2016 Wednesday
AUT University Mayoral Drive Building WG Room 801
Programme (last revised 2016-07-10 5:15pm)
New Zealand has participated in the Pre-construction design of high
performance computing for the international SKA project since November
2013. New Zealand Alliance is the entity funded by the government to
organise our efforts. It consists of AUT, Massey University, University
of Auckland, Compucon New Zealand in Auckland; and Open Parallel,
Catalyst IT and Nyriad outside of Auckland. We have organised 4 C4SKA
events so far on how New Zealand contributed to SKA. This seminar
however is about how our efforts for SKA can be spinned off to New
Zealand industry, economy, and the future. This seminar is the 1st of
its kind. New Zealand Alliance is the organiser of the event.
1:00pm to 1:15pm Reception
1:15pm Overview of NZ Industry Involvements in SKA, Andrew Ensor (Dr)
1:40pm Getting New Zealand astronomy on world stage, Sergei Gulyaev (Prof) *1
2:05pm Open Architecture for New Zealand, TN Chan, Compucon
2:30pm to 3:00pm Tea/Coffee break
3:00pm Cloud, HPC and containers in the light of SKA- Bruno Lago & Piers Harding *2
3:20pm Interact COTE- extending SKA Industry-linked model, John Raine (Prof)
3:40pm Feature talk on pulsars- Testing Einstein's GR with SKA, Willem van Straten (Dr) *3
4:00pm to 4:30pm Floor discussions
4:30pm Seminar Close
*1 Professor Sergei Gulyaev will disclose the New Zealand involvement in a discovery of cosmic source of ultra-high energy particles and the event indicates more potentials for New Zealand computing and astronomy.
*2 Bruno Lago and Piers Harding are solution architects at Catalyst IT with years of experience on cloud computing, data analysis and
software development life-cycle management.
http://piersharding.com/download/slides/ska-seminar-2016.html#/
*3 Willem’s
presentation was too large.
http://downloads.aut.ac.nz/download.cgi?UUID=7053EFA64E1F11E6B37AB2BE544A7E92
|
|
|
June 2016 |
Compucon Code
|
1D3G4D (4GB)/ 1D3G8D (8GB)
|
Suitable for
|
Desktop PC
|
Module Specification
|
240Pin Unbuffered-DIMM
|
IC Configuration
|
512 x 8
|
| Density |
4GB / 8GB |
MRS Cycle with address key programs
|
N/A
|
DRAM Spec/VCC
|
N/A
|
| Power supply |
N/A |
| CAS Latency |
CL11 |
Working Voltage
|
1.35V (1.283V-1.45V) |
Operating Temperature
|
N/A |
Click here to return
|
|
|
June 2016 |
Compucon Code
|
1D4G4D (4GB)/ 1D4G8D (8GB)
|
Suitable for
|
Desktop PC
|
Module Specification
|
288Pin Unbuffered-DIMM
|
IC Configuration
|
512 x 8
|
| Density |
4GB / 8GB |
Power Supply
|
VDD&VDDQ=1.2V +0.06/- 0.06V
|
DRAM Activation Power Supply
|
VPP= 2.5V (2.375V min , 2.75 max)
|
| DRAM Spec/VCC |
DDR4 STD 1.2V |
| Operating Temperature |
0°C to +85°C |
Click here to return
|
|
|
|
<< Start < Prev 61 62 63 64 65 66 67 68 69 70 Next > End >>
|
| Results 541 - 549 of 2511 |
