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March 2015 |
ASUS Strix GeForce GTX 960 with factory-overclocked core delivers cool and silent experiences
- 1291MHz factory-overclocked GPU
- 1317MHz GPU boost clock in OC mode
- DirectCU with 0dB fan technology lets you enjoy light games in complete silence, and hardcore gaming 30% cooler with 3X-quieter performance
- Premium alloys in power delivery components defeat heat for cards that run 15% faster and last 2.5 times longer than reference
- GPU Tweak helps you modify clock speeds, voltages, fan performance and more, all via an intuitive interface
- GPU Tweak with XSplit Gamecaster: Real-time and intuitive GPU clock boost, and live-stream your gameplay instantly
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Specifications
GPU Engine Specs
|
| CUDA Cores |
1024 |
Engine Clock
|
GPU Boost Clock : 1317 MHz
GPU Base Clock : 1253 MHz
|
| |
|
| Memory Specs |
| Memory Clock |
7200 MHz ( GDDR5 ) |
| Standard Memory Config |
2048 MB |
| Memory Interface |
GDDR5 |
| Memory Interface Width |
128-bit |
| |
|
Power
|
Power Comsumption
|
Up to 150W, 1 additional 6 pin PCIe power required |
| |
|
| Display Support |
DVI Output
|
Yes x1 (DVI-I)
|
HDMI Output
|
Yes x1
|
| Display Output |
Yes x3 (Regular DP)
|
HDCP Support
|
Yes
|
| Standard Graphics Card Dimensions
|
| Length
|
8.47 inches
|
| Height
|
4.77 inches
|
| Width
|
1.61 inches
|
Note: It includes 1x DVI to VGA Adapter in accessories.
Click here to return
|
|
|
March 2015 |
ASUS Strix GeForce GTX 960 with factory-overclocked core delivers cool and silent experiences
- 1291MHz factory-overclocked GPU
- 1317MHz GPU boost clock in OC mode
- DirectCU with 0dB fan technology lets you enjoy light games in complete silence, and hardcore gaming 30% cooler with 3X-quieter performance
- Premium alloys in power delivery components defeat heat for cards that run 15% faster and last 2.5 times longer than reference
- GPU Tweak helps you modify clock speeds, voltages, fan performance and more, all via an intuitive interface
- GPU Tweak with XSplit Gamecaster: Real-time and intuitive GPU clock boost, and live-stream your gameplay instantly
|
|
Specifications
GPU Engine Specs
|
| CUDA Cores |
1024 |
Engine Clock
|
GPU Boost Clock : 1317 MHz
GPU Base Clock : 1253 MHz
|
| |
|
| Memory Specs |
| Memory Clock |
7200 MHz ( GDDR5 ) |
| Standard Memory Config |
2048 MB |
| Memory Interface |
GDDR5 |
| Memory Interface Width |
128-bit |
| |
|
Power
|
Power Comsumption
|
Up to 150W, 1 additional 6 pin PCIe power required |
| |
|
| Display Support |
DVI Output
|
Yes x1 (DVI-I)
|
HDMI Output
|
Yes x1
|
| Display Output |
Yes x3 (Regular DP)
|
HDCP Support
|
Yes
|
| Standard Graphics Card Dimensions
|
| Length
|
8.47 inches
|
| Height
|
4.77 inches
|
| Width
|
1.61 inches
|
Note: It includes 1x DVI to VGA Adapter in accessories.
Click here to return
|
|
|
March 2015 |
Compucon CPD Program
1 April 2015 Wednesday
Compucon House Albany
4:00 - 5:00pm Algorithms for New Business (TN)
5:00 - 5:30pm High Level View of FFT (Stefan)
5:30 - 6:00pm 2D FFT (Phil Fogle)
6:00 - 7:30pm Wine and Cheese
Algorithms for New Business
An algorithm is a precise recipe that specifies the exact sequence of steps required to solve a problem. It is the backbone of a software application that provides a specific function such as for accounting or scientific research. Compucon has been doing computing hardware system integration for 23 years and is now looking at algorithm and software as an extension of business scope for the future. Which other PC brands are doing this? Why do we want to do this? Are we capable of doing this? Would there be a market big enough for our group of peers? What exactly do we need to do? Which peers can be involved? This session is to examine this can of worms at the earliest instant of opening it (before it is too late). The recently completed parallel computing proof-of-concept project funded by the government provides a lot of supports to this exploration.
High Level View of FFT
We did a session on Fast Fourier Transform back in January which was in fact our first attempt to go into algorithm and software. The content we presented was from a software construction perspective instead of functional appraisal and it was outside the scope of most peers. This session is a remedy. We will explain what FFT does, which types of applications it serves, what the alternatives are, and an intimate relationship with computing hardware. If the January session is in the ‘too hard’ basket, this session is in the ‘just right’ basket for our peer group.
2D FFT
Phil has a quantum physics background and is practising professional photography these days. He will spend the first 10 min to introduce the concepts of the Fourier analysis and hence the origin of the transform. The main theme will be an illustration of use of FT in analysing Cosmic Microwave Background, and showing how we can learn about the origin of the universe and inflation. Both parts are not technical (though I would like to show the equations briefly). For peers, please treat this session as Outside the Square and expect to receive some stimulation of vision to extend our horizon.
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March 2015 |
Venue: Compucon House
Date: 04/03/2015
The
PDF files below are for Training Course members only. If you have
attended the training course and have problems viewing the files below,
please email us and we would be glad to help.
Training Course material (presentation slides):
2015TED
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|
February 2015 |
There are limits to the maximum number of drives per array and arrays per controller as listed below:
Note: the Adaptec RAID 71605E controller supports RAID 0, 1, 1E, and 10 only!
- Maximum Number of Devices: 256 (16 expanders and 240 drives) in all controller modes
- Maximum Number of Arrays or Simple Volumes per Controller: 64
- Maximum Number of Arrays that can be created on the same set of drives: 4
- Maximum Logical Drive Size: 512TB
- Maximum Number of Drives in Striped Array (such as RAID 0): 128
- Maximum Number of Drives in RAID 5 Array: 32
- Maximum Number of Drives in RAID 50 Array: 128
- Maximum Number of Drives in RAID 6 Array: 32
- Maximum Number of Drives in RAID 60 Array: 128
- Available Stripe Sizes for Arrays are 64, 128, 256, 512, or 1024 KB.
Striped RAID configurations have a default stripe size of 256 KB.
Note: A RAID 10, RAID 50, or RAID 60 array cannot have more
than 32 legs when created using the Build method. Maximum disk drive
count is only limited by RAID level. For instance:
- a RAID 10 array built with 64 RAID 1 legs (128 disk drives) is supported
- a RAID 50 array built with 32 RAID 5 legs (max. 128 disk drives) is also supported
Although you can create a RAID 10 array with more than 64 drives using
the Quick Init method, the maximum number of build/verify operations
that can happen simultaneously is 8.
Source: Adaptec ASK ID 17244
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