Subject: General Tech, Systems | September 9, 2013 - 01:00 PM | Tim Verry
Tagged: Xeon Phi, workstation, quadro, micron, LSI, k6000, Ivy Bridge-EP, firepro, dell
Along with the release of new mobile workstations, Dell announced three new desktop workstations. Specifically, Dell is launching the T3610, T5610, and T7610 PC workstations under its Precision series. The new systems reside in redesigned cases with improved cable management, removable power supplies (tool-less, removable by sliding out from rear panel), and in the case of the T7610 removable hard drives. All of the new Precision workstations have been outfitted with Intel's latest Ivy Bridge-EP based Xeon processors, ECC memory, workstation-class graphics cards from AMD and NVIDIA, Xeon Phi accelerator card options, LSI hardware RAID controllers, and updated software solutions from Intel and Dell.
The new Precision workstations side-by-side. From left to right: T3610, T5610, and T7610.
Dell's Precision T3610 is a the mid-tower system of the group powered by single socket Xeon E5-2600 v2 hardware that further supports up to 128GB DDR3 ECC memory, two graphics cards, three 3.5” hard drives, and four 2.5” SSDs.
The Precision T3610, a new single socket, mid-range workstation.
The Precision T5610 ups the ante to a dual socket IVB-EP processor system that can be configured with up to 128GB DDR3 ECC memory, two AMD FirePro or NVIDIA Quadro (e.g. Quadro K5000) graphics cards, a Tesla K20C accelerator card, three 3.5” hard drives, and four 2.5” solid state drives.
Finally, the T7610 workstation supports dual Intel Ivy Bridge-EP Xeon E5-2600 v2 series processors (up to 24 cores per system), up to 512GB DDR3 ECC memory, three graphics cards (including two NVIDIA Quadro K6000 cards), four 3.5” hard drives, and eight 2.5” SSDs.
Dell's Precision T5610 dual socket workstation.
The new Precision workstations can also be configured with an Intel Xeon Phi 3120A accelerator card in lieu of a Tesla card. The choice will mainly depend on the applications being used and the development resources and expertise available. Both options are designed to accelerate highly parallel workloads in applications that have been compiled to support them. Further, users can add an LSI hardware RAID card with 1GB of onboard memory to the systems. Dell further offers a Micron P320h PCI-E SSD that, while not bootable, offers up 350GB of high performance storage that excels at high sequential reads and writes.
On the software front, Dell is including the Dell Precision Performance Optimizer and the Intel Cache Acceleration Software. The former automatically configures and optimizes the workstation for specific applications based on profiles that are reportedly regularly updated. The other bit of software works to optimize systems that use both hard drives and SSDs with the SSDs as a cache for the mechanical storage. The Intel Cache Acceleration Software configures the caching algorithms to favor caching very large files on the solid state storage. It is a different approach to consumer caching strategies, but one that works well with businesses that use these workstations to process large data sets.
The Dell Precision T7610 workstation.
The Dell workstations are aimed at businesses doing scientific analysis, professional engineering, and complex 3D modeling. The T7610 in particular is aimed at the oil and gas industry for use in simulations and modeling as companies search for new oil deposits.
All three systems will be available for purchase worldwide beginning September 12th. Some of the options, such as 512GB of ECC and the NVIDIA Quadro K6000 on the T7610 will not be available until next month, however. The T3610 has a starting price of $1,099 while the T5610 and T7610 have starting prices of $2,729 and $3,059 respectively.
What are your thoughts on Dell's new mid-tower workstations?
Subject: Graphics Cards | July 23, 2013 - 01:00 PM | Tim Verry
Tagged: workstation, simulation, quadro k6000, quadro, nvidia, k6000, gk110
Today, NVIDIA announced its flagship Quadro graphics card called the K6000. Back in March of this year, NVIDIA launched a new like of Quadro graphics cards for workstations. Those cards replaced the Fermi-based predecessors with new models based on NVIDIA’s GK-104 “Kepler” GPUs. Notably missing from that new lineup was NVIDIA Quadro K6000, which is the successor to the Quadro 6000.
Contrary to previous rumors, the Quadro K6000 will be based on the full GK110 chip. In fact, it will be the fastest single-GPU graphics card that NVIDIA has to offer.
The Quadro K6000 features a full GK110 GPU, 12GB of GDDR5 memory on a 384-bit bus, and a 225W TDP. The full GK110-based GPU has 2,880 CUDA cores, 256 TMUs, and 48 ROPs. Unfortunately, NVIDIA has not yet revealed clockspeeds for the GPU or memory.
Thanks to the GPU not having any SMX units disabled, the NVIDIA Quadro K6000 is rated for approximately 1.4 TFLOPS of peak double precision floating point performance of and 5.2 TFLOPS of single precision floating point performance.
The chart below illustrates the differences between the new flagship Quadro K6000 with full GK110 GPU and the highest tier Tesla and consumer graphics cards which have at least one SMX unit disabled.
NVIDIA GK110-Based Graphics Cards
|Quadro K6000||Tesla K20X||GTX TITAN|
|Memory Bandwidth||288 GB/s||250 GB/s||288 GB/s|
|Single Precision FP||5.2 TFLOPS||3.95 TFLOPS||4.5 TFLOPS|
|Double Precision FP||~1.4 TFLOPS||1.31 TFLOPS||1.31 TFLOPS|
The NVIDIA GTX TITAN gaming graphics card has 2,688 CUDA cores, 224 TMUs, and 48 ROPs and is rated for peak double and single precision of 1.31 TFLOPS and 4.5 TFLOPS respectively. On the other hand, the lower-clocked Tesla K20X compute accelerator card has 2,688 CUDA cores, 224 TMUs, and 48 ROPs along with lower clockspeeds on the memory and GPU. Because of the lower clockspeeds, the K20X is rated for double and single precision floating point performance of 1.31 TFLOPS and 3.95 TFLOPS and memory bandwidth of 250GB/s versus the 288GB/s bandwidth on the TITAN and K6000.
NVIDIA® Quadro® K6000 GPU
In all, the new K6000 is an impressive card for professional users, and the GK110 chip should perform well in the workstation environment where GK104 was the only option before. NVIDIA claims that the GK110 is up to 3-times the performance of the Quadro 6000 (non K) predecessor. It is also the first Quadro GPU with 12GB of GDDR5 memory, which should lend itself well to high resolutions and artists working with highly detailed models and simulations.
Specifically, NVIDIA is aiming this graphics card at the visual computing market, which includes 3D designers, visual effects artists, 3d animation, and simulations. The company provided several examples in the press release, including using the GK110-based card to render nearly complete photorealistic vehicle models in RTT Deltagen that can run real time during design reviews.
The Quadro K6000 allows for larger and fully populated virtual sets with realistic lighting and scene detail when 3D animators and VFX artists are working with models and movie scenes in real time. Simulation work also takes advantage of the beefy double precision horsepower to support up to 3-times faster simulation run times in Terraspark's InsightEarth simulation. Users can run simulations with wider areas in less time than the previous generation Quardo cards, and is being used by oil companies to determine the best places to drill.
Pixar's Vice President of Software and R&D Guido Quaroni had the following to say regarding the K6000.
"The Kepler features are key to our next generation of real-time lighting and geometryhandling. The added memory and other features allow our artists to see much more of thefinal scene in a real-time, interactive form, which allows many more artistic iterations."
The K6000 is the final piece to the traditional NVIDIA Quadro lineup and is likely to be well recieved by workstation users that need the increased double precision performance that GK110 offers over the existing GK104 chips. Specific pricing and availability are still unknown, but the K6000 will be available from workstation providers, system integrators, and authorized distribution partners beginning this fall.
Subject: Graphics Cards | March 8, 2013 - 02:17 PM | Tim Verry
Tagged: quadro, nvidia, kepler, k6000, gk110
Earlier this week, NVIDIA updated its Quadro line of workstation cards with new GPUs with GK104 “Kepler” cores. The updated line introduced four new Kepler cards, but the Quadro 6000 successor was notably absent from the NVIDIA announcement. If rumors hold true, professionals may get access to a K6000 Quadro card after all, and one that is powered by GK110 as well.
According to rumors around the Internet, NVIDIA has reserved its top-end Quadro slot for a GK110-based graphics card. Dubbed the K6000 (and in line with the existing Kepler Quadro cards), the high-end workstation card will feature 13 SMX units, 2,496 CUDA cores, 192 Texture Manipulation Units, 40 Raster Operations Pipeline units, and a 320-bit memory bus. The K6000 card will likely have 5GB of GDDR5 memory, like its Tesla K20 counterpart. Interestingly, this Quadro K6000 graphics card has one less SMX unit than NVIDIA’s Tesla K20X and even NVIDIA’s consumer-grade GTX Titan GPU. A comparison between the rumored K6000 card, the Quadro K5000 (GK104), and other existing GK110 cards is available in the table below. Also, note that the (rumored) K6000 specs put it more in like with the Tesla K20 than the K20X, but as it is the flagship Quadro card I felt it was still fair to compare it to the flagship Telsa and GeForce cards.
|Quadro K6000||Tesla K20X||GTX Titan||GK110 Full (Not available yet)||Quadro K5000|
|DP TFLOPS||~1.17 TFLOPS||1.31 TFLOPS||1.31 TFLOPS||~1.4 TFLOPS||.09 TFLOPS|
The Quadro cards are in an odd situation when it comes to double precision floating point performance. The Quadro K5000 which uses GK104 brings an abysmal 90 GFLOPS of double precision. The rumored GK110-powered Quadro K6000 brings double precision performance up to approximately 1 TFLOPS, which is quite the jump and shows that GK104 really was cut down to focus on gaming performance! Further, the card that the K6000 is replacing in name, the Quadro 6000 (no prefixed K), is based on NVIDIA’s previous-generation Fermi architecture and offers .5152 TFLOPS (515.2 GFLOPS) of double precision performance. On the plus side, users can expect around 3.5 TFLOPS of single precision horsepower, which is a substantial upgrade over Quadro 6000's 1.03 TFLOPS of single precision floating point. For comparison, the GK104-based Quadro K5000 offers 2.1 TFLOPS of single precision. Although it's no full GK110, it looks to be the Quadro card to beat for the intended usage.
Of course, Quadro is more about stable drivers, beefy memory, and single precision than double precision, but it would be nice to see the expensive Quadro workstation cards have the ability to pull double duty, as it were. NVIDIA’s Tesla line is where DP floating point is key. It is just a rather wide gap between the two lineups that the K6000 somewhat closes, fortunately. I would have really liked to see the K6000 have at least 14 SMX units, to match consumer Titan and the Tesla K20X, but rumors are not looking positive in that regard. Professionals should expect to see quite the premium with the K6000 versus the Titan, despite the hardware differences. It will likely be sold for around $3,000.
No word on availability, but the card will likely be released soon in order to complete the Kepler Quadro lineup update.