What is GPU Computing and How can it Help My Business

Supercomputing is all about number crunching. A system reaches such a stage with help of multiple cores and micro-processor chips. A GPU does precisely this in a system by enhancing the Floating Point Operations per Second (FLOPS) and THIS lays the foundations for GPU Supercomputing.  To begin with, the Graphic Processing Units or the GPUs, for short come laden with advanced chip architecture.

High end GPU servers are connected to a cluster of external chassis that in turn are strengthened with PCIe Express circuits. This potent combination yields itself to a network configuration of up to 32 GPUs. GPU supercomputing is poised to transform the businesses and processes that rely on modern day technology.

GPU supercomputing makes optimum use of its CPU along with all other vital components simultaneously. As you probably know, the CPU is a store-house for processes and program instructions and since its inception it has been diligently carrying out the work assigned to it.

With the invention of a GPU, the load on a CPU was reduced and the GPU occupied itself with managing complicated computations with the help of microprocessors. In comparison to a CPU, a GPU has far greater resolutions of up to 16 bit or 32 bit colour value per pixel. Also, at the beginning, the GPUs were conceived with a view to process 2D graphics thereby enhancing the drawing in a Graphic User Interface on a Windows platform. Later, however with the advent of 3D the GPU too was transformed into a more sophisticated specialized system. As a result, the GPUs we have today function as ‘floating point processors’ that easily handle high value geometric calculations along with texture identifying processes.

This technology has further enhanced compatibility by expanding the platform and including MPEG settings for easy viewing of videos. Some versions of these High Performance Computing (HPC) systems can directly interpret the HD signal thereby giving more freedom to the CPU to focus on program instructions.

Thus this kind of supercomputing technology makes best possible use of these two mighty advancements. In terms of hardware, both the processing units look similar yet they are different. There are more transistors in a GPU as compared to a CPU. In some ways, the CPU still rules the domain of programming instructions whereas the GPU takes care of extra computations and graphic functionality only.

GPUs in a series can be inserted into a network for the best speed improvements.  The disk space, the Memory on the PCIe Bus, the technology means compatibility with testing of climate modeling, astrophysics, nuclear energy calculations etc., the range of temperatures in which they function, core processors, and many such parameters are crucial for a GPU supercomputing process to be useful.

If you are looking to invest in such a process, it is advisable to first understand your requirements and then approach a reputed name in the business with a proven track record.

This guest post was supplied by superxpert.com, they are experts in the supply of GPU Solutions.