While usually purchased together for use as a system, both the LRX and Mobile Demand hand-held computer are compatible with other RS-232 data capture equipment. Complete system includes the ALMACO LRX, Mobile Demand hand-held computer, ALMACO Harvest software, printer and all communication links. ALMACO will provide installation on any type of plot combine or modified commercial combine equipped with sample-handling hoppers.
The Seed Spector LRX was designed to offer major improvements over previous models, including faster data processing response times, easier calibration processes, more control relays and increased memory for programming and calibration storage. Plus, the Seed Spector LRX is compatible with existing Seed Spector installations.
CCAST provides large-scale, state-of-the-art computing resources to the users:
The cluster2 consists of 32x compute nodes and 1x login node. The total aggregated theroretical peak performance is ~ 2.8TFLOPS. The aggregated memory and aggregated local storage are ~ 1.0TB and ~ 5.3TB, respectively. Each node is interconnected through Gigabit Ethernet switches. The system details are shown below:
CCAST provides large-scale, state-of-the-art computing resources to the users:
The cluster3 consists of 128x compute nodes and 1x login node. The total aggregated theroretical peak performance is ~ 10.9TFLOPS. The aggregated memory and aggregated local storage are ~ 6.1TB and ~ 20.5TB, respectively. Each node is interconnected via both ultra-low latency high-speed Myri-10G and Gigabit Ethernet. The system details are shown below:
CCAST provides large-scale, state-of-the-art computing resources to the users:
The Thunder cluster consists of 53 compute nodes and 2 login nodes. The total aggregated theroretical peak performance is ~40TFLOPS. All these nodes are interconnected with FDR Infiniband at a 56Gbit/s transfer rate. The system details are shown below
(One of ten) The Cray XC is a Massively Parallel Processor (MPP) supercomputer design. It is therefore built from many thousands of individual nodes.
●Compute nodes: These only do user computation and are referred to as “Compute nodes”
The Cray company prioritize chassis energy efficiency in powering and cooling their systems. Cray company also promote energy efficiency in the manufacture, operation, and eventual decommissioning of these systems.
Today there is a class of applications that can take advantage of the combination of powerful accelerator technologies and Cray’s system expertise to provide leading total performance and maximum efficiency. Cray offers accelerated systems specifically designed for parallel in-node efficiency and optimized off-node communication. These systems are available with today’s powerful NVIDIA graphics processing units (GPUs) and are designed for designed for upgradeability to future technologies.
The Cray CS-Storm 500NX configuration scales up to eight NVIDIA Tesla Volta or Pascal architecture GPUs (V100, P100) using NVIDIA® NVLink™ to reduce latency and increase bandwidth between GPU-to-GPU communications, enabling larger models and faster results for AI and deep learning neural network training.
Cray® CS-Storm™ cluster supercomputers tackle the toughest extreme HPC and artificial intelligence (AI) workloads. Designed for speed, architected for scale and integrated for production use.
(cluster of ~20) This machine has the combination for simplified management of complex data and communications. Available in dual or quad core, Xeon fits solidly into diverse computing environments. Rack mount formats make our Xeon based servers easy to install and maintain.
For high-density computing and high-performance applications, the Xeon 5500 Series offers everything needed to develop a rackmount infrastructure project.