Interana is an online platform that provides self-service to facilitate “behavioral discovery and analysis” designed for business analysts. It was developed, from scratch, to analyze and make use of data from time series.
Interana is a pretty specific product. Although other offerings in this field were designed from scratch to provide time-series support, they tend to be specifically designed for particular use cases, such as process manufacturing. We have only one other product with general-purpose capabilities, and it is focused on predictive analytics. We don’t consider it an opponent to Interana. Other products on the market are either not able to use time-series technology (Tableau or Tableau), don’t support the kind of train of thought analysis that Interana provides (clickstream as well as mobile analytics), or are made specifically for IT experts and programmers (log analytics and so on) rather than business-oriented users.
Blue Cloud is an approach to shared infrastructure designed by IBM. IBM’s purpose for its Blue Cloud is to provide services that can automate the fluctuating demand of IT resources. The entire set of connected devices is sometimes referred to as”the “cloud.”
The principal goal that is the primary goal of Blue Cloud’s primary goal Blue Cloud project is to help facilitate the use of distributed computation in data centers instead of performing tasks on individual computers or distant servers. Blue Cloud makes use of virtualized Linux images as well as parallel schedulers for workloads. Blue Cloud also employs IBM’s Tivoli software to deliver services based on demand by sharing resources to end-users and monitoring the status of servers that have been provisioned.
Blue Cloud is supported by hundreds of engineers and developers worldwide and utilizes free and open-source applications, standards, technologies, and services. Blue Cloud offerings are expected to be made publicly available in 2008 for computers with PowerPC and x86 processors.
Hang up a moist towel, and when you get back, the towel is dry. You place up a container of dog water, and as you go to look, the level of water within the bowl has dropped even though Woofy isn’t in the bowl.
Where did the water that was not there? Where did the water that was lost go? It evaporated. This means that some part of the liquid inside the bowl or towel transformed into an invisible gas known as water vapor. Then it escaped into the air.
Similar things occur with seas, lakes, rivers, swamps, swimming pools, and everywhere water comes in the air.
Liquid water transforms into gas after water molecules are given extra energy by the heat source like the Sun or other water molecules running through them. The energetic molecules are then released from the liquid water and form gas. When they change from gas to liquid, they absorb heat, which they transfer into the air, and cool the water they release.
The air can hold a specific amount of water in vapor, according to the air’s temperature and weight or atmospheric pressure within a particular region. The more extreme the temperature or the atmospheric pressure, the more significant water vapor that the air can hold. If a certain amount of air can have every drop of water it can contain, it is referred to as “saturated.”
What happens when a saturated air volume is cooled, or the atmospheric pressure falls? The air is not in a position to hold the water in vapor. The excess book transforms from gas to solid or liquid (ice). The process of changing water from gas to liquid is referred to as “condensation,” and when gas transforms directly into solid, it’s called “deposition.” These two processes are what causes clouds to develop.
Condensation occurs with the aid of tiny particles floating within the air, like dust, salt crystals from sea spray, bacteria, or even volcanic ash. They provide the surfaces on which water vapor could transform into droplets of liquid or crystals of ice.
A massive accumulation of these drops or crystals of ice is called a cloud.
Clouds are usually considered high in the air; however, if the conditions are favorable, clouds can form on the ground, too. It’s referred to as “fog.” If you’ve had the pleasure of walking across fog, you’ve probably walked through clouds.
While cloud development’s fundamental concept is simple to comprehend, there’s more to be learned. Look beneath the cloud’s soft surface, and you’ll discover an array of possibilities. Clouds are considered one of the most challenging aspects of the science of climate.
Understanding the cloud system requires a thorough understanding of the whole atmosphere. Scientists are trying to improve their knowledge by using instruments like NASA’s Terra, Aqua, Aura, CALIPSO, CloudSat, and other satellites that study various aspects of clouds.
The more we understand clouds and the air that creates them, the more we’ll be able to learn about the changes occurring with our weather.
Internal Link – Newtimezone