DATABASEData refers to a set of values of both quantitative and qualitative variables. While information and data are used interchangeably, the extent to which a set of data is detailed and informative to a person depends on the degree at which it is unexpected by that individual. Shannon entropy can be used in characterizing the volume of information contained in a data stream. In most cases, data concept is mostly associated with scientific research.However, data is obtained by a wide range of institutions and organizations, including businesses such as revenue, sales data, stock prices and profits among others, governments, for instance, unemployment rates, crime rates and literacy rates and levels and also the non-governmental organizations i.e censuses on the number of homeless populations by non-profit institutions.Typically, data is usually collected, measured, assessed and analyzed. Consequently, after these steps, the data can be visualized with the use of images, graphs as well as other analytical tools. On general concepts, data refers to the reality that some of information or knowledge in existence is coded or represented in some form that is appropriate for better application of processing. Unprocessed or raw data is a collection of information in the way of numbers or characters before it has undergone cleansing and correction by researchers (“DATABASE Editorial Board 2009”, 2016). This type of data requires rectifications which ensure the removal of outliers or visible parts or data entry mistakes as is the case, for instance, with a thermometer recording from an outdoor Arctic place reading a tropical temperature.Data processing is done at stages, and the processed resultant data from step one can be regarded as raw data when presented in the next stage. Field information is the unprocessed data obtained in an uncontrolled or unaltered “in situ” environment while the experimental data is the information picked within the concepts of scientific research and study through observation and recording. Data, in most instances, is termed as the new oil in the digital economy. Consequently, data is more of information while its collection is described as a database. This is a well-organized collection of data in various forms such as tables, schemas, reports, queries, views among other objects (Mohanty, Jagadeesh & Srivatsa, 2013).While the multi-media capacities are increasingly becoming a standard phenomenon to computers of varying sizes, the databases are shifting to multi-media as well. The advanced DBMS allows the keeping and retrieval of the types of data such as spreadsheets, business graphs, clip arts or art clippings, sound, pictures, videos among others. These new types of data are referred to as objects. Database management systems, abbreviated as DBMS, are computer software applications which interact with the other implementations, the users as well as the database itself in capturing and analyzing data. The primary objective of DBMS is developed in a way that facilitates the creation, definition, querying, updating as well as the administration of databases (Krishnan, n.d.). DBMS are at times loosely termed as a database.Knowledge of databases is dependent on the individual’s experience and may date back to a couple of years or even back to the 1980s and 1990s. Some people, therefore, may not be aware of the old timers and types of database. Most of the major database systems have their roots dating back to the mid and late 1970s. This, therefore, emphasizes the fact that the database market is yet to be fully mature. The databases available in the market also compete stiffly. Most enterprise database systems are offered with a variety of features such as precise and effective backups as well as high-availability to extended cloud services (“NoSQL Database: Cassandra is a Better Option to Handle Big Data”, 2016). These database systems vary regarding prices. In this essay, we will focus majorly on NoSQL Database.The digital innovations are advancing tremendously due to new technologies. This results in a constant rise in the customers’ expectations. For almost every company this translates to a meaning that customer experiences and behavior has rapidly become among the most significant competitive advantages (“NoSQL in Action – A New Pathway to Database”, 2016). In response to this, most institutions are initiating and implementing the use of NoSQL databases with the aim of delivering extraordinary experiences to the consumer demands.While Altoros remains as the company behind some of the world’s significant NoSQL innovations, it knows from experience that NoSQL are created differently hence differing regarding equality. The company points out the differences between Cassandra or DataStax Enterprise, Couchbase Server, and the MongoDB and further offers explanations on how each of them is likely to impact the success or failure of any business projects. In their report, the critical areas that the company focuses on including the most significant architectural variations, typical application instances, and functional problems, primary evaluation criteria across the operation, availability as well as the ease in use (“NoSQL in Action – A New Pathway to Database”, 2016). The report finally addresses three database function regarding reading, writing and query data. It also discusses data consistency, deployments as well as the support of numerous data centers.In their report, the Altoros make evaluations on the three responses from various angles of view including the availability, performance, installation and maintenance ease, fault tolerance, recovery, replication, scalability among many more. This is a different approach as compared to the NoSQL comparisons which mainly focus on just a single or two dimensions.There are different types of NoSQL Databases. These include;Document databases which tend to pair each key with a complicated data structure referred to as a document. Differing high-value pairs, nested certificates or major-array pairs are usually contained in documents.Graph reservoirs are applied in the storing of information on the networks of data such as social connections. Giraph and Neo4J are examples of graph stores.The most straightforward NoSQL databases are the key-value stores. Each of the items in the database are kept as an attribute title or key together with its value. The various examples of key-value stores include Berkeley and Riak DB. Some of the key-value stores facilitate each value to have types such as integers which enhance functionality. An example of these types of key-value stores includes Redis.Wide-column stores such as HBase and Cassandra have optimizations for queries over large datasets. They store data together in the form of columns rather than rows.There are numerous advantages associated with NoSQL. When the comparison is conducted between NoSQL and the relational databases, it is notable that NoSQL databases offer superior performance and are more scalable. Consequently, their data models account for several concerns which are, by design, not addressed by the relational model. These concerns include the significant volumes of tremendously changing unstructured, semi-structured and structured data, quick schema iteration, agile sprints and frequent code pushes (Rodriguez, Malgapo, Quick & Huang, 2017). There are concerns about the object-oriented program which is flexible and easy to use and the geographically distributed scale-out architecture rather than the costly monolithic architecture.Dynamic SchemasIn relational databases, schemas are required to be defined before data is added. For instance, one may wish to store information regarding their customers such as first and last names, phone numbers, city, and state, as well as the address- a SQL database, requires that it is aware of what is to be stored in advance. This is poorly incorporated with the agile development concepts since every time one finalizes new features, the schema of their database will often require changes (Krishnan, n.d.). This means that in case one decides, a couple of iterations into advancement, that they desire to store their customers’ favorite items together with their phone numbers and addresses, they will be required to add that column to the database and later transfer the whole database to the newly created schema.In instances where the database is extensive, the process can be slow and time-consuming since it entails significant downtime. In cases where there is frequent changing of the data in the application store, the downtime may also be constant due to the rapid iteration. Relational databases also restrict any attempts to efficiently address an entirely unstructured data or that which is unknown in advance.NoSQL, on the other hand, are structured in a way that facilitates the insertion of data without the need for a predefined schema. This makes it easy to address significant application changes in actual-time with constant experiencing service interruptions or downtime. This means that the development is fast and reliable regarding code integration and requires minimal database administrator time. To emphasize on data quality controls such as the presence of data types, specified fields, and permissible values, the developers have typically had to include application-side code (Feinleib, 2014). More advanced NoSQL databases facilitate the validation of rules applicable within the database thus permitting the users to implement governance across data while at the same time maintaining the agility advantages of the dynamic schema.Auto-ShardingDue to their structural characteristic, relational databases typically scale vertically. An individual server is required to host the whole database to enable acceptable functionality for transactions and cross-table joins. This quickly becomes expensive, placing limits on the scale and also establishes a relatively small number if failure areas for database infrastructure. The response to support the tremendously advancing applications is to scale horizontally through the addition of servers rather than concentrating more capacity in an individual server.On the other hand, NoSQL usually facilitates auto-sharding. This means that they are automatically and natively spread across an arbitrary network of servers without the need for the system to have prior knowledge of the content of the server pool. There is an automatic balancing of the data query and loading across the servers (“DATABASE Editorial Board 2009”, 2016). In instances where the server experiences downtime, it can be replaced quickly and transparently without disruptions of the application.This is significantly eased by cloud computing, with suppliers such as the Amazon Web services offering virtually unlimited capacities upon demand while still taking into account of all the appropriate administration roles. Developers are no longer required to create sophisticated, costly platforms to enhance their applications and can concentrate on formulating the application code (Krishnan, n.d.). Commodity servers are capable of providing similar processing and storage capabilities as an individual high-end server for a subsidized price.ReplicationMost of the NoSQL database also facilitate automated replication of database with the aim of maintaining availability in case of planned maintenance or outages. More advanced NoSQL databases are entirely self-healing, providing automatic failover, recovery as well as the capacity to share the database across various geographic places to cope with local failures and enable data localization (Neeraj, n.d.). NoSQL, as compared to relational databases, lacks any requirements for different applications or costly add-ons to apply the replication.Integrated CachingSQL database systems obtain a caching tier from some commodities. The methods can substantially enhance read performance but have no abilities to improve the write performance. Consequently, they result in the addition of an operational complexity in the system deployments. In an application where reads are dominant, a distributed cache can be considered, but in instances where the app has a modest write volume, the overall experience of the end users may not be enhanced by a distributed cache. Furthermore, the management of cache invalidation will be involved. Most of the NoSQL databases have exhibited excellent capabilities in integrated caching thus getting rid of the need for a different caching layer while maintaining frequently-retrieved data in the system’s memory as much as possible. Entirely managed, integrated in-memory database management layers is provided by some NoSQL databases for workloads in need of high throughput and lowest latency (Deshpande, 2014).Whenever we talk about the major types of database, we fail not to mention big data. So, what is significant data? For enterprises of all sizes, there has been a shift in data management from the necessary competencies to the critical differentiators with the capabilities of determining the market winners as well as the has-beens. Fortune 1000 corporations and government institutions have begun ripping benefits from the innovations and advancements of the web pioneers. These institutions are formulating new programs while still reevaluating and reassessing the already established strategies and plans with the aim of evaluating the ways through which they can transform their enterprises using Big Data (Roza, 2014).While implementing this initiative, it is notable that Big Data does not entail a single technique, technology or program. On the contrary, this is a trend or pattern across numerous areas of business and technological innovations. In other words, Big Data infers to the innovations and initiatives involving a diversified, fast-developing and changing as well as massive data for current technological developments, techniques/skills as well as the infrastructure to address efficiently and efficiently (Neeraj, n.d.). On a different perspective, data is of a significant volume, velocity or variety.In the contemporary world, new advanced technologies facilitate the realization of the value associated with big data. For instance, retailers can track the user web clicks and views thus identifying the behavioral patterns and trends that enhance the advertisements, pricing as well as stockage. The household energy usage rates and levels can be captured using utilities thus efficient predictions on outages as well as the incenting proper energy uses. Google and even governments can detect and keep track of the disease outbreaks through social media channels and signals. Gas and oil industries can take into account the output made by sensors attached to their drilling machines thus creating more effective, efficient as well as safer drilling plans and decisions. It is impractical and impossible to manage the Big Data, which are describes data as very large and complex, using the traditional software tools (Feinleib, 2014). In particular, Big Data tends to relate to the creation, storage, retrieval as well as the analysis of data which are typical to be remarkable regarding velocity, volume, and variety:Velocity. Ad impressions and clickstreams collect the user character and behavior of millions of activities every second; high-frequency trading algorithms in the stock market reflect the changes in market within microseconds; also computer to computer processes share data across numerous devices; sensors and infrastructure generate a considerable log information in actual time; online gaming tools facilitate the applications by millions of concurrent gamers with each generating multiple and differing inputs each second.Volume. A typical computer has a possibility of having 10gigabytes of storage back in 2000. Currently, Facebook website collects 500 terabytes of new information daily; the proliferation of digital phones, the information they generate and use; Boeing 737 is capable of producing 240 terabytes of flight information while on a flight across America; sensors attached to everyday objects have the potential to generate soon billions of new, upgraded continuously data feeds comprising location, environmental among other types of information including videos.Variety. Big Data does not only entail dates, numbers, and strings. It is inclusive of geospatial data, audio, and video, 3D data as well as unstructured texts such as log files and social media. Older database systems are structured in a manner that they address relatively smaller volumes of structured information, limited updates or a predictable as well as consistent data. Consequently, the outdated database systems are also designed in a way that they function on a single server, thus increased capacity not only expensive but too finite. While the applications have consistently evolved to serve higher volumes of users, and an application development activities have become agile, the traditional use of the relational database is apparently becoming a liability to many companies rather than a facilitating factor in their operations. Databases such as MongoDB can solve issues such while offering various means to the companies to establish a remarkable business value.Other forms of database systems that support Big Data include MongoDB, MySQL, Microsoft SQL Server, Oracle Database and SAP Sybase ASE.Most corporations always start with the implementation of a small-scale NoSQL trial version. By this move, they are able to develop proper understanding of the advancement at low stakes. One of the prominent features of NoSQL is that it is an open source which means that it is downloadable then implemented and scaled at minimal cost. Due to the rapid development cycles, institutions can also advance at a fast rate and ensure the delivery of more profound customer experience at lowered prices. As organizations take into consideration the alternatives to the legacy developments, they may have a variety of motivations: identification of viable alternatives to costly proprietary applications and software, performing or scaling above the capabilities of their already in existent systems or increasing the agility and speed of advancement.Conclusively, the NoSQL is among the significant databases available in the market. They facilitate the handling of large volumes of data while also ensuring ease transfer of data across some servers. Additionally, the database is reliable since there are no downtime experiences. This makes it efficient and reliable. The database also facilitates various activities such as sharding with the need to make changes in the system.ReferencesDATABASE Editorial Board 2009. (2016). Database, 2009(0), bap023-bap023. http://dx.doi.org/10.1093/database/bap023Deshpande, T. (2014). Mastering DynamoDB. Birmingham: Packt Pub.Feinleib, D. (2014). Big Data Bootcamp. Berkeley, CA: Apress.Krishnan, K. Data warehousing in the age of big data.Mohanty, S., Jagadeesh, M., & Srivatsa, H. (2013). Big Data Imperatives. Berkeley, CA: Apress.Neeraj, N. Mastering Apache Cassandra.NoSQL Database: Cassandra is a Better Option to Handle Big Data. (2016). International Journal Of Science And Research (IJSR), 5(1), 24-26. http://dx.doi.org/10.21275/v5i1.nov152557NoSQL in Action – A New Pathway to Database. (2016). International Journal Of Science And Research (IJSR), 5(6), 872-877. http://dx.doi.org/10.21275/v5i6.nov164282Rodriguez, J., Malgapo, A., Quick, J., & Huang, C. (2017). Distributed Architecture of Mobile GIS Application Using NoSQL Database. International Journal Of Information And Electronics Engineering, 7(6), 156-160. http://dx.doi.org/10.18178/ijiee.2017.7.6.681Roza, G. (2014). Databases. New York: Rosen Publishing.